ORF » Species Summary » Ailuropoda melanoleuca » SETD5 cDNA ORF clone

SETD5 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

The following SETD5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SETD5 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OAc100087 XM_019792802.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100087 XM_019792803.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100087 XM_019792806.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100087 XM_019792807.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100087 XM_019792804.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100087 XM_019792805.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100088 XM_019792808.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100089 XM_019792809.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100090 XM_019792810.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc100091 XM_019792811.1
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc16819 XM_002929989.3
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OAc29762 XM_011216681.2
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OAc29766 XM_011216685.2
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OAc29768 XM_011216687.2
Latest version!		 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    SETD5 ( XM_019792802.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648361.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792802.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648361.1
    CDS756..5246
    Translation

    Target ORF information:

    RefSeq Version XM_019792802.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792802.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792804.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648363.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792804.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648363.1
    CDS880..5370
    Translation

    Target ORF information:

    RefSeq Version XM_019792804.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792804.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792803.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648362.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792803.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648362.1
    CDS839..5329
    Translation

    Target ORF information:

    RefSeq Version XM_019792803.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792803.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792805.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648364.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792805.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648364.1
    CDS696..5186
    Translation

    Target ORF information:

    RefSeq Version XM_019792805.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792805.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792806.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648365.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792806.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648365.1
    CDS178..4668
    Translation

    Target ORF information:

    RefSeq Version XM_019792806.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792806.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792807.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648366.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAc100087
    Clone ID Related Accession (Same CDS sequence) XM_019792802.1 , XM_019792804.1 , XM_019792803.1 , XM_019792805.1 , XM_019792806.1 , XM_019792807.1
    Accession Version XM_019792807.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648366.1
    CDS420..4910
    Translation

    Target ORF information:

    RefSeq Version XM_019792807.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792807.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGAACAT ATCCTCCCCT GAGAGTTCCC CTGCGAATAG GCCCGAGTCC 
    CTGTCACCCG AGCTTTGTCA CCGGAAGGAC CTGGACTTGA CAAAAGTAGG CTACCTTGAC 
    TCCAACACTA ACAGCTGTGC TGACAGACCT TCCCTGATCA ACTCAGGTCC TTCTGACCTG 
    GCTCCTCATC CCTCTGTCGG GCCCCCCTCT GAGACTGGCT TTCCAAGTAG GAGTGGAGAT 
    GGACATCAGA CCCTTGCAAG GAACTCGGAC CAGGCATTTC GGACAGAGTT TAACTTAATG 
    TACGCCTACT CCCCATTGAA CGCTATGCCT CGAGCAGATG GATTATATCG AGGGTCTCCC 
    CTAGTAGGGG ATAGGAAGCC TTTACATTTG GACGGGGGAT ATTGTTCCCC TGCAGAAGGG 
    TTTCCCAGCA GATATGAACA TAGTTTTATG AAAGACCTCT CTCGTGGATC CGTATCACCT 
    GGTGGTGAAA GGGCTTGTGA AGGAGTCCCG TCTGCCCCCC AGAACCCACC GCAGAGGAAA 
    AAGGTATCCC TGCTGGAGTA CCGCAAACGG AAACAAGAAG CCAAGGAGAA TTCTGGTGGG 
    GGAGGTGACT CTGCACAGAG CAAAATCAAG TCTGCAGGAG CTGGGCAAGG CAGCAGTAAC 
    TCACTTTCTG ACACTGGTGC CCATGGTGTG CAGGGATCCT CAACCCGAAC CCCATCTTCC 
    CCTCACAAAA AATTCTCCCC ATCTCATTCC TCTATGTCCC ATATGGAGGC GGTAAGCCCA 
    TCAGATTCCA GAGGCACTTC ATCTCACTGC AGACCTCAAG AGAATATCAG CAGTAGGTGG 
    ATGGTTCCCA CGTCAGTGGA ACGACTCCGA GAAGGAGGGA GCATCCCCAA GGTTCTCCGA 
    AGCAGTGTAA GGGTGGCCCA AAAAGGAGAG CCTTCTCCCA CGTGGGAGAG TAACATCACA 
    GAGAAAGACT CAGACCCTAC GGATGGAGAA GGCCCAGAGA CACTGAGCTC AGCACTCTCT 
    AAAGGAGCAG CCGTTTACAG CCCTTCCAGA TACAGCTACC AGCTCCTGCA GTGTGATAGT 
    CCACGGACAG AATCACAAAG CCTCCTTCAG CAGAGTTCCT CCCCCTTTAG AGGACATCCC 
    ACCCAATCTC CAGGATACAG TTATCGAACT ACTGCACTGA GACCTGGAAA TCCCCCCTCT 
    CACGGTTCTT CAGAATCTTC CCTCTCTTCT ACGTCCTATT CCAGCCCCGC CCACCCTGTA 
    TCCACAGACT CGTTGGCCCC ATTTACGGGG ACACCAGGGT ATTATAGCAG CCAGCCACAT 
    TCTGGAAACA GCACTGGCAG CAATCTTCCA AGGAGGAGCT GCCCTTCTAG TGCTGCTAGC 
    CCTACCCCAC AGGGCCCCTC AGACTCGCCG ACCTCAGACT CGGTCTCCCA GTCCAGCACA 
    GGAACTCTGA GTTCCACCTC CTTCCCTCAG AACTCTAGGT CGTCATTGCC ATCAGACTTA 
    CGGACTATCA GTCTGCCCAG TGCTGGGCAG TCCACTGCCT ACCAGGCCTC CAGGGTATCT 
    GCGGTTTCCA ATTCACAGCA CTACCCACAC CGTGGGAGTG GGGGTGTGCA CCAGTACCGA 
    CTCCAGCCGC TGCAAGGGTC AGGAGTCAAG ACTCAGACAG GACTTTCCTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792808.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648367.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OAc100088
    Clone ID Related Accession (Same CDS sequence) XM_019792808.1
    Accession Version XM_019792808.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGAATTC TCCTTCTGAA 
    GCACAGAATT TAGATGAGAA TACAACTGAG GGATGGGAAA ATCGGATAAG ACTATGGACT 
    GATCAGTATG AAGAAGCTTT CACTAATCAG TACAGTGCAG ATGTACAGAA CGCCCTTGAA 
    CAACATCTAC ATTCTAGCAA GGAATTTGTG GGCAAACCTG CTATTTTAGA CACTATTAAT 
    AAGACTGAAT TGGCCTGTAA TAATACAGTT ATTGGTTCCC AAATGCAGCT ACAGTTGGGA 
    AGAGTCACTC GTGTTCAGAA GCACCGGAAG ATCCTGAGGG CTGCAAGAGA CTTGGCTCTG 
    GACACTCTTA TAATAGAGTA TCGAGGGAAA GTCATGTTAC GACAACAATT TGAGGTCAAT 
    GGGCATTTCT TCAAAAAACC ATACCCCTTT GTGCTCTTCT ACTCAAAATT CAATGGTGTA 
    GAGATGTGTG TGGATGCACG TACTTTCGGT AATGATGCTC GGTTCATCAG AAGATCGTGT 
    ACACCAAATG CAGAGGTGCG ACACATGATT GCAGATGGGA TGATTCACCT GTGTATCTAT 
    GCTGTATCTG CCATCACCAA AGATGCTGAG GTCACCATAG CATTTGACTA TGAGTACAGT 
    AACTGTAATT ATAAAGTGGA CTGTGCGTGT CACAAGGGGA ACCGGAATTG CCCTATACAG 
    AAAAGGAATC CCAATGCTGC AGAACCACCA CTCCCACCTC CTCCAAGCTT ACCCACCATC 
    GGAGCAGAGA CAAGACGTAG AAAAGCACGA CGGAAAGAGC TAGAGATGGA GCAGCAGAAT 
    GAGGCTCCAG AAGAGGATAA CAGTCAGCAA CCAGAACAAG TTCCTGAGAA AGCAACTGTG 
    TCCAGTGACC ATGAGGAAAT AGACAATCCA GAAGAAAAAG CAGAAGAGGA GAAAGAAGAG 
    GTTACCGATG ACCAGGAGAA CCCAGCTCAT AGCAGAAGGA CCCGGGAAGA TAGGAAGGTC 
    GAAGCCATCA TGCATGCTTT TGAAAACTTA GAGAAAAGAA AGAAGCGGCG GGATCAGCCC 
    TTGGAACAAA GCAGCTCTGA CATAGAGATT ACTACCACCA CTTCAGAGGT CCCTGTGGGA 
    GAAGAGGCAA AAACTGAAGC CCCTGAACCT GAAGTTAGCA ACCCTGCTTC AAACATGGCC 
    ATCCCAAGCA CCCCCCAGAG TGTTGGTGTG AACACCCGGA GGTCTTCCCA AGCAGGGGAT 
    GTTGCTGCAG AGAAACCAGT CCCCAAGCCA CCTCCAGCAA AGCCTTCTAG GCCCCGACCG 
    AAGAGTCGAA TTTCTCGGTA CCGGACCAGT TCAGCCCAAA GACTAAAGCG TCAGAAGCAG 
    GCCATTGCAC AACAGGCAGA GTTGTCACAA GCTGCCTTGG AAGATGGAGG AAATAACAGC 
    TCTGTAACTC CTACTGAAGC TGGAAATATA GACAGTTCAG GAGAAAACAG GCAATTAATG 
    GGGTCTGATC CAACTGTGGT ATCAGTTACT GGATCCCATG TCAACCGTGC TGCACCTAAA 
    TACCCCAAAA CCAAAAAGTA TCTAGTTACA GAATGGTTGA ATGACAAAGC AGAGAAGCAA 
    GAATGCCCTG TTGAGTGCCC TTTACGTATC ACCACGGACC CAACTGTACT GGCAACAACC 
    CTGAACATGT TACCCGGTCT TATCCATTCC CCATTAATTT GCACCACCCC CAAACACTAC 
    ATTCGCTTTG GCTCACCCTT TATCCCTGAG AGACGTCGAA GACCCCTTCT GCCTGATGGC 
    ACCTTCAGCT CCTGTAAAAA GCGCTGGATA AAGCAAGCCT TGGAAGAAGG GATGACTCAA 
    ACATCATCTG TACCCCAAGA GACTAGAACT CAGCACCTAT ACCAAAGTAA TGAGAATAGT 
    AACTCTTCTA GTATCTGCAA AGATAATGCA GACTTGTTGA GCCCATTAAA GAAATGGAAG 
    TCTCGCTATC TGATGGAGCA GAATGTCACC AAGTTACTGC GGCCTCTTTC TCCAGTCACA 
    CCACCCCCTC CCAATCCAGG CTCAAAGAGC CCCCCACTGA CCACACCTGG CCCATCTCAC 
    CCAGAAGAGG AGTGTCGAAA TGGATACAGC CTCATGTTCT CACCAATCAC GTCTCTTACT 
    ACTGCTAGTC GCTGCAATAC TCCTCTGCAG TTTGAGAACA TATCCTCCCC TGAGAGTTCC 
    CCTGCGAATA GGCCCGAGTC CCTGTCACCC GAGCTTTGTC ACCGGAAGGA CCTGGACTTG 
    ACAAAAGTAG GCTACCTTGA CTCCAACACT AACAGCTGTG CTGACAGACC TTCCCTGATC 
    AACTCAGGTC CTTCTGACCT GGCTCCTCAT CCCTCTGTCG GGCCCCCCTC TGAGACTGGC 
    TTTCCAAGTA GGAGTGGAGA TGGACATCAG ACCCTTGCAA GGAACTCGGA CCAGGCATTT 
    CGGACAGAGT TTAACTTAAT GTACGCCTAC TCCCCATTGA ACGCTATGCC TCGAGCAGAT 
    GGATTATATC GAGGGTCTCC CCTAGTAGGG GATAGGAAGC CTTTACATTT GGACGGGGGA 
    TATTGTTCCC CTGCAGAAGG GTTTCCCAGC AGATATGAAC ATAGTTTTAT GAAAGACCTC 
    TCTCGTGGAT CCGTATCACC TGGTGGTGAA AGGGCTTGTG AAGGAGTCCC GTCTGCCCCC 
    CAGAACCCAC CGCAGAGGAA AAAGGTATCC CTGCTGGAGT ACCGCAAACG GAAACAAGAA 
    GCCAAGGAGA ATTCTGGTGG GGGAGGTGAC TCTGCACAGA GCAAAATCAA GTCTGCAGGA 
    GCTGGGCAAG GCAGCAGTAA CTCACTTTCT GACACTGGTG CCCATGGTGT GCAGGGATCC 
    TCAACCCGAA CCCCATCTTC CCCTCACAAA AAATTCTCCC CATCTCATTC CTCTATGTCC 
    CATATGGAGG CGGTAAGCCC ATCAGATTCC AGAGGCACTT CATCTCACTG CAGACCTCAA 
    GAGAATATCA GCAGTAGGTG GATGGTTCCC ACGTCAGTGG AACGACTCCG AGAAGGAGGG 
    AGCATCCCCA AGGTTCTCCG AAGCAGTGTA AGGGTGGCCC AAAAAGGAGA GCCTTCTCCC 
    ACGTGGGAGA GTAACATCAC AGAGAAAGAC TCAGACCCTA CGGATGGAGA AGGCCCAGAG 
    ACACTGAGCT CAGCACTCTC TAAAGGAGCA GCCGTTTACA GCCCTTCCAG ATACAGCTAC 
    CAGCTCCTGC AGTGTGATAG TCCACGGACA GAATCACAAA GCCTCCTTCA GCAGAGTTCC 
    TCCCCCTTTA GAGGACATCC CACCCAATCT CCAGGATACA GTTATCGAAC TACTGCACTG 
    AGACCTGGAA ATCCCCCCTC TCACGGTTCT TCAGAATCTT CCCTCTCTTC TACGTCCTAT 
    TCCAGCCCCG CCCACCCTGT ATCCACAGAC TCGTTGGCCC CATTTACGGG GACACCAGGG 
    TATTATAGCA GCCAGCCACA TTCTGGAAAC AGCACTGGCA GCAATCTTCC AAGGAGGAGC 
    TGCCCTTCTA GTGCTGCTAG CCCTACCCCA CAGGGCCCCT CAGACTCGCC GACCTCAGAC 
    TCGGTCTCCC AGTCCAGCAC AGGAACTCTG AGTTCCACCT CCTTCCCTCA GAACTCTAGG 
    TCGTCATTGC CATCAGACTT ACGGACTATC AGTCTGCCCA GTGCTGGGCA GTCCACTGCC 
    TACCAGGCCT CCAGGGTATC TGCGGTTTCC AATTCACAGC ACTACCCACA CCGTGGGAGT 
    GGGGGTGTGC ACCAGTACCG ACTCCAGCCG CTGCAAGGGT CAGGAGTCAA GACTCAGACA 
    GGACTTTCCT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648367.1
    CDS756..5207
    Translation

    Target ORF information:

    RefSeq Version XM_019792808.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792808.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGAATTC TCCTTCTGAA 
    GCACAGAATT TAGATGAGAA TACAACTGAG GGATGGGAAA ATCGGATAAG ACTATGGACT 
    GATCAGTATG AAGAAGCTTT CACTAATCAG TACAGTGCAG ATGTACAGAA CGCCCTTGAA 
    CAACATCTAC ATTCTAGCAA GGAATTTGTG GGCAAACCTG CTATTTTAGA CACTATTAAT 
    AAGACTGAAT TGGCCTGTAA TAATACAGTT ATTGGTTCCC AAATGCAGCT ACAGTTGGGA 
    AGAGTCACTC GTGTTCAGAA GCACCGGAAG ATCCTGAGGG CTGCAAGAGA CTTGGCTCTG 
    GACACTCTTA TAATAGAGTA TCGAGGGAAA GTCATGTTAC GACAACAATT TGAGGTCAAT 
    GGGCATTTCT TCAAAAAACC ATACCCCTTT GTGCTCTTCT ACTCAAAATT CAATGGTGTA 
    GAGATGTGTG TGGATGCACG TACTTTCGGT AATGATGCTC GGTTCATCAG AAGATCGTGT 
    ACACCAAATG CAGAGGTGCG ACACATGATT GCAGATGGGA TGATTCACCT GTGTATCTAT 
    GCTGTATCTG CCATCACCAA AGATGCTGAG GTCACCATAG CATTTGACTA TGAGTACAGT 
    AACTGTAATT ATAAAGTGGA CTGTGCGTGT CACAAGGGGA ACCGGAATTG CCCTATACAG 
    AAAAGGAATC CCAATGCTGC AGAACCACCA CTCCCACCTC CTCCAAGCTT ACCCACCATC 
    GGAGCAGAGA CAAGACGTAG AAAAGCACGA CGGAAAGAGC TAGAGATGGA GCAGCAGAAT 
    GAGGCTCCAG AAGAGGATAA CAGTCAGCAA CCAGAACAAG TTCCTGAGAA AGCAACTGTG 
    TCCAGTGACC ATGAGGAAAT AGACAATCCA GAAGAAAAAG CAGAAGAGGA GAAAGAAGAG 
    GTTACCGATG ACCAGGAGAA CCCAGCTCAT AGCAGAAGGA CCCGGGAAGA TAGGAAGGTC 
    GAAGCCATCA TGCATGCTTT TGAAAACTTA GAGAAAAGAA AGAAGCGGCG GGATCAGCCC 
    TTGGAACAAA GCAGCTCTGA CATAGAGATT ACTACCACCA CTTCAGAGGT CCCTGTGGGA 
    GAAGAGGCAA AAACTGAAGC CCCTGAACCT GAAGTTAGCA ACCCTGCTTC AAACATGGCC 
    ATCCCAAGCA CCCCCCAGAG TGTTGGTGTG AACACCCGGA GGTCTTCCCA AGCAGGGGAT 
    GTTGCTGCAG AGAAACCAGT CCCCAAGCCA CCTCCAGCAA AGCCTTCTAG GCCCCGACCG 
    AAGAGTCGAA TTTCTCGGTA CCGGACCAGT TCAGCCCAAA GACTAAAGCG TCAGAAGCAG 
    GCCATTGCAC AACAGGCAGA GTTGTCACAA GCTGCCTTGG AAGATGGAGG AAATAACAGC 
    TCTGTAACTC CTACTGAAGC TGGAAATATA GACAGTTCAG GAGAAAACAG GCAATTAATG 
    GGGTCTGATC CAACTGTGGT ATCAGTTACT GGATCCCATG TCAACCGTGC TGCACCTAAA 
    TACCCCAAAA CCAAAAAGTA TCTAGTTACA GAATGGTTGA ATGACAAAGC AGAGAAGCAA 
    GAATGCCCTG TTGAGTGCCC TTTACGTATC ACCACGGACC CAACTGTACT GGCAACAACC 
    CTGAACATGT TACCCGGTCT TATCCATTCC CCATTAATTT GCACCACCCC CAAACACTAC 
    ATTCGCTTTG GCTCACCCTT TATCCCTGAG AGACGTCGAA GACCCCTTCT GCCTGATGGC 
    ACCTTCAGCT CCTGTAAAAA GCGCTGGATA AAGCAAGCCT TGGAAGAAGG GATGACTCAA 
    ACATCATCTG TACCCCAAGA GACTAGAACT CAGCACCTAT ACCAAAGTAA TGAGAATAGT 
    AACTCTTCTA GTATCTGCAA AGATAATGCA GACTTGTTGA GCCCATTAAA GAAATGGAAG 
    TCTCGCTATC TGATGGAGCA GAATGTCACC AAGTTACTGC GGCCTCTTTC TCCAGTCACA 
    CCACCCCCTC CCAATCCAGG CTCAAAGAGC CCCCCACTGA CCACACCTGG CCCATCTCAC 
    CCAGAAGAGG AGTGTCGAAA TGGATACAGC CTCATGTTCT CACCAATCAC GTCTCTTACT 
    ACTGCTAGTC GCTGCAATAC TCCTCTGCAG TTTGAGAACA TATCCTCCCC TGAGAGTTCC 
    CCTGCGAATA GGCCCGAGTC CCTGTCACCC GAGCTTTGTC ACCGGAAGGA CCTGGACTTG 
    ACAAAAGTAG GCTACCTTGA CTCCAACACT AACAGCTGTG CTGACAGACC TTCCCTGATC 
    AACTCAGGTC CTTCTGACCT GGCTCCTCAT CCCTCTGTCG GGCCCCCCTC TGAGACTGGC 
    TTTCCAAGTA GGAGTGGAGA TGGACATCAG ACCCTTGCAA GGAACTCGGA CCAGGCATTT 
    CGGACAGAGT TTAACTTAAT GTACGCCTAC TCCCCATTGA ACGCTATGCC TCGAGCAGAT 
    GGATTATATC GAGGGTCTCC CCTAGTAGGG GATAGGAAGC CTTTACATTT GGACGGGGGA 
    TATTGTTCCC CTGCAGAAGG GTTTCCCAGC AGATATGAAC ATAGTTTTAT GAAAGACCTC 
    TCTCGTGGAT CCGTATCACC TGGTGGTGAA AGGGCTTGTG AAGGAGTCCC GTCTGCCCCC 
    CAGAACCCAC CGCAGAGGAA AAAGGTATCC CTGCTGGAGT ACCGCAAACG GAAACAAGAA 
    GCCAAGGAGA ATTCTGGTGG GGGAGGTGAC TCTGCACAGA GCAAAATCAA GTCTGCAGGA 
    GCTGGGCAAG GCAGCAGTAA CTCACTTTCT GACACTGGTG CCCATGGTGT GCAGGGATCC 
    TCAACCCGAA CCCCATCTTC CCCTCACAAA AAATTCTCCC CATCTCATTC CTCTATGTCC 
    CATATGGAGG CGGTAAGCCC ATCAGATTCC AGAGGCACTT CATCTCACTG CAGACCTCAA 
    GAGAATATCA GCAGTAGGTG GATGGTTCCC ACGTCAGTGG AACGACTCCG AGAAGGAGGG 
    AGCATCCCCA AGGTTCTCCG AAGCAGTGTA AGGGTGGCCC AAAAAGGAGA GCCTTCTCCC 
    ACGTGGGAGA GTAACATCAC AGAGAAAGAC TCAGACCCTA CGGATGGAGA AGGCCCAGAG 
    ACACTGAGCT CAGCACTCTC TAAAGGAGCA GCCGTTTACA GCCCTTCCAG ATACAGCTAC 
    CAGCTCCTGC AGTGTGATAG TCCACGGACA GAATCACAAA GCCTCCTTCA GCAGAGTTCC 
    TCCCCCTTTA GAGGACATCC CACCCAATCT CCAGGATACA GTTATCGAAC TACTGCACTG 
    AGACCTGGAA ATCCCCCCTC TCACGGTTCT TCAGAATCTT CCCTCTCTTC TACGTCCTAT 
    TCCAGCCCCG CCCACCCTGT ATCCACAGAC TCGTTGGCCC CATTTACGGG GACACCAGGG 
    TATTATAGCA GCCAGCCACA TTCTGGAAAC AGCACTGGCA GCAATCTTCC AAGGAGGAGC 
    TGCCCTTCTA GTGCTGCTAG CCCTACCCCA CAGGGCCCCT CAGACTCGCC GACCTCAGAC 
    TCGGTCTCCC AGTCCAGCAC AGGAACTCTG AGTTCCACCT CCTTCCCTCA GAACTCTAGG 
    TCGTCATTGC CATCAGACTT ACGGACTATC AGTCTGCCCA GTGCTGGGCA GTCCACTGCC 
    TACCAGGCCT CCAGGGTATC TGCGGTTTCC AATTCACAGC ACTACCCACA CCGTGGGAGT 
    GGGGGTGTGC ACCAGTACCG ACTCCAGCCG CTGCAAGGGT CAGGAGTCAA GACTCAGACA 
    GGACTTTCCT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792809.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648368.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OAc100089
    Clone ID Related Accession (Same CDS sequence) XM_019792809.1
    Accession Version XM_019792809.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648368.1
    CDS756..5189
    Translation

    Target ORF information:

    RefSeq Version XM_019792809.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792809.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTGA TCATAATTAC GGAGCCCCTC CTCCTCCGAC ACCTCCTGCT 
    TCTCCCCCTG TCCAGACGAT CATCCCTCGT TCTGACCTGA ATGGCCTGCC GTCGCCCGTA 
    GAGGAACGCT GTGGAGACAG CCCGAACTCT GAAGGAGAGA CTGTTCCTAC CTGGTGTCCT 
    TGTGGTCTTT CTCAGGATGG CTTCCTTCTC AACTGTGACA AGTGCAGGGG AATGAGCAGG 
    GGGAAGGTTA TTAGACTTCA TCGGCGGAAG CAGGACAACA TATCAGGTGG GGATAGCAGT 
    GCAACAGAAA GCTGGGATGA GGAGCTTTCT CCTTCCACTG TGTTGTACAC AGCAACACAG 
    CACACACCTA CAAGCATCAC CTTAACTGTT AGAAGAACCA AACCCAAGAA GCGGAAGAAG 
    AGTCCAGAAA AGGGTCGCGC AGCAGCAAAG ACGAAGAAAA TCAAGGCATT TCGAGAGGGA 
    TCCCGGAAGT CCTTGCGGAT GAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792810.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648369.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OAc100090
    Clone ID Related Accession (Same CDS sequence) XM_019792810.1
    Accession Version XM_019792810.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTAC GATCATCCCT CGTTCTGACC TGAATGGCCT GCCGTCGCCC 
    GTAGAGGAAC GCTGTGGAGA CAGCCCGAAC TCTGAAGGAG AGACTGTTCC TACCTGGTGT 
    CCTTGTGGTC TTTCTCAGGA TGGCTTCCTT CTCAACTGTG ACAAGTGCAG GGGAATGAGC 
    AGGGGGAAGG TTATTAGACT TCATCGGCGG AAGCAGGACA ACATATCAGG TGGGGATAGC 
    AGTGCAACAG AAAGCTGGGA TGAGGAGCTT TCTCCTTCCA CTGTGTTGTA CACAGCAACA 
    CAGCACACAC CTACAAGCAT CACCTTAACT GTTAGAAGAA CCAAACCCAA GAAGCGGAAG 
    AAGAGTCCAG AAAAGGGTCG CGCAGCAGCA AAGACGAAGA AAATCAAGGC ATTTCGAGAG 
    GGATCCCGGA AGTCCTTGCG GATGAAGAAT TCTCCTTCTG AAGCACAGAA TTTAGATGAG 
    AATACAACTG AGGGATGGGA AAATCGGATA AGACTATGGA CTGATCAGTA TGAAGAAGCT 
    TTCACTAATC AGTACAGTGC AGATGTACAG AACGCCCTTG AACAACATCT ACATTCTAGC 
    AAGGAATTTG TGGGCAAACC TGCTATTTTA GACACTATTA ATAAGACTGA ATTGGCCTGT 
    AATAATACAG TTATTGGTTC CCAAATGCAG CTACAGTTGG GAAGAGTCAC TCGTGTTCAG 
    AAGCACCGGA AGATCCTGAG GGCTGCAAGA GACTTGGCTC TGGACACTCT TATAATAGAG 
    TATCGAGGGA AAGTCATGTT ACGACAACAA TTTGAGGTCA ATGGGCATTT CTTCAAAAAA 
    CCATACCCCT TTGTGCTCTT CTACTCAAAA TTCAATGGTG TAGAGATGTG TGTGGATGCA 
    CGTACTTTCG GTAATGATGC TCGGTTCATC AGAAGATCGT GTACACCAAA TGCAGAGGTG 
    CGACACATGA TTGCAGATGG GATGATTCAC CTGTGTATCT ATGCTGTATC TGCCATCACC 
    AAAGATGCTG AGGTCACCAT AGCATTTGAC TATGAGTACA GTAACTGTAA TTATAAAGTG 
    GACTGTGCGT GTCACAAGGG GAACCGGAAT TGCCCTATAC AGAAAAGGAA TCCCAATGCT 
    GCAGAACCAC CACTCCCACC TCCTCCAAGC TTACCCACCA TCGGAGCAGA GACAAGACGT 
    AGAAAAGCAC GACGGAAAGA GCTAGAGATG GAGCAGCAGA ATGAGGCTCC AGAAGAGGAT 
    AACAGTCAGC AACCAGAACA AGTTCCTGAG AAAGCAACTG TGTCCAGTGA CCATGAGGAA 
    ATAGACAATC CAGAAGAAAA AGCAGAAGAG GAGAAAGAAG AGGTTACCGA TGACCAGGAG 
    AACCCAGCTC ATAGCAGAAG GACCCGGGAA GATAGGAAGG TCGAAGCCAT CATGCATGCT 
    TTTGAAAACT TAGAGAAAAG AAAGAAGCGG CGGGATCAGC CCTTGGAACA AAGCAGCTCT 
    GACATAGAGA TTACTACCAC CACTTCAGAG GTCCCTGTGG GAGAAGAGGC AAAAACTGAA 
    GCCCCTGAAC CTGAAGTTAG CAACCCTGCT TCAAACATGG CCATCCCAAG CACCCCCCAG 
    AGTGTTGGTG TGAACACCCG GAGGTCTTCC CAAGCAGGGG ATGTTGCTGC AGAGAAACCA 
    GTCCCCAAGC CACCTCCAGC AAAGCCTTCT AGGCCCCGAC CGAAGAGTCG AATTTCTCGG 
    TACCGGACCA GTTCAGCCCA AAGACTAAAG CGTCAGAAGC AGGCCATTGC ACAACAGGCA 
    GAGTTGTCAC AAGCTGCCTT GGAAGATGGA GGAAATAACA GCTCTGTAAC TCCTACTGAA 
    GCTGGAAATA TAGACAGTTC AGGAGAAAAC AGGCAATTAA TGGGGTCTGA TCCAACTGTG 
    GTATCAGTTA CTGGATCCCA TGTCAACCGT GCTGCACCTA AATACCCCAA AACCAAAAAG 
    TATCTAGTTA CAGAATGGTT GAATGACAAA GCAGAGAAGC AAGAATGCCC TGTTGAGTGC 
    CCTTTACGTA TCACCACGGA CCCAACTGTA CTGGCAACAA CCCTGAACAT GTTACCCGGT 
    CTTATCCATT CCCCATTAAT TTGCACCACC CCCAAACACT ACATTCGCTT TGGCTCACCC 
    TTTATCCCTG AGAGACGTCG AAGACCCCTT CTGCCTGATG GCACCTTCAG CTCCTGTAAA 
    AAGCGCTGGA TAAAGCAAGC CTTGGAAGAA GGGATGACTC AAACATCATC TGTACCCCAA 
    GAGACTAGAA CTCAGCACCT ATACCAAAGT AATGAGAATA GTAACTCTTC TAGTATCTGC 
    AAAGATAATG CAGACTTGTT GAGCCCATTA AAGAAATGGA AGTCTCGCTA TCTGATGGAG 
    CAGAATGTCA CCAAGTTACT GCGGCCTCTT TCTCCAGTCA CACCACCCCC TCCCAATCCA 
    GGCTCAAAGA GCCCCCCACT GACCACACCT GGCCCATCTC ACCCAGAAGA GGAGTGTCGA 
    AATGGATACA GCCTCATGTT CTCACCAATC ACGTCTCTTA CTACTGCTAG TCGCTGCAAT 
    ACTCCTCTGC AGTTTGAGAA CATATCCTCC CCTGAGAGTT CCCCTGCGAA TAGGCCCGAG 
    TCCCTGTCAC CCGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648369.1
    CDS756..5189
    Translation

    Target ORF information:

    RefSeq Version XM_019792810.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792810.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTAC GATCATCCCT CGTTCTGACC TGAATGGCCT GCCGTCGCCC 
    GTAGAGGAAC GCTGTGGAGA CAGCCCGAAC TCTGAAGGAG AGACTGTTCC TACCTGGTGT 
    CCTTGTGGTC TTTCTCAGGA TGGCTTCCTT CTCAACTGTG ACAAGTGCAG GGGAATGAGC 
    AGGGGGAAGG TTATTAGACT TCATCGGCGG AAGCAGGACA ACATATCAGG TGGGGATAGC 
    AGTGCAACAG AAAGCTGGGA TGAGGAGCTT TCTCCTTCCA CTGTGTTGTA CACAGCAACA 
    CAGCACACAC CTACAAGCAT CACCTTAACT GTTAGAAGAA CCAAACCCAA GAAGCGGAAG 
    AAGAGTCCAG AAAAGGGTCG CGCAGCAGCA AAGACGAAGA AAATCAAGGC ATTTCGAGAG 
    GGATCCCGGA AGTCCTTGCG GATGAAGAAT TCTCCTTCTG AAGCACAGAA TTTAGATGAG 
    AATACAACTG AGGGATGGGA AAATCGGATA AGACTATGGA CTGATCAGTA TGAAGAAGCT 
    TTCACTAATC AGTACAGTGC AGATGTACAG AACGCCCTTG AACAACATCT ACATTCTAGC 
    AAGGAATTTG TGGGCAAACC TGCTATTTTA GACACTATTA ATAAGACTGA ATTGGCCTGT 
    AATAATACAG TTATTGGTTC CCAAATGCAG CTACAGTTGG GAAGAGTCAC TCGTGTTCAG 
    AAGCACCGGA AGATCCTGAG GGCTGCAAGA GACTTGGCTC TGGACACTCT TATAATAGAG 
    TATCGAGGGA AAGTCATGTT ACGACAACAA TTTGAGGTCA ATGGGCATTT CTTCAAAAAA 
    CCATACCCCT TTGTGCTCTT CTACTCAAAA TTCAATGGTG TAGAGATGTG TGTGGATGCA 
    CGTACTTTCG GTAATGATGC TCGGTTCATC AGAAGATCGT GTACACCAAA TGCAGAGGTG 
    CGACACATGA TTGCAGATGG GATGATTCAC CTGTGTATCT ATGCTGTATC TGCCATCACC 
    AAAGATGCTG AGGTCACCAT AGCATTTGAC TATGAGTACA GTAACTGTAA TTATAAAGTG 
    GACTGTGCGT GTCACAAGGG GAACCGGAAT TGCCCTATAC AGAAAAGGAA TCCCAATGCT 
    GCAGAACCAC CACTCCCACC TCCTCCAAGC TTACCCACCA TCGGAGCAGA GACAAGACGT 
    AGAAAAGCAC GACGGAAAGA GCTAGAGATG GAGCAGCAGA ATGAGGCTCC AGAAGAGGAT 
    AACAGTCAGC AACCAGAACA AGTTCCTGAG AAAGCAACTG TGTCCAGTGA CCATGAGGAA 
    ATAGACAATC CAGAAGAAAA AGCAGAAGAG GAGAAAGAAG AGGTTACCGA TGACCAGGAG 
    AACCCAGCTC ATAGCAGAAG GACCCGGGAA GATAGGAAGG TCGAAGCCAT CATGCATGCT 
    TTTGAAAACT TAGAGAAAAG AAAGAAGCGG CGGGATCAGC CCTTGGAACA AAGCAGCTCT 
    GACATAGAGA TTACTACCAC CACTTCAGAG GTCCCTGTGG GAGAAGAGGC AAAAACTGAA 
    GCCCCTGAAC CTGAAGTTAG CAACCCTGCT TCAAACATGG CCATCCCAAG CACCCCCCAG 
    AGTGTTGGTG TGAACACCCG GAGGTCTTCC CAAGCAGGGG ATGTTGCTGC AGAGAAACCA 
    GTCCCCAAGC CACCTCCAGC AAAGCCTTCT AGGCCCCGAC CGAAGAGTCG AATTTCTCGG 
    TACCGGACCA GTTCAGCCCA AAGACTAAAG CGTCAGAAGC AGGCCATTGC ACAACAGGCA 
    GAGTTGTCAC AAGCTGCCTT GGAAGATGGA GGAAATAACA GCTCTGTAAC TCCTACTGAA 
    GCTGGAAATA TAGACAGTTC AGGAGAAAAC AGGCAATTAA TGGGGTCTGA TCCAACTGTG 
    GTATCAGTTA CTGGATCCCA TGTCAACCGT GCTGCACCTA AATACCCCAA AACCAAAAAG 
    TATCTAGTTA CAGAATGGTT GAATGACAAA GCAGAGAAGC AAGAATGCCC TGTTGAGTGC 
    CCTTTACGTA TCACCACGGA CCCAACTGTA CTGGCAACAA CCCTGAACAT GTTACCCGGT 
    CTTATCCATT CCCCATTAAT TTGCACCACC CCCAAACACT ACATTCGCTT TGGCTCACCC 
    TTTATCCCTG AGAGACGTCG AAGACCCCTT CTGCCTGATG GCACCTTCAG CTCCTGTAAA 
    AAGCGCTGGA TAAAGCAAGC CTTGGAAGAA GGGATGACTC AAACATCATC TGTACCCCAA 
    GAGACTAGAA CTCAGCACCT ATACCAAAGT AATGAGAATA GTAACTCTTC TAGTATCTGC 
    AAAGATAATG CAGACTTGTT GAGCCCATTA AAGAAATGGA AGTCTCGCTA TCTGATGGAG 
    CAGAATGTCA CCAAGTTACT GCGGCCTCTT TCTCCAGTCA CACCACCCCC TCCCAATCCA 
    GGCTCAAAGA GCCCCCCACT GACCACACCT GGCCCATCTC ACCCAGAAGA GGAGTGTCGA 
    AATGGATACA GCCTCATGTT CTCACCAATC ACGTCTCTTA CTACTGCTAG TCGCTGCAAT 
    ACTCCTCTGC AGTTTGAGAA CATATCCTCC CCTGAGAGTT CCCCTGCGAA TAGGCCCGAG 
    TCCCTGTCAC CCGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_019792811.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019648370.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OAc100091
    Clone ID Related Accession (Same CDS sequence) XM_019792811.1
    Accession Version XM_019792811.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4338bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTAC GATCATCCCT CGTTCTGACC TGAATGGCCT GCCGTCGCCC 
    GTAGAGGAAC GCTGTGGAGA CAGCCCGAAC TCTGAAGGAG AGACTGTTCC TACCTGGTGT 
    CCTTGTGGTC TTTCTCAGGA TGGCTTCCTT CTCAACTGTG ACAAGTGCAG GGGAATGAGC 
    AGGGGGAAGG TTATTAGACT TCATCGGCGG AAGCAGGACA ACATATCAGG TGGGGATAGC 
    AGTGCAACAG AAAGCTGGGA TGAGGAGCTT TCTCCTTCCA CTGTGTTGTA CACAGCAACA 
    CAGCACACAC CTACAAGCAT CACCTTAACT GTTAGAAGAA CCAAACCCAA GAAGCGGAAG 
    AAGAGTCCAG AAAAGGGTCG CGCAGCAGCA AAGACGAAGA AAATCAAGAA TTCTCCTTCT 
    GAAGCACAGA ATTTAGATGA GAATACAACT GAGGGATGGG AAAATCGGAT AAGACTATGG 
    ACTGATCAGT ATGAAGAAGC TTTCACTAAT CAGTACAGTG CAGATGTACA GAACGCCCTT 
    GAACAACATC TACATTCTAG CAAGGAATTT GTGGGCAAAC CTGCTATTTT AGACACTATT 
    AATAAGACTG AATTGGCCTG TAATAATACA GTTATTGGTT CCCAAATGCA GCTACAGTTG 
    GGAAGAGTCA CTCGTGTTCA GAAGCACCGG AAGATCCTGA GGGCTGCAAG AGACTTGGCT 
    CTGGACACTC TTATAATAGA GTATCGAGGG AAAGTCATGT TACGACAACA ATTTGAGGTC 
    AATGGGCATT TCTTCAAAAA ACCATACCCC TTTGTGCTCT TCTACTCAAA ATTCAATGGT 
    GTAGAGATGT GTGTGGATGC ACGTACTTTC GGTAATGATG CTCGGTTCAT CAGAAGATCG 
    TGTACACCAA ATGCAGAGGT GCGACACATG ATTGCAGATG GGATGATTCA CCTGTGTATC 
    TATGCTGTAT CTGCCATCAC CAAAGATGCT GAGGTCACCA TAGCATTTGA CTATGAGTAC 
    AGTAACTGTA ATTATAAAGT GGACTGTGCG TGTCACAAGG GGAACCGGAA TTGCCCTATA 
    CAGAAAAGGA ATCCCAATGC TGCAGAACCA CCACTCCCAC CTCCTCCAAG CTTACCCACC 
    ATCGGAGCAG AGACAAGACG TAGAAAAGCA CGACGGAAAG AGCTAGAGAT GGAGCAGCAG 
    AATGAGGCTC CAGAAGAGGA TAACAGTCAG CAACCAGAAC AAGTTCCTGA GAAAGCAACT 
    GTGTCCAGTG ACCATGAGGA AATAGACAAT CCAGAAGAAA AAGCAGAAGA GGAGAAAGAA 
    GAGGTTACCG ATGACCAGGA GAACCCAGCT CATAGCAGAA GGACCCGGGA AGATAGGAAG 
    GTCGAAGCCA TCATGCATGC TTTTGAAAAC TTAGAGAAAA GAAAGAAGCG GCGGGATCAG 
    CCCTTGGAAC AAAGCAGCTC TGACATAGAG ATTACTACCA CCACTTCAGA GGTCCCTGTG 
    GGAGAAGAGG CAAAAACTGA AGCCCCTGAA CCTGAAGTTA GCAACCCTGC TTCAAACATG 
    GCCATCCCAA GCACCCCCCA GAGTGTTGGT GTGAACACCC GGAGGTCTTC CCAAGCAGGG 
    GATGTTGCTG CAGAGAAACC AGTCCCCAAG CCACCTCCAG CAAAGCCTTC TAGGCCCCGA 
    CCGAAGAGTC GAATTTCTCG GTACCGGACC AGTTCAGCCC AAAGACTAAA GCGTCAGAAG 
    CAGGCCATTG CACAACAGGC AGAGTTGTCA CAAGCTGCCT TGGAAGATGG AGGAAATAAC 
    AGCTCTGTAA CTCCTACTGA AGCTGGAAAT ATAGACAGTT CAGGAGAAAA CAGGCAATTA 
    ATGGGGTCTG ATCCAACTGT GGTATCAGTT ACTGGATCCC ATGTCAACCG TGCTGCACCT 
    AAATACCCCA AAACCAAAAA GTATCTAGTT ACAGAATGGT TGAATGACAA AGCAGAGAAG 
    CAAGAATGCC CTGTTGAGTG CCCTTTACGT ATCACCACGG ACCCAACTGT ACTGGCAACA 
    ACCCTGAACA TGTTACCCGG TCTTATCCAT TCCCCATTAA TTTGCACCAC CCCCAAACAC 
    TACATTCGCT TTGGCTCACC CTTTATCCCT GAGAGACGTC GAAGACCCCT TCTGCCTGAT 
    GGCACCTTCA GCTCCTGTAA AAAGCGCTGG ATAAAGCAAG CCTTGGAAGA AGGGATGACT 
    CAAACATCAT CTGTACCCCA AGAGACTAGA ACTCAGCACC TATACCAAAG TAATGAGAAT 
    AGTAACTCTT CTAGTATCTG CAAAGATAAT GCAGACTTGT TGAGCCCATT AAAGAAATGG 
    AAGTCTCGCT ATCTGATGGA GCAGAATGTC ACCAAGTTAC TGCGGCCTCT TTCTCCAGTC 
    ACACCACCCC CTCCCAATCC AGGCTCAAAG AGCCCCCCAC TGACCACACC TGGCCCATCT 
    CACCCAGAAG AGGAGTGTCG AAATGGATAC AGCCTCATGT TCTCACCAAT CACGTCTCTT 
    ACTACTGCTA GTCGCTGCAA TACTCCTCTG CAGTTTGAGC TTTGTCACCG GAAGGACCTG 
    GACTTGACAA AAGTAGGCTA CCTTGACTCC AACACTAACA GCTGTGCTGA CAGACCTTCC 
    CTGATCAACT CAGGTCCTTC TGACCTGGCT CCTCATCCCT CTGTCGGGCC CCCCTCTGAG 
    ACTGGCTTTC CAAGTAGGAG TGGAGATGGA CATCAGACCC TTGCAAGGAA CTCGGACCAG 
    GCATTTCGGA CAGAGTTTAA CTTAATGTAC GCCTACTCCC CATTGAACGC TATGCCTCGA 
    GCAGATGGAT TATATCGAGG GTCTCCCCTA GTAGGGGATA GGAAGCCTTT ACATTTGGAC 
    GGGGGATATT GTTCCCCTGC AGAAGGGTTT CCCAGCAGAT ATGAACATAG TTTTATGAAA 
    GACCTCTCTC GTGGATCCGT ATCACCTGGT GGTGAAAGGG CTTGTGAAGG AGTCCCGTCT 
    GCCCCCCAGA ACCCACCGCA GAGGAAAAAG GTATCCCTGC TGGAGTACCG CAAACGGAAA 
    CAAGAAGCCA AGGAGAATTC TGGTGGGGGA GGTGACTCTG CACAGAGCAA AATCAAGTCT 
    GCAGGAGCTG GGCAAGGCAG CAGTAACTCA CTTTCTGACA CTGGTGCCCA TGGTGTGCAG 
    GGATCCTCAA CCCGAACCCC ATCTTCCCCT CACAAAAAAT TCTCCCCATC TCATTCCTCT 
    ATGTCCCATA TGGAGGCGGT AAGCCCATCA GATTCCAGAG GCACTTCATC TCACTGCAGA 
    CCTCAAGAGA ATATCAGCAG TAGGTGGATG GTTCCCACGT CAGTGGAACG ACTCCGAGAA 
    GGAGGGAGCA TCCCCAAGGT TCTCCGAAGC AGTGTAAGGG TGGCCCAAAA AGGAGAGCCT 
    TCTCCCACGT GGGAGAGTAA CATCACAGAG AAAGACTCAG ACCCTACGGA TGGAGAAGGC 
    CCAGAGACAC TGAGCTCAGC ACTCTCTAAA GGAGCAGCCG TTTACAGCCC TTCCAGATAC 
    AGCTACCAGC TCCTGCAGTG TGATAGTCCA CGGACAGAAT CACAAAGCCT CCTTCAGCAG 
    AGTTCCTCCC CCTTTAGAGG ACATCCCACC CAATCTCCAG GATACAGTTA TCGAACTACT 
    GCACTGAGAC CTGGAAATCC CCCCTCTCAC GGTTCTTCAG AATCTTCCCT CTCTTCTACG 
    TCCTATTCCA GCCCCGCCCA CCCTGTATCC ACAGACTCGT TGGCCCCATT TACGGGGACA 
    CCAGGGTATT ATAGCAGCCA GCCACATTCT GGAAACAGCA CTGGCAGCAA TCTTCCAAGG 
    AGGAGCTGCC CTTCTAGTGC TGCTAGCCCT ACCCCACAGG GCCCCTCAGA CTCGCCGACC 
    TCAGACTCGG TCTCCCAGTC CAGCACAGGA ACTCTGAGTT CCACCTCCTT CCCTCAGAAC 
    TCTAGGTCGT CATTGCCATC AGACTTACGG ACTATCAGTC TGCCCAGTGC TGGGCAGTCC 
    ACTGCCTACC AGGCCTCCAG GGTATCTGCG GTTTCCAATT CACAGCACTA CCCACACCGT 
    GGGAGTGGGG GTGTGCACCA GTACCGACTC CAGCCGCTGC AAGGGTCAGG AGTCAAGACT 
    CAGACAGGAC TTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_019648370.1
    CDS102..4439
    Translation

    Target ORF information:

    RefSeq Version XM_019792811.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019792811.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAAGTAT TAAGAGATCC AATTAAGAAG AATAGTTCTG AGTCTAAACC AGCCCAGAGT 
    GGCTTCTCTA GGGGAAACTC CCTGCTCAGC TGCCCTGAAT CTGTGGAGGC TAGTCCAGCA 
    GTTAATGAGA AGAGCGTGTA TTCCACTCAT AATTATGGGA CCACTCAGAG GCATGGGTGT 
    CGAGGACTGC CTTATGCTAC GATCATCCCT CGTTCTGACC TGAATGGCCT GCCGTCGCCC 
    GTAGAGGAAC GCTGTGGAGA CAGCCCGAAC TCTGAAGGAG AGACTGTTCC TACCTGGTGT 
    CCTTGTGGTC TTTCTCAGGA TGGCTTCCTT CTCAACTGTG ACAAGTGCAG GGGAATGAGC 
    AGGGGGAAGG TTATTAGACT TCATCGGCGG AAGCAGGACA ACATATCAGG TGGGGATAGC 
    AGTGCAACAG AAAGCTGGGA TGAGGAGCTT TCTCCTTCCA CTGTGTTGTA CACAGCAACA 
    CAGCACACAC CTACAAGCAT CACCTTAACT GTTAGAAGAA CCAAACCCAA GAAGCGGAAG 
    AAGAGTCCAG AAAAGGGTCG CGCAGCAGCA AAGACGAAGA AAATCAAGAA TTCTCCTTCT 
    GAAGCACAGA ATTTAGATGA GAATACAACT GAGGGATGGG AAAATCGGAT AAGACTATGG 
    ACTGATCAGT ATGAAGAAGC TTTCACTAAT CAGTACAGTG CAGATGTACA GAACGCCCTT 
    GAACAACATC TACATTCTAG CAAGGAATTT GTGGGCAAAC CTGCTATTTT AGACACTATT 
    AATAAGACTG AATTGGCCTG TAATAATACA GTTATTGGTT CCCAAATGCA GCTACAGTTG 
    GGAAGAGTCA CTCGTGTTCA GAAGCACCGG AAGATCCTGA GGGCTGCAAG AGACTTGGCT 
    CTGGACACTC TTATAATAGA GTATCGAGGG AAAGTCATGT TACGACAACA ATTTGAGGTC 
    AATGGGCATT TCTTCAAAAA ACCATACCCC TTTGTGCTCT TCTACTCAAA ATTCAATGGT 
    GTAGAGATGT GTGTGGATGC ACGTACTTTC GGTAATGATG CTCGGTTCAT CAGAAGATCG 
    TGTACACCAA ATGCAGAGGT GCGACACATG ATTGCAGATG GGATGATTCA CCTGTGTATC 
    TATGCTGTAT CTGCCATCAC CAAAGATGCT GAGGTCACCA TAGCATTTGA CTATGAGTAC 
    AGTAACTGTA ATTATAAAGT GGACTGTGCG TGTCACAAGG GGAACCGGAA TTGCCCTATA 
    CAGAAAAGGA ATCCCAATGC TGCAGAACCA CCACTCCCAC CTCCTCCAAG CTTACCCACC 
    ATCGGAGCAG AGACAAGACG TAGAAAAGCA CGACGGAAAG AGCTAGAGAT GGAGCAGCAG 
    AATGAGGCTC CAGAAGAGGA TAACAGTCAG CAACCAGAAC AAGTTCCTGA GAAAGCAACT 
    GTGTCCAGTG ACCATGAGGA AATAGACAAT CCAGAAGAAA AAGCAGAAGA GGAGAAAGAA 
    GAGGTTACCG ATGACCAGGA GAACCCAGCT CATAGCAGAA GGACCCGGGA AGATAGGAAG 
    GTCGAAGCCA TCATGCATGC TTTTGAAAAC TTAGAGAAAA GAAAGAAGCG GCGGGATCAG 
    CCCTTGGAAC AAAGCAGCTC TGACATAGAG ATTACTACCA CCACTTCAGA GGTCCCTGTG 
    GGAGAAGAGG CAAAAACTGA AGCCCCTGAA CCTGAAGTTA GCAACCCTGC TTCAAACATG 
    GCCATCCCAA GCACCCCCCA GAGTGTTGGT GTGAACACCC GGAGGTCTTC CCAAGCAGGG 
    GATGTTGCTG CAGAGAAACC AGTCCCCAAG CCACCTCCAG CAAAGCCTTC TAGGCCCCGA 
    CCGAAGAGTC GAATTTCTCG GTACCGGACC AGTTCAGCCC AAAGACTAAA GCGTCAGAAG 
    CAGGCCATTG CACAACAGGC AGAGTTGTCA CAAGCTGCCT TGGAAGATGG AGGAAATAAC 
    AGCTCTGTAA CTCCTACTGA AGCTGGAAAT ATAGACAGTT CAGGAGAAAA CAGGCAATTA 
    ATGGGGTCTG ATCCAACTGT GGTATCAGTT ACTGGATCCC ATGTCAACCG TGCTGCACCT 
    AAATACCCCA AAACCAAAAA GTATCTAGTT ACAGAATGGT TGAATGACAA AGCAGAGAAG 
    CAAGAATGCC CTGTTGAGTG CCCTTTACGT ATCACCACGG ACCCAACTGT ACTGGCAACA 
    ACCCTGAACA TGTTACCCGG TCTTATCCAT TCCCCATTAA TTTGCACCAC CCCCAAACAC 
    TACATTCGCT TTGGCTCACC CTTTATCCCT GAGAGACGTC GAAGACCCCT TCTGCCTGAT 
    GGCACCTTCA GCTCCTGTAA AAAGCGCTGG ATAAAGCAAG CCTTGGAAGA AGGGATGACT 
    CAAACATCAT CTGTACCCCA AGAGACTAGA ACTCAGCACC TATACCAAAG TAATGAGAAT 
    AGTAACTCTT CTAGTATCTG CAAAGATAAT GCAGACTTGT TGAGCCCATT AAAGAAATGG 
    AAGTCTCGCT ATCTGATGGA GCAGAATGTC ACCAAGTTAC TGCGGCCTCT TTCTCCAGTC 
    ACACCACCCC CTCCCAATCC AGGCTCAAAG AGCCCCCCAC TGACCACACC TGGCCCATCT 
    CACCCAGAAG AGGAGTGTCG AAATGGATAC AGCCTCATGT TCTCACCAAT CACGTCTCTT 
    ACTACTGCTA GTCGCTGCAA TACTCCTCTG CAGTTTGAGC TTTGTCACCG GAAGGACCTG 
    GACTTGACAA AAGTAGGCTA CCTTGACTCC AACACTAACA GCTGTGCTGA CAGACCTTCC 
    CTGATCAACT CAGGTCCTTC TGACCTGGCT CCTCATCCCT CTGTCGGGCC CCCCTCTGAG 
    ACTGGCTTTC CAAGTAGGAG TGGAGATGGA CATCAGACCC TTGCAAGGAA CTCGGACCAG 
    GCATTTCGGA CAGAGTTTAA CTTAATGTAC GCCTACTCCC CATTGAACGC TATGCCTCGA 
    GCAGATGGAT TATATCGAGG GTCTCCCCTA GTAGGGGATA GGAAGCCTTT ACATTTGGAC 
    GGGGGATATT GTTCCCCTGC AGAAGGGTTT CCCAGCAGAT ATGAACATAG TTTTATGAAA 
    GACCTCTCTC GTGGATCCGT ATCACCTGGT GGTGAAAGGG CTTGTGAAGG AGTCCCGTCT 
    GCCCCCCAGA ACCCACCGCA GAGGAAAAAG GTATCCCTGC TGGAGTACCG CAAACGGAAA 
    CAAGAAGCCA AGGAGAATTC TGGTGGGGGA GGTGACTCTG CACAGAGCAA AATCAAGTCT 
    GCAGGAGCTG GGCAAGGCAG CAGTAACTCA CTTTCTGACA CTGGTGCCCA TGGTGTGCAG 
    GGATCCTCAA CCCGAACCCC ATCTTCCCCT CACAAAAAAT TCTCCCCATC TCATTCCTCT 
    ATGTCCCATA TGGAGGCGGT AAGCCCATCA GATTCCAGAG GCACTTCATC TCACTGCAGA 
    CCTCAAGAGA ATATCAGCAG TAGGTGGATG GTTCCCACGT CAGTGGAACG ACTCCGAGAA 
    GGAGGGAGCA TCCCCAAGGT TCTCCGAAGC AGTGTAAGGG TGGCCCAAAA AGGAGAGCCT 
    TCTCCCACGT GGGAGAGTAA CATCACAGAG AAAGACTCAG ACCCTACGGA TGGAGAAGGC 
    CCAGAGACAC TGAGCTCAGC ACTCTCTAAA GGAGCAGCCG TTTACAGCCC TTCCAGATAC 
    AGCTACCAGC TCCTGCAGTG TGATAGTCCA CGGACAGAAT CACAAAGCCT CCTTCAGCAG 
    AGTTCCTCCC CCTTTAGAGG ACATCCCACC CAATCTCCAG GATACAGTTA TCGAACTACT 
    GCACTGAGAC CTGGAAATCC CCCCTCTCAC GGTTCTTCAG AATCTTCCCT CTCTTCTACG 
    TCCTATTCCA GCCCCGCCCA CCCTGTATCC ACAGACTCGT TGGCCCCATT TACGGGGACA 
    CCAGGGTATT ATAGCAGCCA GCCACATTCT GGAAACAGCA CTGGCAGCAA TCTTCCAAGG 
    AGGAGCTGCC CTTCTAGTGC TGCTAGCCCT ACCCCACAGG GCCCCTCAGA CTCGCCGACC 
    TCAGACTCGG TCTCCCAGTC CAGCACAGGA ACTCTGAGTT CCACCTCCTT CCCTCAGAAC 
    TCTAGGTCGT CATTGCCATC AGACTTACGG ACTATCAGTC TGCCCAGTGC TGGGCAGTCC 
    ACTGCCTACC AGGCCTCCAG GGTATCTGCG GTTTCCAATT CACAGCACTA CCCACACCGT 
    GGGAGTGGGG GTGTGCACCA GTACCGACTC CAGCCGCTGC AAGGGTCAGG AGTCAAGACT 
    CAGACAGGAC TTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_002929989.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002930035.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OAc16819
    Clone ID Related Accession (Same CDS sequence) XM_002929989.3
    Accession Version XM_002929989.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4317bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002929989.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTACG 
    ATCATCCCTC GTTCTGACCT GAATGGCCTG CCGTCGCCCG TAGAGGAACG CTGTGGAGAC 
    AGCCCGAACT CTGAAGGAGA GACTGTTCCT ACCTGGTGTC CTTGTGGTCT TTCTCAGGAT 
    GGCTTCCTTC TCAACTGTGA CAAGTGCAGG GGAATGAGCA GGGGGAAGGT TATTAGACTT 
    CATCGGCGGA AGCAGGACAA CATATCAGGT GGGGATAGCA GTGCAACAGA AAGCTGGGAT 
    GAGGAGCTTT CTCCTTCCAC TGTGTTGTAC ACAGCAACAC AGCACACACC TACAAGCATC 
    ACCTTAACTG TTAGAAGAAC CAAACCCAAG AAGCGGAAGA AGAGTCCAGA AAAGGGTCGC 
    GCAGCAGCAA AGACGAAGAA AATCAAGAAT TCTCCTTCTG AAGCACAGAA TTTAGATGAG 
    AATACAACTG AGGGATGGGA AAATCGGATA AGACTATGGA CTGATCAGTA TGAAGAAGCT 
    TTCACTAATC AGTACAGTGC AGATGTACAG AACGCCCTTG AACAACATCT ACATTCTAGC 
    AAGGAATTTG TGGGCAAACC TGCTATTTTA GACACTATTA ATAAGACTGA ATTGGCCTGT 
    AATAATACAG TTATTGGTTC CCAAATGCAG CTACAGTTGG GAAGAGTCAC TCGTGTTCAG 
    AAGCACCGGA AGATCCTGAG GGCTGCAAGA GACTTGGCTC TGGACACTCT TATAATAGAG 
    TATCGAGGGA AAGTCATGTT ACGACAACAA TTTGAGGTCA ATGGGCATTT CTTCAAAAAA 
    CCATACCCCT TTGTGCTCTT CTACTCAAAA TTCAATGGTG TAGAGATGTG TGTGGATGCA 
    CGTACTTTCG GTAATGATGC TCGGTTCATC AGAAGATCGT GTACACCAAA TGCAGAGGTG 
    CGACACATGA TTGCAGATGG GATGATTCAC CTGTGTATCT ATGCTGTATC TGCCATCACC 
    AAAGATGCTG AGGTCACCAT AGCATTTGAC TATGAGTACA GTAACTGTAA TTATAAAGTG 
    GACTGTGCGT GTCACAAGGG GAACCGGAAT TGCCCTATAC AGAAAAGGAA TCCCAATGCT 
    GCAGAACCAC CACTCCCACC TCCTCCAAGC TTACCCACCA TCGGAGCAGA GACAAGACGT 
    AGAAAAGCAC GACGGAAAGA GCTAGAGATG GAGCAGCAGA ATGAGGCTCC AGAAGAGGAT 
    AACAGTCAGC AACCAGAACA AGTTCCTGAG AAAGCAACTG TGTCCAGTGA CCATGAGGAA 
    ATAGACAATC CAGAAGAAAA AGCAGAAGAG GAGAAAGAAG AGGTTACCGA TGACCAGGAG 
    AACCCAGCTC ATAGCAGAAG GACCCGGGAA GATAGGAAGG TCGAAGCCAT CATGCATGCT 
    TTTGAAAACT TAGAGAAAAG AAAGAAGCGG CGGGATCAGC CCTTGGAACA AAGCAGCTCT 
    GACATAGAGA TTACTACCAC CACTTCAGAG GTCCCTGTGG GAGAAGAGGC AAAAACTGAA 
    GCCCCTGAAC CTGAAGTTAG CAACCCTGCT TCAAACATGG CCATCCCAAG CACCCCCCAG 
    AGTGTTGGTG TGAACACCCG GAGGTCTTCC CAAGCAGGGG ATGTTGCTGC AGAGAAACCA 
    GTCCCCAAGC CACCTCCAGC AAAGCCTTCT AGGCCCCGAC CGAAGAGTCG AATTTCTCGG 
    TACCGGACCA GTTCAGCCCA AAGACTAAAG CGTCAGAAGC AGGCCATTGC ACAACAGGCA 
    GAGTTGTCAC AAGCTGCCTT GGAAGATGGA GGAAATAACA GCTCTGTAAC TCCTACTGAA 
    GCTGGAAATA TAGACAGTTC AGGAGAAAAC AGGCAATTAA TGGGGTCTGA TCCAACTGTG 
    GTATCAGTTA CTGGATCCCA TGTCAACCGT GCTGCACCTA AATACCCCAA AACCAAAAAG 
    TATCTAGTTA CAGAATGGTT GAATGACAAA GCAGAGAAGC AAGAATGCCC TGTTGAGTGC 
    CCTTTACGTA TCACCACGGA CCCAACTGTA CTGGCAACAA CCCTGAACAT GTTACCCGGT 
    CTTATCCATT CCCCATTAAT TTGCACCACC CCCAAACACT ACATTCGCTT TGGCTCACCC 
    TTTATCCCTG AGAGACGTCG AAGACCCCTT CTGCCTGATG GCACCTTCAG CTCCTGTAAA 
    AAGCGCTGGA TAAAGCAAGC CTTGGAAGAA GGGATGACTC AAACATCATC TGTACCCCAA 
    GAGACTAGAA CTCAGCACCT ATACCAAAGT AATGAGAATA GTAACTCTTC TAGTATCTGC 
    AAAGATAATG CAGACTTGTT GAGCCCATTA AAGAAATGGA AGTCTCGCTA TCTGATGGAG 
    CAGAATGTCA CCAAGTTACT GCGGCCTCTT TCTCCAGTCA CACCACCCCC TCCCAATCCA 
    GGCTCAAAGA GCCCCCCACT GACCACACCT GGCCCATCTC ACCCAGAAGA GGAGTGTCGA 
    AATGGATACA GCCTCATGTT CTCACCAATC ACGTCTCTTA CTACTGCTAG TCGCTGCAAT 
    ACTCCTCTGC AGTTTGAGCT TTGTCACCGG AAGGACCTGG ACTTGACAAA AGTAGGCTAC 
    CTTGACTCCA ACACTAACAG CTGTGCTGAC AGACCTTCCC TGATCAACTC AGGTCCTTCT 
    GACCTGGCTC CTCATCCCTC TGTCGGGCCC CCCTCTGAGA CTGGCTTTCC AAGTAGGAGT 
    GGAGATGGAC ATCAGACCCT TGCAAGGAAC TCGGACCAGG CATTTCGGAC AGAGTTTAAC 
    TTAATGTACG CCTACTCCCC ATTGAACGCT ATGCCTCGAG CAGATGGATT ATATCGAGGG 
    TCTCCCCTAG TAGGGGATAG GAAGCCTTTA CATTTGGACG GGGGATATTG TTCCCCTGCA 
    GAAGGGTTTC CCAGCAGATA TGAACATAGT TTTATGAAAG ACCTCTCTCG TGGATCCGTA 
    TCACCTGGTG GTGAAAGGGC TTGTGAAGGA GTCCCGTCTG CCCCCCAGAA CCCACCGCAG 
    AGGAAAAAGG TATCCCTGCT GGAGTACCGC AAACGGAAAC AAGAAGCCAA GGAGAATTCT 
    GGTGGGGGAG GTGACTCTGC ACAGAGCAAA ATCAAGTCTG CAGGAGCTGG GCAAGGCAGC 
    AGTAACTCAC TTTCTGACAC TGGTGCCCAT GGTGTGCAGG GATCCTCAAC CCGAACCCCA 
    TCTTCCCCTC ACAAAAAATT CTCCCCATCT CATTCCTCTA TGTCCCATAT GGAGGCGGTA 
    AGCCCATCAG ATTCCAGAGG CACTTCATCT CACTGCAGAC CTCAAGAGAA TATCAGCAGT 
    AGGTGGATGG TTCCCACGTC AGTGGAACGA CTCCGAGAAG GAGGGAGCAT CCCCAAGGTT 
    CTCCGAAGCA GTGTAAGGGT GGCCCAAAAA GGAGAGCCTT CTCCCACGTG GGAGAGTAAC 
    ATCACAGAGA AAGACTCAGA CCCTACGGAT GGAGAAGGCC CAGAGACACT GAGCTCAGCA 
    CTCTCTAAAG GAGCAGCCGT TTACAGCCCT TCCAGATACA GCTACCAGCT CCTGCAGTGT 
    GATAGTCCAC GGACAGAATC ACAAAGCCTC CTTCAGCAGA GTTCCTCCCC CTTTAGAGGA 
    CATCCCACCC AATCTCCAGG ATACAGTTAT CGAACTACTG CACTGAGACC TGGAAATCCC 
    CCCTCTCACG GTTCTTCAGA ATCTTCCCTC TCTTCTACGT CCTATTCCAG CCCCGCCCAC 
    CCTGTATCCA CAGACTCGTT GGCCCCATTT ACGGGGACAC CAGGGTATTA TAGCAGCCAG 
    CCACATTCTG GAAACAGCAC TGGCAGCAAT CTTCCAAGGA GGAGCTGCCC TTCTAGTGCT 
    GCTAGCCCTA CCCCACAGGG CCCCTCAGAC TCGCCGACCT CAGACTCGGT CTCCCAGTCC 
    AGCACAGGAA CTCTGAGTTC CACCTCCTTC CCTCAGAACT CTAGGTCGTC ATTGCCATCA 
    GACTTACGGA CTATCAGTCT GCCCAGTGCT GGGCAGTCCA CTGCCTACCA GGCCTCCAGG 
    GTATCTGCGG TTTCCAATTC ACAGCACTAC CCACACCGTG GGAGTGGGGG TGTGCACCAG 
    TACCGACTCC AGCCGCTGCA AGGGTCAGGA GTCAAGACTC AGACAGGACT TTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_002930035.1
    CDS359..4675
    Translation

    Target ORF information:

    RefSeq Version XM_002929989.3
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002929989.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTACG 
    ATCATCCCTC GTTCTGACCT GAATGGCCTG CCGTCGCCCG TAGAGGAACG CTGTGGAGAC 
    AGCCCGAACT CTGAAGGAGA GACTGTTCCT ACCTGGTGTC CTTGTGGTCT TTCTCAGGAT 
    GGCTTCCTTC TCAACTGTGA CAAGTGCAGG GGAATGAGCA GGGGGAAGGT TATTAGACTT 
    CATCGGCGGA AGCAGGACAA CATATCAGGT GGGGATAGCA GTGCAACAGA AAGCTGGGAT 
    GAGGAGCTTT CTCCTTCCAC TGTGTTGTAC ACAGCAACAC AGCACACACC TACAAGCATC 
    ACCTTAACTG TTAGAAGAAC CAAACCCAAG AAGCGGAAGA AGAGTCCAGA AAAGGGTCGC 
    GCAGCAGCAA AGACGAAGAA AATCAAGAAT TCTCCTTCTG AAGCACAGAA TTTAGATGAG 
    AATACAACTG AGGGATGGGA AAATCGGATA AGACTATGGA CTGATCAGTA TGAAGAAGCT 
    TTCACTAATC AGTACAGTGC AGATGTACAG AACGCCCTTG AACAACATCT ACATTCTAGC 
    AAGGAATTTG TGGGCAAACC TGCTATTTTA GACACTATTA ATAAGACTGA ATTGGCCTGT 
    AATAATACAG TTATTGGTTC CCAAATGCAG CTACAGTTGG GAAGAGTCAC TCGTGTTCAG 
    AAGCACCGGA AGATCCTGAG GGCTGCAAGA GACTTGGCTC TGGACACTCT TATAATAGAG 
    TATCGAGGGA AAGTCATGTT ACGACAACAA TTTGAGGTCA ATGGGCATTT CTTCAAAAAA 
    CCATACCCCT TTGTGCTCTT CTACTCAAAA TTCAATGGTG TAGAGATGTG TGTGGATGCA 
    CGTACTTTCG GTAATGATGC TCGGTTCATC AGAAGATCGT GTACACCAAA TGCAGAGGTG 
    CGACACATGA TTGCAGATGG GATGATTCAC CTGTGTATCT ATGCTGTATC TGCCATCACC 
    AAAGATGCTG AGGTCACCAT AGCATTTGAC TATGAGTACA GTAACTGTAA TTATAAAGTG 
    GACTGTGCGT GTCACAAGGG GAACCGGAAT TGCCCTATAC AGAAAAGGAA TCCCAATGCT 
    GCAGAACCAC CACTCCCACC TCCTCCAAGC TTACCCACCA TCGGAGCAGA GACAAGACGT 
    AGAAAAGCAC GACGGAAAGA GCTAGAGATG GAGCAGCAGA ATGAGGCTCC AGAAGAGGAT 
    AACAGTCAGC AACCAGAACA AGTTCCTGAG AAAGCAACTG TGTCCAGTGA CCATGAGGAA 
    ATAGACAATC CAGAAGAAAA AGCAGAAGAG GAGAAAGAAG AGGTTACCGA TGACCAGGAG 
    AACCCAGCTC ATAGCAGAAG GACCCGGGAA GATAGGAAGG TCGAAGCCAT CATGCATGCT 
    TTTGAAAACT TAGAGAAAAG AAAGAAGCGG CGGGATCAGC CCTTGGAACA AAGCAGCTCT 
    GACATAGAGA TTACTACCAC CACTTCAGAG GTCCCTGTGG GAGAAGAGGC AAAAACTGAA 
    GCCCCTGAAC CTGAAGTTAG CAACCCTGCT TCAAACATGG CCATCCCAAG CACCCCCCAG 
    AGTGTTGGTG TGAACACCCG GAGGTCTTCC CAAGCAGGGG ATGTTGCTGC AGAGAAACCA 
    GTCCCCAAGC CACCTCCAGC AAAGCCTTCT AGGCCCCGAC CGAAGAGTCG AATTTCTCGG 
    TACCGGACCA GTTCAGCCCA AAGACTAAAG CGTCAGAAGC AGGCCATTGC ACAACAGGCA 
    GAGTTGTCAC AAGCTGCCTT GGAAGATGGA GGAAATAACA GCTCTGTAAC TCCTACTGAA 
    GCTGGAAATA TAGACAGTTC AGGAGAAAAC AGGCAATTAA TGGGGTCTGA TCCAACTGTG 
    GTATCAGTTA CTGGATCCCA TGTCAACCGT GCTGCACCTA AATACCCCAA AACCAAAAAG 
    TATCTAGTTA CAGAATGGTT GAATGACAAA GCAGAGAAGC AAGAATGCCC TGTTGAGTGC 
    CCTTTACGTA TCACCACGGA CCCAACTGTA CTGGCAACAA CCCTGAACAT GTTACCCGGT 
    CTTATCCATT CCCCATTAAT TTGCACCACC CCCAAACACT ACATTCGCTT TGGCTCACCC 
    TTTATCCCTG AGAGACGTCG AAGACCCCTT CTGCCTGATG GCACCTTCAG CTCCTGTAAA 
    AAGCGCTGGA TAAAGCAAGC CTTGGAAGAA GGGATGACTC AAACATCATC TGTACCCCAA 
    GAGACTAGAA CTCAGCACCT ATACCAAAGT AATGAGAATA GTAACTCTTC TAGTATCTGC 
    AAAGATAATG CAGACTTGTT GAGCCCATTA AAGAAATGGA AGTCTCGCTA TCTGATGGAG 
    CAGAATGTCA CCAAGTTACT GCGGCCTCTT TCTCCAGTCA CACCACCCCC TCCCAATCCA 
    GGCTCAAAGA GCCCCCCACT GACCACACCT GGCCCATCTC ACCCAGAAGA GGAGTGTCGA 
    AATGGATACA GCCTCATGTT CTCACCAATC ACGTCTCTTA CTACTGCTAG TCGCTGCAAT 
    ACTCCTCTGC AGTTTGAGCT TTGTCACCGG AAGGACCTGG ACTTGACAAA AGTAGGCTAC 
    CTTGACTCCA ACACTAACAG CTGTGCTGAC AGACCTTCCC TGATCAACTC AGGTCCTTCT 
    GACCTGGCTC CTCATCCCTC TGTCGGGCCC CCCTCTGAGA CTGGCTTTCC AAGTAGGAGT 
    GGAGATGGAC ATCAGACCCT TGCAAGGAAC TCGGACCAGG CATTTCGGAC AGAGTTTAAC 
    TTAATGTACG CCTACTCCCC ATTGAACGCT ATGCCTCGAG CAGATGGATT ATATCGAGGG 
    TCTCCCCTAG TAGGGGATAG GAAGCCTTTA CATTTGGACG GGGGATATTG TTCCCCTGCA 
    GAAGGGTTTC CCAGCAGATA TGAACATAGT TTTATGAAAG ACCTCTCTCG TGGATCCGTA 
    TCACCTGGTG GTGAAAGGGC TTGTGAAGGA GTCCCGTCTG CCCCCCAGAA CCCACCGCAG 
    AGGAAAAAGG TATCCCTGCT GGAGTACCGC AAACGGAAAC AAGAAGCCAA GGAGAATTCT 
    GGTGGGGGAG GTGACTCTGC ACAGAGCAAA ATCAAGTCTG CAGGAGCTGG GCAAGGCAGC 
    AGTAACTCAC TTTCTGACAC TGGTGCCCAT GGTGTGCAGG GATCCTCAAC CCGAACCCCA 
    TCTTCCCCTC ACAAAAAATT CTCCCCATCT CATTCCTCTA TGTCCCATAT GGAGGCGGTA 
    AGCCCATCAG ATTCCAGAGG CACTTCATCT CACTGCAGAC CTCAAGAGAA TATCAGCAGT 
    AGGTGGATGG TTCCCACGTC AGTGGAACGA CTCCGAGAAG GAGGGAGCAT CCCCAAGGTT 
    CTCCGAAGCA GTGTAAGGGT GGCCCAAAAA GGAGAGCCTT CTCCCACGTG GGAGAGTAAC 
    ATCACAGAGA AAGACTCAGA CCCTACGGAT GGAGAAGGCC CAGAGACACT GAGCTCAGCA 
    CTCTCTAAAG GAGCAGCCGT TTACAGCCCT TCCAGATACA GCTACCAGCT CCTGCAGTGT 
    GATAGTCCAC GGACAGAATC ACAAAGCCTC CTTCAGCAGA GTTCCTCCCC CTTTAGAGGA 
    CATCCCACCC AATCTCCAGG ATACAGTTAT CGAACTACTG CACTGAGACC TGGAAATCCC 
    CCCTCTCACG GTTCTTCAGA ATCTTCCCTC TCTTCTACGT CCTATTCCAG CCCCGCCCAC 
    CCTGTATCCA CAGACTCGTT GGCCCCATTT ACGGGGACAC CAGGGTATTA TAGCAGCCAG 
    CCACATTCTG GAAACAGCAC TGGCAGCAAT CTTCCAAGGA GGAGCTGCCC TTCTAGTGCT 
    GCTAGCCCTA CCCCACAGGG CCCCTCAGAC TCGCCGACCT CAGACTCGGT CTCCCAGTCC 
    AGCACAGGAA CTCTGAGTTC CACCTCCTTC CCTCAGAACT CTAGGTCGTC ATTGCCATCA 
    GACTTACGGA CTATCAGTCT GCCCAGTGCT GGGCAGTCCA CTGCCTACCA GGCCTCCAGG 
    GTATCTGCGG TTTCCAATTC ACAGCACTAC CCACACCGTG GGAGTGGGGG TGTGCACCAG 
    TACCGACTCC AGCCGCTGCA AGGGTCAGGA GTCAAGACTC AGACAGGACT TTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_011216681.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011214983.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OAc29762
    Clone ID Related Accession (Same CDS sequence) XM_011216681.2
    Accession Version XM_011216681.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4470bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011216681.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTGAT 
    CATAATTACG GAGCCCCTCC TCCTCCGACA CCTCCTGCTT CTCCCCCTGT CCAGACGATC 
    ATCCCTCGTT CTGACCTGAA TGGCCTGCCG TCGCCCGTAG AGGAACGCTG TGGAGACAGC 
    CCGAACTCTG AAGGAGAGAC TGTTCCTACC TGGTGTCCTT GTGGTCTTTC TCAGGATGGC 
    TTCCTTCTCA ACTGTGACAA GTGCAGGGGA ATGAGCAGGG GGAAGGTTAT TAGACTTCAT 
    CGGCGGAAGC AGGACAACAT ATCAGGTGGG GATAGCAGTG CAACAGAAAG CTGGGATGAG 
    GAGCTTTCTC CTTCCACTGT GTTGTACACA GCAACACAGC ACACACCTAC AAGCATCACC 
    TTAACTGTTA GAAGAACCAA ACCCAAGAAG CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA 
    GCAGCAAAGA CGAAGAAAAT CAAGGCATTT CGAGAGGGAT CCCGGAAGTC CTTGCGGATG 
    AAGAATTCTC CTTCTGAAGC ACAGAATTTA GATGAGAATA CAACTGAGGG ATGGGAAAAT 
    CGGATAAGAC TATGGACTGA TCAGTATGAA GAAGCTTTCA CTAATCAGTA CAGTGCAGAT 
    GTACAGAACG CCCTTGAACA ACATCTACAT TCTAGCAAGG AATTTGTGGG CAAACCTGCT 
    ATTTTAGACA CTATTAATAA GACTGAATTG GCCTGTAATA ATACAGTTAT TGGTTCCCAA 
    ATGCAGCTAC AGTTGGGAAG AGTCACTCGT GTTCAGAAGC ACCGGAAGAT CCTGAGGGCT 
    GCAAGAGACT TGGCTCTGGA CACTCTTATA ATAGAGTATC GAGGGAAAGT CATGTTACGA 
    CAACAATTTG AGGTCAATGG GCATTTCTTC AAAAAACCAT ACCCCTTTGT GCTCTTCTAC 
    TCAAAATTCA ATGGTGTAGA GATGTGTGTG GATGCACGTA CTTTCGGTAA TGATGCTCGG 
    TTCATCAGAA GATCGTGTAC ACCAAATGCA GAGGTGCGAC ACATGATTGC AGATGGGATG 
    ATTCACCTGT GTATCTATGC TGTATCTGCC ATCACCAAAG ATGCTGAGGT CACCATAGCA 
    TTTGACTATG AGTACAGTAA CTGTAATTAT AAAGTGGACT GTGCGTGTCA CAAGGGGAAC 
    CGGAATTGCC CTATACAGAA AAGGAATCCC AATGCTGCAG AACCACCACT CCCACCTCCT 
    CCAAGCTTAC CCACCATCGG AGCAGAGACA AGACGTAGAA AAGCACGACG GAAAGAGCTA 
    GAGATGGAGC AGCAGAATGA GGCTCCAGAA GAGGATAACA GTCAGCAACC AGAACAAGTT 
    CCTGAGAAAG CAACTGTGTC CAGTGACCAT GAGGAAATAG ACAATCCAGA AGAAAAAGCA 
    GAAGAGGAGA AAGAAGAGGT TACCGATGAC CAGGAGAACC CAGCTCATAG CAGAAGGACC 
    CGGGAAGATA GGAAGGTCGA AGCCATCATG CATGCTTTTG AAAACTTAGA GAAAAGAAAG 
    AAGCGGCGGG ATCAGCCCTT GGAACAAAGC AGCTCTGACA TAGAGATTAC TACCACCACT 
    TCAGAGGTCC CTGTGGGAGA AGAGGCAAAA ACTGAAGCCC CTGAACCTGA AGTTAGCAAC 
    CCTGCTTCAA ACATGGCCAT CCCAAGCACC CCCCAGAGTG TTGGTGTGAA CACCCGGAGG 
    TCTTCCCAAG CAGGGGATGT TGCTGCAGAG AAACCAGTCC CCAAGCCACC TCCAGCAAAG 
    CCTTCTAGGC CCCGACCGAA GAGTCGAATT TCTCGGTACC GGACCAGTTC AGCCCAAAGA 
    CTAAAGCGTC AGAAGCAGGC CATTGCACAA CAGGCAGAGT TGTCACAAGC TGCCTTGGAA 
    GATGGAGGAA ATAACAGCTC TGTAACTCCT ACTGAAGCTG GAAATATAGA CAGTTCAGGA 
    GAAAACAGGC AATTAATGGG GTCTGATCCA ACTGTGGTAT CAGTTACTGG ATCCCATGTC 
    AACCGTGCTG CACCTAAATA CCCCAAAACC AAAAAGTATC TAGTTACAGA ATGGTTGAAT 
    GACAAAGCAG AGAAGCAAGA ATGCCCTGTT GAGTGCCCTT TACGTATCAC CACGGACCCA 
    ACTGTACTGG CAACAACCCT GAACATGTTA CCCGGTCTTA TCCATTCCCC ATTAATTTGC 
    ACCACCCCCA AACACTACAT TCGCTTTGGC TCACCCTTTA TCCCTGAGAG ACGTCGAAGA 
    CCCCTTCTGC CTGATGGCAC CTTCAGCTCC TGTAAAAAGC GCTGGATAAA GCAAGCCTTG 
    GAAGAAGGGA TGACTCAAAC ATCATCTGTA CCCCAAGAGA CTAGAACTCA GCACCTATAC 
    CAAAGTAATG AGAATAGTAA CTCTTCTAGT ATCTGCAAAG ATAATGCAGA CTTGTTGAGC 
    CCATTAAAGA AATGGAAGTC TCGCTATCTG ATGGAGCAGA ATGTCACCAA GTTACTGCGG 
    CCTCTTTCTC CAGTCACACC ACCCCCTCCC AATCCAGGCT CAAAGAGCCC CCCACTGACC 
    ACACCTGGCC CATCTCACCC AGAAGAGGAG TGTCGAAATG GATACAGCCT CATGTTCTCA 
    CCAATCACGT CTCTTACTAC TGCTAGTCGC TGCAATACTC CTCTGCAGTT TGAGAACATA 
    TCCTCCCCTG AGAGTTCCCC TGCGAATAGG CCCGAGTCCC TGTCACCCGA GCTTTGTCAC 
    CGGAAGGACC TGGACTTGAC AAAAGTAGGC TACCTTGACT CCAACACTAA CAGCTGTGCT 
    GACAGACCTT CCCTGATCAA CTCAGGTCCT TCTGACCTGG CTCCTCATCC CTCTGTCGGG 
    CCCCCCTCTG AGACTGGCTT TCCAAGTAGG AGTGGAGATG GACATCAGAC CCTTGCAAGG 
    AACTCGGACC AGGCATTTCG GACAGAGTTT AACTTAATGT ACGCCTACTC CCCATTGAAC 
    GCTATGCCTC GAGCAGATGG ATTATATCGA GGGTCTCCCC TAGTAGGGGA TAGGAAGCCT 
    TTACATTTGG ACGGGGGATA TTGTTCCCCT GCAGAAGGGT TTCCCAGCAG ATATGAACAT 
    AGTTTTATGA AAGACCTCTC TCGTGGATCC GTATCACCTG GTGGTGAAAG GGCTTGTGAA 
    GGAGTCCCGT CTGCCCCCCA GAACCCACCG CAGAGGAAAA AGGTATCCCT GCTGGAGTAC 
    CGCAAACGGA AACAAGAAGC CAAGGAGAAT TCTGGTGGGG GAGGTGACTC TGCACAGAGC 
    AAAATCAAGT CTGCAGGAGC TGGGCAAGGC AGCAGTAACT CACTTTCTGA CACTGGTGCC 
    CATGGTGTGC AGGGATCCTC AACCCGAACC CCATCTTCCC CTCACAAAAA ATTCTCCCCA 
    TCTCATTCCT CTATGTCCCA TATGGAGGCG GTAAGCCCAT CAGATTCCAG AGGCACTTCA 
    TCTCACTGCA GACCTCAAGA GAATATCAGC AGTAGGTGGA TGGTTCCCAC GTCAGTGGAA 
    CGACTCCGAG AAGGAGGGAG CATCCCCAAG GTTCTCCGAA GCAGTGTAAG GGTGGCCCAA 
    AAAGGAGAGC CTTCTCCCAC GTGGGAGAGT AACATCACAG AGAAAGACTC AGACCCTACG 
    GATGGAGAAG GCCCAGAGAC ACTGAGCTCA GCACTCTCTA AAGGAGCAGC CGTTTACAGC 
    CCTTCCAGAT ACAGCTACCA GCTCCTGCAG TGTGATAGTC CACGGACAGA ATCACAAAGC 
    CTCCTTCAGC AGAGTTCCTC CCCCTTTAGA GGACATCCCA CCCAATCTCC AGGATACAGT 
    TATCGAACTA CTGCACTGAG ACCTGGAAAT CCCCCCTCTC ACGGTTCTTC AGAATCTTCC 
    CTCTCTTCTA CGTCCTATTC CAGCCCCGCC CACCCTGTAT CCACAGACTC GTTGGCCCCA 
    TTTACGGGGA CACCAGGGTA TTATAGCAGC CAGCCACATT CTGGAAACAG CACTGGCAGC 
    AATCTTCCAA GGAGGAGCTG CCCTTCTAGT GCTGCTAGCC CTACCCCACA GGGCCCCTCA 
    GACTCGCCGA CCTCAGACTC GGTCTCCCAG TCCAGCACAG GAACTCTGAG TTCCACCTCC 
    TTCCCTCAGA ACTCTAGGTC GTCATTGCCA TCAGACTTAC GGACTATCAG TCTGCCCAGT 
    GCTGGGCAGT CCACTGCCTA CCAGGCCTCC AGGGTATCTG CGGTTTCCAA TTCACAGCAC 
    TACCCACACC GTGGGAGTGG GGGTGTGCAC CAGTACCGAC TCCAGCCGCT GCAAGGGTCA 
    GGAGTCAAGA CTCAGACAGG ACTTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011214983.1
    CDS359..4828
    Translation

    Target ORF information:

    RefSeq Version XM_011216681.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011216681.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTGAT 
    CATAATTACG GAGCCCCTCC TCCTCCGACA CCTCCTGCTT CTCCCCCTGT CCAGACGATC 
    ATCCCTCGTT CTGACCTGAA TGGCCTGCCG TCGCCCGTAG AGGAACGCTG TGGAGACAGC 
    CCGAACTCTG AAGGAGAGAC TGTTCCTACC TGGTGTCCTT GTGGTCTTTC TCAGGATGGC 
    TTCCTTCTCA ACTGTGACAA GTGCAGGGGA ATGAGCAGGG GGAAGGTTAT TAGACTTCAT 
    CGGCGGAAGC AGGACAACAT ATCAGGTGGG GATAGCAGTG CAACAGAAAG CTGGGATGAG 
    GAGCTTTCTC CTTCCACTGT GTTGTACACA GCAACACAGC ACACACCTAC AAGCATCACC 
    TTAACTGTTA GAAGAACCAA ACCCAAGAAG CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA 
    GCAGCAAAGA CGAAGAAAAT CAAGGCATTT CGAGAGGGAT CCCGGAAGTC CTTGCGGATG 
    AAGAATTCTC CTTCTGAAGC ACAGAATTTA GATGAGAATA CAACTGAGGG ATGGGAAAAT 
    CGGATAAGAC TATGGACTGA TCAGTATGAA GAAGCTTTCA CTAATCAGTA CAGTGCAGAT 
    GTACAGAACG CCCTTGAACA ACATCTACAT TCTAGCAAGG AATTTGTGGG CAAACCTGCT 
    ATTTTAGACA CTATTAATAA GACTGAATTG GCCTGTAATA ATACAGTTAT TGGTTCCCAA 
    ATGCAGCTAC AGTTGGGAAG AGTCACTCGT GTTCAGAAGC ACCGGAAGAT CCTGAGGGCT 
    GCAAGAGACT TGGCTCTGGA CACTCTTATA ATAGAGTATC GAGGGAAAGT CATGTTACGA 
    CAACAATTTG AGGTCAATGG GCATTTCTTC AAAAAACCAT ACCCCTTTGT GCTCTTCTAC 
    TCAAAATTCA ATGGTGTAGA GATGTGTGTG GATGCACGTA CTTTCGGTAA TGATGCTCGG 
    TTCATCAGAA GATCGTGTAC ACCAAATGCA GAGGTGCGAC ACATGATTGC AGATGGGATG 
    ATTCACCTGT GTATCTATGC TGTATCTGCC ATCACCAAAG ATGCTGAGGT CACCATAGCA 
    TTTGACTATG AGTACAGTAA CTGTAATTAT AAAGTGGACT GTGCGTGTCA CAAGGGGAAC 
    CGGAATTGCC CTATACAGAA AAGGAATCCC AATGCTGCAG AACCACCACT CCCACCTCCT 
    CCAAGCTTAC CCACCATCGG AGCAGAGACA AGACGTAGAA AAGCACGACG GAAAGAGCTA 
    GAGATGGAGC AGCAGAATGA GGCTCCAGAA GAGGATAACA GTCAGCAACC AGAACAAGTT 
    CCTGAGAAAG CAACTGTGTC CAGTGACCAT GAGGAAATAG ACAATCCAGA AGAAAAAGCA 
    GAAGAGGAGA AAGAAGAGGT TACCGATGAC CAGGAGAACC CAGCTCATAG CAGAAGGACC 
    CGGGAAGATA GGAAGGTCGA AGCCATCATG CATGCTTTTG AAAACTTAGA GAAAAGAAAG 
    AAGCGGCGGG ATCAGCCCTT GGAACAAAGC AGCTCTGACA TAGAGATTAC TACCACCACT 
    TCAGAGGTCC CTGTGGGAGA AGAGGCAAAA ACTGAAGCCC CTGAACCTGA AGTTAGCAAC 
    CCTGCTTCAA ACATGGCCAT CCCAAGCACC CCCCAGAGTG TTGGTGTGAA CACCCGGAGG 
    TCTTCCCAAG CAGGGGATGT TGCTGCAGAG AAACCAGTCC CCAAGCCACC TCCAGCAAAG 
    CCTTCTAGGC CCCGACCGAA GAGTCGAATT TCTCGGTACC GGACCAGTTC AGCCCAAAGA 
    CTAAAGCGTC AGAAGCAGGC CATTGCACAA CAGGCAGAGT TGTCACAAGC TGCCTTGGAA 
    GATGGAGGAA ATAACAGCTC TGTAACTCCT ACTGAAGCTG GAAATATAGA CAGTTCAGGA 
    GAAAACAGGC AATTAATGGG GTCTGATCCA ACTGTGGTAT CAGTTACTGG ATCCCATGTC 
    AACCGTGCTG CACCTAAATA CCCCAAAACC AAAAAGTATC TAGTTACAGA ATGGTTGAAT 
    GACAAAGCAG AGAAGCAAGA ATGCCCTGTT GAGTGCCCTT TACGTATCAC CACGGACCCA 
    ACTGTACTGG CAACAACCCT GAACATGTTA CCCGGTCTTA TCCATTCCCC ATTAATTTGC 
    ACCACCCCCA AACACTACAT TCGCTTTGGC TCACCCTTTA TCCCTGAGAG ACGTCGAAGA 
    CCCCTTCTGC CTGATGGCAC CTTCAGCTCC TGTAAAAAGC GCTGGATAAA GCAAGCCTTG 
    GAAGAAGGGA TGACTCAAAC ATCATCTGTA CCCCAAGAGA CTAGAACTCA GCACCTATAC 
    CAAAGTAATG AGAATAGTAA CTCTTCTAGT ATCTGCAAAG ATAATGCAGA CTTGTTGAGC 
    CCATTAAAGA AATGGAAGTC TCGCTATCTG ATGGAGCAGA ATGTCACCAA GTTACTGCGG 
    CCTCTTTCTC CAGTCACACC ACCCCCTCCC AATCCAGGCT CAAAGAGCCC CCCACTGACC 
    ACACCTGGCC CATCTCACCC AGAAGAGGAG TGTCGAAATG GATACAGCCT CATGTTCTCA 
    CCAATCACGT CTCTTACTAC TGCTAGTCGC TGCAATACTC CTCTGCAGTT TGAGAACATA 
    TCCTCCCCTG AGAGTTCCCC TGCGAATAGG CCCGAGTCCC TGTCACCCGA GCTTTGTCAC 
    CGGAAGGACC TGGACTTGAC AAAAGTAGGC TACCTTGACT CCAACACTAA CAGCTGTGCT 
    GACAGACCTT CCCTGATCAA CTCAGGTCCT TCTGACCTGG CTCCTCATCC CTCTGTCGGG 
    CCCCCCTCTG AGACTGGCTT TCCAAGTAGG AGTGGAGATG GACATCAGAC CCTTGCAAGG 
    AACTCGGACC AGGCATTTCG GACAGAGTTT AACTTAATGT ACGCCTACTC CCCATTGAAC 
    GCTATGCCTC GAGCAGATGG ATTATATCGA GGGTCTCCCC TAGTAGGGGA TAGGAAGCCT 
    TTACATTTGG ACGGGGGATA TTGTTCCCCT GCAGAAGGGT TTCCCAGCAG ATATGAACAT 
    AGTTTTATGA AAGACCTCTC TCGTGGATCC GTATCACCTG GTGGTGAAAG GGCTTGTGAA 
    GGAGTCCCGT CTGCCCCCCA GAACCCACCG CAGAGGAAAA AGGTATCCCT GCTGGAGTAC 
    CGCAAACGGA AACAAGAAGC CAAGGAGAAT TCTGGTGGGG GAGGTGACTC TGCACAGAGC 
    AAAATCAAGT CTGCAGGAGC TGGGCAAGGC AGCAGTAACT CACTTTCTGA CACTGGTGCC 
    CATGGTGTGC AGGGATCCTC AACCCGAACC CCATCTTCCC CTCACAAAAA ATTCTCCCCA 
    TCTCATTCCT CTATGTCCCA TATGGAGGCG GTAAGCCCAT CAGATTCCAG AGGCACTTCA 
    TCTCACTGCA GACCTCAAGA GAATATCAGC AGTAGGTGGA TGGTTCCCAC GTCAGTGGAA 
    CGACTCCGAG AAGGAGGGAG CATCCCCAAG GTTCTCCGAA GCAGTGTAAG GGTGGCCCAA 
    AAAGGAGAGC CTTCTCCCAC GTGGGAGAGT AACATCACAG AGAAAGACTC AGACCCTACG 
    GATGGAGAAG GCCCAGAGAC ACTGAGCTCA GCACTCTCTA AAGGAGCAGC CGTTTACAGC 
    CCTTCCAGAT ACAGCTACCA GCTCCTGCAG TGTGATAGTC CACGGACAGA ATCACAAAGC 
    CTCCTTCAGC AGAGTTCCTC CCCCTTTAGA GGACATCCCA CCCAATCTCC AGGATACAGT 
    TATCGAACTA CTGCACTGAG ACCTGGAAAT CCCCCCTCTC ACGGTTCTTC AGAATCTTCC 
    CTCTCTTCTA CGTCCTATTC CAGCCCCGCC CACCCTGTAT CCACAGACTC GTTGGCCCCA 
    TTTACGGGGA CACCAGGGTA TTATAGCAGC CAGCCACATT CTGGAAACAG CACTGGCAGC 
    AATCTTCCAA GGAGGAGCTG CCCTTCTAGT GCTGCTAGCC CTACCCCACA GGGCCCCTCA 
    GACTCGCCGA CCTCAGACTC GGTCTCCCAG TCCAGCACAG GAACTCTGAG TTCCACCTCC 
    TTCCCTCAGA ACTCTAGGTC GTCATTGCCA TCAGACTTAC GGACTATCAG TCTGCCCAGT 
    GCTGGGCAGT CCACTGCCTA CCAGGCCTCC AGGGTATCTG CGGTTTCCAA TTCACAGCAC 
    TACCCACACC GTGGGAGTGG GGGTGTGCAC CAGTACCGAC TCCAGCCGCT GCAAGGGTCA 
    GGAGTCAAGA CTCAGACAGG ACTTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_011216685.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011214987.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OAc29766
    Clone ID Related Accession (Same CDS sequence) XM_011216685.2
    Accession Version XM_011216685.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4374bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011216685.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTGAT 
    CATAATTACG GAGCCCCTCC TCCTCCGACA CCTCCTGCTT CTCCCCCTGT CCAGACGATC 
    ATCCCTCGTT CTGACCTGAA TGGCCTGCCG TCGCCCGTAG AGGAACGCTG TGGAGACAGC 
    CCGAACTCTG AAGGAGAGAC TGTTCCTACC TGGTGTCCTT GTGGTCTTTC TCAGGATGGC 
    TTCCTTCTCA ACTGTGACAA GTGCAGGGGA ATGAGCAGGG GGAAGGTTAT TAGACTTCAT 
    CGGCGGAAGC AGGACAACAT ATCAGGTGGG GATAGCAGTG CAACAGAAAG CTGGGATGAG 
    GAGCTTTCTC CTTCCACTGT GTTGTACACA GCAACACAGC ACACACCTAC AAGCATCACC 
    TTAACTGTTA GAAGAACCAA ACCCAAGAAG CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA 
    GCAGCAAAGA CGAAGAAAAT CAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011214987.1
    CDS359..4732
    Translation

    Target ORF information:

    RefSeq Version XM_011216685.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011216685.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAGCATTG CAATCCCTCT GGGAGTCACC ACACCAGATA CATCCTACTC AGATATGGCT 
    GCTGGATCAG ACCCTGAATC TGTGGAGGCT AGTCCAGCAG TTAATGAGAA GAGCGTGTAT 
    TCCACTCATA ATTATGGGAC CACTCAGAGG CATGGGTGTC GAGGACTGCC TTATGCTGAT 
    CATAATTACG GAGCCCCTCC TCCTCCGACA CCTCCTGCTT CTCCCCCTGT CCAGACGATC 
    ATCCCTCGTT CTGACCTGAA TGGCCTGCCG TCGCCCGTAG AGGAACGCTG TGGAGACAGC 
    CCGAACTCTG AAGGAGAGAC TGTTCCTACC TGGTGTCCTT GTGGTCTTTC TCAGGATGGC 
    TTCCTTCTCA ACTGTGACAA GTGCAGGGGA ATGAGCAGGG GGAAGGTTAT TAGACTTCAT 
    CGGCGGAAGC AGGACAACAT ATCAGGTGGG GATAGCAGTG CAACAGAAAG CTGGGATGAG 
    GAGCTTTCTC CTTCCACTGT GTTGTACACA GCAACACAGC ACACACCTAC AAGCATCACC 
    TTAACTGTTA GAAGAACCAA ACCCAAGAAG CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA 
    GCAGCAAAGA CGAAGAAAAT CAAGAATTCT CCTTCTGAAG CACAGAATTT AGATGAGAAT 
    ACAACTGAGG GATGGGAAAA TCGGATAAGA CTATGGACTG ATCAGTATGA AGAAGCTTTC 
    ACTAATCAGT ACAGTGCAGA TGTACAGAAC GCCCTTGAAC AACATCTACA TTCTAGCAAG 
    GAATTTGTGG GCAAACCTGC TATTTTAGAC ACTATTAATA AGACTGAATT GGCCTGTAAT 
    AATACAGTTA TTGGTTCCCA AATGCAGCTA CAGTTGGGAA GAGTCACTCG TGTTCAGAAG 
    CACCGGAAGA TCCTGAGGGC TGCAAGAGAC TTGGCTCTGG ACACTCTTAT AATAGAGTAT 
    CGAGGGAAAG TCATGTTACG ACAACAATTT GAGGTCAATG GGCATTTCTT CAAAAAACCA 
    TACCCCTTTG TGCTCTTCTA CTCAAAATTC AATGGTGTAG AGATGTGTGT GGATGCACGT 
    ACTTTCGGTA ATGATGCTCG GTTCATCAGA AGATCGTGTA CACCAAATGC AGAGGTGCGA 
    CACATGATTG CAGATGGGAT GATTCACCTG TGTATCTATG CTGTATCTGC CATCACCAAA 
    GATGCTGAGG TCACCATAGC ATTTGACTAT GAGTACAGTA ACTGTAATTA TAAAGTGGAC 
    TGTGCGTGTC ACAAGGGGAA CCGGAATTGC CCTATACAGA AAAGGAATCC CAATGCTGCA 
    GAACCACCAC TCCCACCTCC TCCAAGCTTA CCCACCATCG GAGCAGAGAC AAGACGTAGA 
    AAAGCACGAC GGAAAGAGCT AGAGATGGAG CAGCAGAATG AGGCTCCAGA AGAGGATAAC 
    AGTCAGCAAC CAGAACAAGT TCCTGAGAAA GCAACTGTGT CCAGTGACCA TGAGGAAATA 
    GACAATCCAG AAGAAAAAGC AGAAGAGGAG AAAGAAGAGG TTACCGATGA CCAGGAGAAC 
    CCAGCTCATA GCAGAAGGAC CCGGGAAGAT AGGAAGGTCG AAGCCATCAT GCATGCTTTT 
    GAAAACTTAG AGAAAAGAAA GAAGCGGCGG GATCAGCCCT TGGAACAAAG CAGCTCTGAC 
    ATAGAGATTA CTACCACCAC TTCAGAGGTC CCTGTGGGAG AAGAGGCAAA AACTGAAGCC 
    CCTGAACCTG AAGTTAGCAA CCCTGCTTCA AACATGGCCA TCCCAAGCAC CCCCCAGAGT 
    GTTGGTGTGA ACACCCGGAG GTCTTCCCAA GCAGGGGATG TTGCTGCAGA GAAACCAGTC 
    CCCAAGCCAC CTCCAGCAAA GCCTTCTAGG CCCCGACCGA AGAGTCGAAT TTCTCGGTAC 
    CGGACCAGTT CAGCCCAAAG ACTAAAGCGT CAGAAGCAGG CCATTGCACA ACAGGCAGAG 
    TTGTCACAAG CTGCCTTGGA AGATGGAGGA AATAACAGCT CTGTAACTCC TACTGAAGCT 
    GGAAATATAG ACAGTTCAGG AGAAAACAGG CAATTAATGG GGTCTGATCC AACTGTGGTA 
    TCAGTTACTG GATCCCATGT CAACCGTGCT GCACCTAAAT ACCCCAAAAC CAAAAAGTAT 
    CTAGTTACAG AATGGTTGAA TGACAAAGCA GAGAAGCAAG AATGCCCTGT TGAGTGCCCT 
    TTACGTATCA CCACGGACCC AACTGTACTG GCAACAACCC TGAACATGTT ACCCGGTCTT 
    ATCCATTCCC CATTAATTTG CACCACCCCC AAACACTACA TTCGCTTTGG CTCACCCTTT 
    ATCCCTGAGA GACGTCGAAG ACCCCTTCTG CCTGATGGCA CCTTCAGCTC CTGTAAAAAG 
    CGCTGGATAA AGCAAGCCTT GGAAGAAGGG ATGACTCAAA CATCATCTGT ACCCCAAGAG 
    ACTAGAACTC AGCACCTATA CCAAAGTAAT GAGAATAGTA ACTCTTCTAG TATCTGCAAA 
    GATAATGCAG ACTTGTTGAG CCCATTAAAG AAATGGAAGT CTCGCTATCT GATGGAGCAG 
    AATGTCACCA AGTTACTGCG GCCTCTTTCT CCAGTCACAC CACCCCCTCC CAATCCAGGC 
    TCAAAGAGCC CCCCACTGAC CACACCTGGC CCATCTCACC CAGAAGAGGA GTGTCGAAAT 
    GGATACAGCC TCATGTTCTC ACCAATCACG TCTCTTACTA CTGCTAGTCG CTGCAATACT 
    CCTCTGCAGT TTGAGCTTTG TCACCGGAAG GACCTGGACT TGACAAAAGT AGGCTACCTT 
    GACTCCAACA CTAACAGCTG TGCTGACAGA CCTTCCCTGA TCAACTCAGG TCCTTCTGAC 
    CTGGCTCCTC ATCCCTCTGT CGGGCCCCCC TCTGAGACTG GCTTTCCAAG TAGGAGTGGA 
    GATGGACATC AGACCCTTGC AAGGAACTCG GACCAGGCAT TTCGGACAGA GTTTAACTTA 
    ATGTACGCCT ACTCCCCATT GAACGCTATG CCTCGAGCAG ATGGATTATA TCGAGGGTCT 
    CCCCTAGTAG GGGATAGGAA GCCTTTACAT TTGGACGGGG GATATTGTTC CCCTGCAGAA 
    GGGTTTCCCA GCAGATATGA ACATAGTTTT ATGAAAGACC TCTCTCGTGG ATCCGTATCA 
    CCTGGTGGTG AAAGGGCTTG TGAAGGAGTC CCGTCTGCCC CCCAGAACCC ACCGCAGAGG 
    AAAAAGGTAT CCCTGCTGGA GTACCGCAAA CGGAAACAAG AAGCCAAGGA GAATTCTGGT 
    GGGGGAGGTG ACTCTGCACA GAGCAAAATC AAGTCTGCAG GAGCTGGGCA AGGCAGCAGT 
    AACTCACTTT CTGACACTGG TGCCCATGGT GTGCAGGGAT CCTCAACCCG AACCCCATCT 
    TCCCCTCACA AAAAATTCTC CCCATCTCAT TCCTCTATGT CCCATATGGA GGCGGTAAGC 
    CCATCAGATT CCAGAGGCAC TTCATCTCAC TGCAGACCTC AAGAGAATAT CAGCAGTAGG 
    TGGATGGTTC CCACGTCAGT GGAACGACTC CGAGAAGGAG GGAGCATCCC CAAGGTTCTC 
    CGAAGCAGTG TAAGGGTGGC CCAAAAAGGA GAGCCTTCTC CCACGTGGGA GAGTAACATC 
    ACAGAGAAAG ACTCAGACCC TACGGATGGA GAAGGCCCAG AGACACTGAG CTCAGCACTC 
    TCTAAAGGAG CAGCCGTTTA CAGCCCTTCC AGATACAGCT ACCAGCTCCT GCAGTGTGAT 
    AGTCCACGGA CAGAATCACA AAGCCTCCTT CAGCAGAGTT CCTCCCCCTT TAGAGGACAT 
    CCCACCCAAT CTCCAGGATA CAGTTATCGA ACTACTGCAC TGAGACCTGG AAATCCCCCC 
    TCTCACGGTT CTTCAGAATC TTCCCTCTCT TCTACGTCCT ATTCCAGCCC CGCCCACCCT 
    GTATCCACAG ACTCGTTGGC CCCATTTACG GGGACACCAG GGTATTATAG CAGCCAGCCA 
    CATTCTGGAA ACAGCACTGG CAGCAATCTT CCAAGGAGGA GCTGCCCTTC TAGTGCTGCT 
    AGCCCTACCC CACAGGGCCC CTCAGACTCG CCGACCTCAG ACTCGGTCTC CCAGTCCAGC 
    ACAGGAACTC TGAGTTCCAC CTCCTTCCCT CAGAACTCTA GGTCGTCATT GCCATCAGAC 
    TTACGGACTA TCAGTCTGCC CAGTGCTGGG CAGTCCACTG CCTACCAGGC CTCCAGGGTA 
    TCTGCGGTTT CCAATTCACA GCACTACCCA CACCGTGGGA GTGGGGGTGT GCACCAGTAC 
    CGACTCCAGC CGCTGCAAGG GTCAGGAGTC AAGACTCAGA CAGGACTTTC CTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    SETD5 ( XM_011216687.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011214989.1 Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OAc29768
    Clone ID Related Accession (Same CDS sequence) XM_011216687.2
    Accession Version XM_011216687.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4080bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-12-27
    Organism Ailuropoda melanoleuca(giant panda)
    Product SET domain-containing protein 5 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003219383.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011216687.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGG GGAAGGTTAT TAGACTTCAT CGGCGGAAGC AGGACAACAT ATCAGGTGGG 
    GATAGCAGTG CAACAGAAAG CTGGGATGAG GAGCTTTCTC CTTCCACTGT GTTGTACACA 
    GCAACACAGC ACACACCTAC AAGCATCACC TTAACTGTTA GAAGAACCAA ACCCAAGAAG 
    CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA GCAGCAAAGA CGAAGAAAAT CAAGGCATTT 
    CGAGAGGGAT CCCGGAAGTC CTTGCGGATG AAGAATTCTC CTTCTGAAGC ACAGAATTTA 
    GATGAGAATA CAACTGAGGG ATGGGAAAAT CGGATAAGAC TATGGACTGA TCAGTATGAA 
    GAAGCTTTCA CTAATCAGTA CAGTGCAGAT GTACAGAACG CCCTTGAACA ACATCTACAT 
    TCTAGCAAGG AATTTGTGGG CAAACCTGCT ATTTTAGACA CTATTAATAA GACTGAATTG 
    GCCTGTAATA ATACAGTTAT TGGTTCCCAA ATGCAGCTAC AGTTGGGAAG AGTCACTCGT 
    GTTCAGAAGC ACCGGAAGAT CCTGAGGGCT GCAAGAGACT TGGCTCTGGA CACTCTTATA 
    ATAGAGTATC GAGGGAAAGT CATGTTACGA CAACAATTTG AGGTCAATGG GCATTTCTTC 
    AAAAAACCAT ACCCCTTTGT GCTCTTCTAC TCAAAATTCA ATGGTGTAGA GATGTGTGTG 
    GATGCACGTA CTTTCGGTAA TGATGCTCGG TTCATCAGAA GATCGTGTAC ACCAAATGCA 
    GAGGTGCGAC ACATGATTGC AGATGGGATG ATTCACCTGT GTATCTATGC TGTATCTGCC 
    ATCACCAAAG ATGCTGAGGT CACCATAGCA TTTGACTATG AGTACAGTAA CTGTAATTAT 
    AAAGTGGACT GTGCGTGTCA CAAGGGGAAC CGGAATTGCC CTATACAGAA AAGGAATCCC 
    AATGCTGCAG AACCACCACT CCCACCTCCT CCAAGCTTAC CCACCATCGG AGCAGAGACA 
    AGACGTAGAA AAGCACGACG GAAAGAGCTA GAGATGGAGC AGCAGAATGA GGCTCCAGAA 
    GAGGATAACA GTCAGCAACC AGAACAAGTT CCTGAGAAAG CAACTGTGTC CAGTGACCAT 
    GAGGAAATAG ACAATCCAGA AGAAAAAGCA GAAGAGGAGA AAGAAGAGGT TACCGATGAC 
    CAGGAGAACC CAGCTCATAG CAGAAGGACC CGGGAAGATA GGAAGGTCGA AGCCATCATG 
    CATGCTTTTG AAAACTTAGA GAAAAGAAAG AAGCGGCGGG ATCAGCCCTT GGAACAAAGC 
    AGCTCTGACA TAGAGATTAC TACCACCACT TCAGAGGTCC CTGTGGGAGA AGAGGCAAAA 
    ACTGAAGCCC CTGAACCTGA AGTTAGCAAC CCTGCTTCAA ACATGGCCAT CCCAAGCACC 
    CCCCAGAGTG TTGGTGTGAA CACCCGGAGG TCTTCCCAAG CAGGGGATGT TGCTGCAGAG 
    AAACCAGTCC CCAAGCCACC TCCAGCAAAG CCTTCTAGGC CCCGACCGAA GAGTCGAATT 
    TCTCGGTACC GGACCAGTTC AGCCCAAAGA CTAAAGCGTC AGAAGCAGGC CATTGCACAA 
    CAGGCAGAGT TGTCACAAGC TGCCTTGGAA GATGGAGGAA ATAACAGCTC TGTAACTCCT 
    ACTGAAGCTG GAAATATAGA CAGTTCAGGA GAAAACAGGC AATTAATGGG GTCTGATCCA 
    ACTGTGGTAT CAGTTACTGG ATCCCATGTC AACCGTGCTG CACCTAAATA CCCCAAAACC 
    AAAAAGTATC TAGTTACAGA ATGGTTGAAT GACAAAGCAG AGAAGCAAGA ATGCCCTGTT 
    GAGTGCCCTT TACGTATCAC CACGGACCCA ACTGTACTGG CAACAACCCT GAACATGTTA 
    CCCGGTCTTA TCCATTCCCC ATTAATTTGC ACCACCCCCA AACACTACAT TCGCTTTGGC 
    TCACCCTTTA TCCCTGAGAG ACGTCGAAGA CCCCTTCTGC CTGATGGCAC CTTCAGCTCC 
    TGTAAAAAGC GCTGGATAAA GCAAGCCTTG GAAGAAGGGA TGACTCAAAC ATCATCTGTA 
    CCCCAAGAGA CTAGAACTCA GCACCTATAC CAAAGTAATG AGAATAGTAA CTCTTCTAGT 
    ATCTGCAAAG ATAATGCAGA CTTGTTGAGC CCATTAAAGA AATGGAAGTC TCGCTATCTG 
    ATGGAGCAGA ATGTCACCAA GTTACTGCGG CCTCTTTCTC CAGTCACACC ACCCCCTCCC 
    AATCCAGGCT CAAAGAGCCC CCCACTGACC ACACCTGGCC CATCTCACCC AGAAGAGGAG 
    TGTCGAAATG GATACAGCCT CATGTTCTCA CCAATCACGT CTCTTACTAC TGCTAGTCGC 
    TGCAATACTC CTCTGCAGTT TGAGAACATA TCCTCCCCTG AGAGTTCCCC TGCGAATAGG 
    CCCGAGTCCC TGTCACCCGA GCTTTGTCAC CGGAAGGACC TGGACTTGAC AAAAGTAGGC 
    TACCTTGACT CCAACACTAA CAGCTGTGCT GACAGACCTT CCCTGATCAA CTCAGGTCCT 
    TCTGACCTGG CTCCTCATCC CTCTGTCGGG CCCCCCTCTG AGACTGGCTT TCCAAGTAGG 
    AGTGGAGATG GACATCAGAC CCTTGCAAGG AACTCGGACC AGGCATTTCG GACAGAGTTT 
    AACTTAATGT ACGCCTACTC CCCATTGAAC GCTATGCCTC GAGCAGATGG ATTATATCGA 
    GGGTCTCCCC TAGTAGGGGA TAGGAAGCCT TTACATTTGG ACGGGGGATA TTGTTCCCCT 
    GCAGAAGGGT TTCCCAGCAG ATATGAACAT AGTTTTATGA AAGACCTCTC TCGTGGATCC 
    GTATCACCTG GTGGTGAAAG GGCTTGTGAA GGAGTCCCGT CTGCCCCCCA GAACCCACCG 
    CAGAGGAAAA AGGTATCCCT GCTGGAGTAC CGCAAACGGA AACAAGAAGC CAAGGAGAAT 
    TCTGGTGGGG GAGGTGACTC TGCACAGAGC AAAATCAAGT CTGCAGGAGC TGGGCAAGGC 
    AGCAGTAACT CACTTTCTGA CACTGGTGCC CATGGTGTGC AGGGATCCTC AACCCGAACC 
    CCATCTTCCC CTCACAAAAA ATTCTCCCCA TCTCATTCCT CTATGTCCCA TATGGAGGCG 
    GTAAGCCCAT CAGATTCCAG AGGCACTTCA TCTCACTGCA GACCTCAAGA GAATATCAGC 
    AGTAGGTGGA TGGTTCCCAC GTCAGTGGAA CGACTCCGAG AAGGAGGGAG CATCCCCAAG 
    GTTCTCCGAA GCAGTGTAAG GGTGGCCCAA AAAGGAGAGC CTTCTCCCAC GTGGGAGAGT 
    AACATCACAG AGAAAGACTC AGACCCTACG GATGGAGAAG GCCCAGAGAC ACTGAGCTCA 
    GCACTCTCTA AAGGAGCAGC CGTTTACAGC CCTTCCAGAT ACAGCTACCA GCTCCTGCAG 
    TGTGATAGTC CACGGACAGA ATCACAAAGC CTCCTTCAGC AGAGTTCCTC CCCCTTTAGA 
    GGACATCCCA CCCAATCTCC AGGATACAGT TATCGAACTA CTGCACTGAG ACCTGGAAAT 
    CCCCCCTCTC ACGGTTCTTC AGAATCTTCC CTCTCTTCTA CGTCCTATTC CAGCCCCGCC 
    CACCCTGTAT CCACAGACTC GTTGGCCCCA TTTACGGGGA CACCAGGGTA TTATAGCAGC 
    CAGCCACATT CTGGAAACAG CACTGGCAGC AATCTTCCAA GGAGGAGCTG CCCTTCTAGT 
    GCTGCTAGCC CTACCCCACA GGGCCCCTCA GACTCGCCGA CCTCAGACTC GGTCTCCCAG 
    TCCAGCACAG GAACTCTGAG TTCCACCTCC TTCCCTCAGA ACTCTAGGTC GTCATTGCCA 
    TCAGACTTAC GGACTATCAG TCTGCCCAGT GCTGGGCAGT CCACTGCCTA CCAGGCCTCC 
    AGGGTATCTG CGGTTTCCAA TTCACAGCAC TACCCACACC GTGGGAGTGG GGGTGTGCAC 
    CAGTACCGAC TCCAGCCGCT GCAAGGGTCA GGAGTCAAGA CTCAGACAGG ACTTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011214989.1
    CDS133..4212
    Translation

    Target ORF information:

    RefSeq Version XM_011216687.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca SET domain containing 5 (SETD5), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011216687.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAGCAGGG GGAAGGTTAT TAGACTTCAT CGGCGGAAGC AGGACAACAT ATCAGGTGGG 
    GATAGCAGTG CAACAGAAAG CTGGGATGAG GAGCTTTCTC CTTCCACTGT GTTGTACACA 
    GCAACACAGC ACACACCTAC AAGCATCACC TTAACTGTTA GAAGAACCAA ACCCAAGAAG 
    CGGAAGAAGA GTCCAGAAAA GGGTCGCGCA GCAGCAAAGA CGAAGAAAAT CAAGGCATTT 
    CGAGAGGGAT CCCGGAAGTC CTTGCGGATG AAGAATTCTC CTTCTGAAGC ACAGAATTTA 
    GATGAGAATA CAACTGAGGG ATGGGAAAAT CGGATAAGAC TATGGACTGA TCAGTATGAA 
    GAAGCTTTCA CTAATCAGTA CAGTGCAGAT GTACAGAACG CCCTTGAACA ACATCTACAT 
    TCTAGCAAGG AATTTGTGGG CAAACCTGCT ATTTTAGACA CTATTAATAA GACTGAATTG 
    GCCTGTAATA ATACAGTTAT TGGTTCCCAA ATGCAGCTAC AGTTGGGAAG AGTCACTCGT 
    GTTCAGAAGC ACCGGAAGAT CCTGAGGGCT GCAAGAGACT TGGCTCTGGA CACTCTTATA 
    ATAGAGTATC GAGGGAAAGT CATGTTACGA CAACAATTTG AGGTCAATGG GCATTTCTTC 
    AAAAAACCAT ACCCCTTTGT GCTCTTCTAC TCAAAATTCA ATGGTGTAGA GATGTGTGTG 
    GATGCACGTA CTTTCGGTAA TGATGCTCGG TTCATCAGAA GATCGTGTAC ACCAAATGCA 
    GAGGTGCGAC ACATGATTGC AGATGGGATG ATTCACCTGT GTATCTATGC TGTATCTGCC 
    ATCACCAAAG ATGCTGAGGT CACCATAGCA TTTGACTATG AGTACAGTAA CTGTAATTAT 
    AAAGTGGACT GTGCGTGTCA CAAGGGGAAC CGGAATTGCC CTATACAGAA AAGGAATCCC 
    AATGCTGCAG AACCACCACT CCCACCTCCT CCAAGCTTAC CCACCATCGG AGCAGAGACA 
    AGACGTAGAA AAGCACGACG GAAAGAGCTA GAGATGGAGC AGCAGAATGA GGCTCCAGAA 
    GAGGATAACA GTCAGCAACC AGAACAAGTT CCTGAGAAAG CAACTGTGTC CAGTGACCAT 
    GAGGAAATAG ACAATCCAGA AGAAAAAGCA GAAGAGGAGA AAGAAGAGGT TACCGATGAC 
    CAGGAGAACC CAGCTCATAG CAGAAGGACC CGGGAAGATA GGAAGGTCGA AGCCATCATG 
    CATGCTTTTG AAAACTTAGA GAAAAGAAAG AAGCGGCGGG ATCAGCCCTT GGAACAAAGC 
    AGCTCTGACA TAGAGATTAC TACCACCACT TCAGAGGTCC CTGTGGGAGA AGAGGCAAAA 
    ACTGAAGCCC CTGAACCTGA AGTTAGCAAC CCTGCTTCAA ACATGGCCAT CCCAAGCACC 
    CCCCAGAGTG TTGGTGTGAA CACCCGGAGG TCTTCCCAAG CAGGGGATGT TGCTGCAGAG 
    AAACCAGTCC CCAAGCCACC TCCAGCAAAG CCTTCTAGGC CCCGACCGAA GAGTCGAATT 
    TCTCGGTACC GGACCAGTTC AGCCCAAAGA CTAAAGCGTC AGAAGCAGGC CATTGCACAA 
    CAGGCAGAGT TGTCACAAGC TGCCTTGGAA GATGGAGGAA ATAACAGCTC TGTAACTCCT 
    ACTGAAGCTG GAAATATAGA CAGTTCAGGA GAAAACAGGC AATTAATGGG GTCTGATCCA 
    ACTGTGGTAT CAGTTACTGG ATCCCATGTC AACCGTGCTG CACCTAAATA CCCCAAAACC 
    AAAAAGTATC TAGTTACAGA ATGGTTGAAT GACAAAGCAG AGAAGCAAGA ATGCCCTGTT 
    GAGTGCCCTT TACGTATCAC CACGGACCCA ACTGTACTGG CAACAACCCT GAACATGTTA 
    CCCGGTCTTA TCCATTCCCC ATTAATTTGC ACCACCCCCA AACACTACAT TCGCTTTGGC 
    TCACCCTTTA TCCCTGAGAG ACGTCGAAGA CCCCTTCTGC CTGATGGCAC CTTCAGCTCC 
    TGTAAAAAGC GCTGGATAAA GCAAGCCTTG GAAGAAGGGA TGACTCAAAC ATCATCTGTA 
    CCCCAAGAGA CTAGAACTCA GCACCTATAC CAAAGTAATG AGAATAGTAA CTCTTCTAGT 
    ATCTGCAAAG ATAATGCAGA CTTGTTGAGC CCATTAAAGA AATGGAAGTC TCGCTATCTG 
    ATGGAGCAGA ATGTCACCAA GTTACTGCGG CCTCTTTCTC CAGTCACACC ACCCCCTCCC 
    AATCCAGGCT CAAAGAGCCC CCCACTGACC ACACCTGGCC CATCTCACCC AGAAGAGGAG 
    TGTCGAAATG GATACAGCCT CATGTTCTCA CCAATCACGT CTCTTACTAC TGCTAGTCGC 
    TGCAATACTC CTCTGCAGTT TGAGAACATA TCCTCCCCTG AGAGTTCCCC TGCGAATAGG 
    CCCGAGTCCC TGTCACCCGA GCTTTGTCAC CGGAAGGACC TGGACTTGAC AAAAGTAGGC 
    TACCTTGACT CCAACACTAA CAGCTGTGCT GACAGACCTT CCCTGATCAA CTCAGGTCCT 
    TCTGACCTGG CTCCTCATCC CTCTGTCGGG CCCCCCTCTG AGACTGGCTT TCCAAGTAGG 
    AGTGGAGATG GACATCAGAC CCTTGCAAGG AACTCGGACC AGGCATTTCG GACAGAGTTT 
    AACTTAATGT ACGCCTACTC CCCATTGAAC GCTATGCCTC GAGCAGATGG ATTATATCGA 
    GGGTCTCCCC TAGTAGGGGA TAGGAAGCCT TTACATTTGG ACGGGGGATA TTGTTCCCCT 
    GCAGAAGGGT TTCCCAGCAG ATATGAACAT AGTTTTATGA AAGACCTCTC TCGTGGATCC 
    GTATCACCTG GTGGTGAAAG GGCTTGTGAA GGAGTCCCGT CTGCCCCCCA GAACCCACCG 
    CAGAGGAAAA AGGTATCCCT GCTGGAGTAC CGCAAACGGA AACAAGAAGC CAAGGAGAAT 
    TCTGGTGGGG GAGGTGACTC TGCACAGAGC AAAATCAAGT CTGCAGGAGC TGGGCAAGGC 
    AGCAGTAACT CACTTTCTGA CACTGGTGCC CATGGTGTGC AGGGATCCTC AACCCGAACC 
    CCATCTTCCC CTCACAAAAA ATTCTCCCCA TCTCATTCCT CTATGTCCCA TATGGAGGCG 
    GTAAGCCCAT CAGATTCCAG AGGCACTTCA TCTCACTGCA GACCTCAAGA GAATATCAGC 
    AGTAGGTGGA TGGTTCCCAC GTCAGTGGAA CGACTCCGAG AAGGAGGGAG CATCCCCAAG 
    GTTCTCCGAA GCAGTGTAAG GGTGGCCCAA AAAGGAGAGC CTTCTCCCAC GTGGGAGAGT 
    AACATCACAG AGAAAGACTC AGACCCTACG GATGGAGAAG GCCCAGAGAC ACTGAGCTCA 
    GCACTCTCTA AAGGAGCAGC CGTTTACAGC CCTTCCAGAT ACAGCTACCA GCTCCTGCAG 
    TGTGATAGTC CACGGACAGA ATCACAAAGC CTCCTTCAGC AGAGTTCCTC CCCCTTTAGA 
    GGACATCCCA CCCAATCTCC AGGATACAGT TATCGAACTA CTGCACTGAG ACCTGGAAAT 
    CCCCCCTCTC ACGGTTCTTC AGAATCTTCC CTCTCTTCTA CGTCCTATTC CAGCCCCGCC 
    CACCCTGTAT CCACAGACTC GTTGGCCCCA TTTACGGGGA CACCAGGGTA TTATAGCAGC 
    CAGCCACATT CTGGAAACAG CACTGGCAGC AATCTTCCAA GGAGGAGCTG CCCTTCTAGT 
    GCTGCTAGCC CTACCCCACA GGGCCCCTCA GACTCGCCGA CCTCAGACTC GGTCTCCCAG 
    TCCAGCACAG GAACTCTGAG TTCCACCTCC TTCCCTCAGA ACTCTAGGTC GTCATTGCCA 
    TCAGACTTAC GGACTATCAG TCTGCCCAGT GCTGGGCAGT CCACTGCCTA CCAGGCCTCC 
    AGGGTATCTG CGGTTTCCAA TTCACAGCAC TACCCACACC GTGGGAGTGG GGGTGTGCAC 
    CAGTACCGAC TCCAGCCGCT GCAAGGGTCA GGAGTCAAGA CTCAGACAGG ACTTTCCTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

REQUEST A QUOTE

EMAIL

[email protected]

PHONE

1-877-436-7274

ONLINE FORM

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FAX

1-732-210-0262