ORF » Species Summary » Ailuropoda melanoleuca » ATP10B cDNA ORF clone

ATP10B cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

The following ATP10B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP10B 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
OAc87985 XM_019795041.1
Latest version!		 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAc32562 XM_011219504.2
Latest version!		 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OAc32562 XM_019795040.1
Latest version!		 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X2, 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)
    ATP10B ( XM_019795041.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650600.1 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAc87985
    Clone ID Related Accession (Same CDS sequence) XM_019795041.1
    Accession Version XM_019795041.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4122bp)
    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 probable phospholipid-transporting ATPase VB isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217293.1) 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
    ATGTGGGCTA ACCTCTATTT TCTGTTCCTG GTGATTCTGA ACTGGATGCC CTCCATGGAA 
    GTTTTCCACA AAGAAATCAC CATGTTACCA TTGGCCATCG TGCTGTTCAT CATCATGGTC 
    AAGGATGGCA TGGAGGACTT CAAGAGACAT CGTTTTGATA GAGAGATCAA CTGTTCCAAC 
    ATCTGGATAT ATGAAAGAAA AGAGCGGAGC TACGTGCAGA AGTGCTGGAA GGATGTTCGT 
    GTGGGAGACT TCATCCAAAT GAAATGCAAC GAGATCATCC CAGCCGACAT ACTCCTCCTC 
    TTCTCCTCAG ACCCCAGTGG GATCTGCCAC CTGGAAACTG CCAACCTGGA TGGAGAGACA 
    AACCTCAAAC AAAGACGTGT CGTGAAGGGC TTCTCACAGC AGGACGTACA GTTTGAACCC 
    GAAGGCTTCT GCAATACCAT CGTGTGTGAG AGACCCAACA ACCACCTCAA CAAATTTAAG 
    GGTTATATGG AGCATCCTGA CCAGACGAGG ACTGGCTTTG GCAGTGAGAG CCTTCTGCTT 
    CGAGGCTGCA CCATCAGAAA CACCGAGGTG GCTGTTGGCA TCGTCATCTA TGCAGGCCAT 
    GAGACAAAAG CCATGCTGAA CAACAATGGC CCACGGTATA AACGCAGCAA GATTGAGCGG 
    CGCATGAACA CAGACATCTT CTTCTGCATT GGACTCCTCC TCCTCATGTG TCTCATTGGA 
    GCTATAGGTC ACCGCCTCTG GAATGGGACC TTTGAAGAAC ACCCTCCCTT TGATGTGCCA 
    GATGCCAAGG GCAGCTTCCT TCCCCTTGCC CTTGGAGGCT TCTACATGTT CCTTACAATG 
    ATCATCCTGC TCCAGGTGCT GATCCCAGTC TCCCTCTATG TGTCCATTGA GCTGGTGAAG 
    CTTGGGCAAG TCTTCTTCCT GCATAATGAC CTTGACCTGT ATGATGAAGA GACCGATTTG 
    CCCATTCAGT GTCGAGCCCT CAACATCACT GAGGACTTGG GCCAGATCCA GTATGTCTTC 
    TCTGACAAGA CGGGGACACT GACTGAGAAC AAGATGGTCT TTCGGCGTTG CACTATCATG 
    GGCAGCGAGT ATTCTCACCA AGAAAATGCC AAGCGACTGG AGACTCCAAG GGAGCTTGAC 
    TCAGACAGTG AAGAGTGGAC CCAGTACCAG TGCCTGTCCT TCCCAGCCCG ATGGGTTCAG 
    GGCCCAGCAA CACTGAGAGG CCAAGGATGG GCCCAGCCTC TGAGGAGATG CCACAGTGCC 
    CAGGTACCAA TCCAGGGCCA CTCCCGACAA AGGTCTGTGG GACGCTATGA AAGCTCACAG 
    CCTCCTGTGG CCTTCAGCAG CTCCATAGAA AAAGATGTGA CTCCAGATAA AAATCTACTG 
    CCCAAAGTGC ACGATGCTGC CCTGTGGCTG GAGACCTTGT CAGACACCAA ACCTGCCAAG 
    CCTTCCCCCT CCACCACCTC CACCATTGCT GACTTCTTCC TTGCCCTAAC CATCTGCAAC 
    TCTGTCATGG TCTCCACAAC CACAGAGCCC AGGCAGAGGG TCACCATGCC ACCCTCAACC 
    AAGGCTGTGG GGACGTCCCT GGAGAAGATT CAGCAGCTCT TCCACAAATT GAAGCTTTTG 
    AACCTCAGCC AGTCATTCTC ATCTACTGCG CCCTCTGACA CTGACCTGGG GGACAGTTTG 
    GGGGCCAACA TGCCTAACAC AGACTCAGAA GAGAGAGATG ATGCATCTGT GTACAGTGGA 
    GGCTACTCTA CAGATGGTGG CTATAGGAGC AGCACATGGG ACCAGGGTGA CATCCAGGGG 
    TCTGGATTGG ATGCTTCCTT GGAGGAGGTG CTGGAGGCCC CAGCTCTGGG CCTTGCCAGC 
    CCTGAGCTCT ATTATGAGGC TGAGAGCCCT GATGAGGCAG CCCTGGTGCA TGCTGCCCAT 
    GCCTACAGCT TCACGCTGGT GTCCCGGACA CCTGAGCAGG TGACCGTGCG CTTGCCCCAG 
    GGCACCTGCC TCACCTTTGA CATCCTCTGC ACCCTGGGCT TTGACTCTGT CAGGAAAAGA 
    ATGTCCGTGG TTGTGAGGCA CCCACTGACG GGTGAGATCA TCGTCTACAC CAAGGGCGCA 
    GATTCGGTTA TCATGGACCT GCTGGAAGAC CCAGCGTGTG TAACTGACAT GGATGTGGAA 
    AAGAAGGTGA GAAAAATCCG AGCCAGGACC CAGAAGCACC TAGACTTGTA TGCAAGAGAT 
    GGCCTTCGAA CACTGTGCAT CGCCAAGAAG GTCATAACTG AAGATGACTT CCGTCGATGG 
    GCCAGTTCCC GGTGTGAGGC AGAGGCATCC CTTGACAACC GAGACGAGCT GCTAATGGAG 
    ACCACACAGC ATCTGGAGAA TCAACTCACC TTACTCGGAG CCACTGGGAT CGAAGACCGG 
    CTACAAGAAG GGGTTCCAGA CACAATCGCT GCTCTGCAGG AGGCTGGGAT CCAACTCTGG 
    GTCTTGACTG GAGATAAGCA GGAGACAGCA ATCAATATCG CCTATTCCTG CGGATTGTTA 
    GATCAGACTG ACACTGTTTA CTCCATTAAT ACAGAAAGTC AGGAAACTTG CGAATCCATC 
    CTCAACTGTG CACTGGAAGA AGTAAAGCAA TTTCATGGAC CACAGAAGCC AGACCGCAAG 
    CTCTTCGGGT TCTGTTTACC TTCTGAGATG CTACCCCCCA CATCAAGAGC TGCAGTTCCA 
    GACGTTGGAC TGGTCATCAA TGGGAAGACA TTGAATGCCA TTTTTCAGGG AGAACTGGAG 
    ATGAAATTTT TGGAGTTGAC TCAGTACTGC CGGTCTGTCC TATGCTGCCG TTCCACCCCG 
    CTCCAGAAGA GTATGATAGT GAAGCTGGTG CGAGACAAGT TGAGCGTCAT GACCCTTTCC 
    ATAGGTGATG GAGCAAATGA CGTAAGCATG ATTCAAGCTG CTGACATTGG AATTGGGATA 
    TCTGGACAGG AAGGCATGCA GGCTGTTATG TCCAGTGACT TTGCCATCTC CCGCTTCAAA 
    CACCTCAAGA AGCTGCTGCT TGTACATGGC CACTGGTGTT ACTCGCGCCT GGCCAGGATG 
    GTGGTGTACT ACTTCTACAA GAATGTGTGC TACGTCAACC TGCTCTTCTG GTACCAGTTT 
    TTCTGTGGTT TCTCTGGTTC CACCATGATC GATTATTGGC AGATGATATT CTTCAATCTC 
    TTCTTCACCT CCTTGCCTCC TCTCATTTTC GGAATCCTCG ATAAAGACAT CTCTGCAGAA 
    ACACTCCTGG CATTGCCTGA GCTGTACAAG AGTGGCCAGA ACTCTGAGTG CTACAACCCA 
    ATGACTTTCT GGATTTCCAT AGTGGATGCA TTCTACCAGA GCCTTGTCTG TTTCTTCATT 
    CCTTACCTGA CCTACAAAGA TTCTGATATT GACGTTTTTA CATTTGGGAC ACCCATCAAT 
    ACCATCTCCC TCACCACAAT CCTCTTGCAC CAGGCAATGG AAATGAAGAC CTGGACCATG 
    ATCCATGGGC TTGTTCTCGT AGGCAGCTTC CTGATGTACT TTGTGGTATC CCTTGTTTAC 
    AACGCCACCT GTGTCAACTG CAACAGTCCC ACTAATCCCT ACTGGGTGAT GGAAGGCCAG 
    CTCTCTGACC CCACTTTCTA CCTCGTCTGT TTCCTCACAC CAGTCATGGC TCTTCTCCCA 
    AGGTACTTTT TCCTATCTCT ACAAGGCACT TACGGGAAGT CTCTGATCTT AAAAGCTCAG 
    AAAATCGACA AACTGCCCAC AGACAAAAAG GACCTAGAAA TGCAGAGTTC GAGAAGCAGA 
    CAGAGATCTG TCCCTATTCC CAGAGAGGCT CAGCGCACCC ACCATCCAGT GCCACCTGTC 
    CCAGAACGAG ACTTCAGAGC CAGCACCCCA AAGAGTTCTA GACCTCCCAA GCAGAAGTGC 
    AAGGAGGACT GGGTGCTGCA TGGAGAGAAA TGCAGCAGAG ACCATCTGAA GGATCACCCA 
    TGCCCAGGGG CCTCCTCAGC TAAACTCCCA TCCAGGGAAT ACCCTCTTCT GGGGCCTAGT 
    AGGACAATGG CTTTGGGAGC CTACTCAAGT GGACAGATTG ATGAGTACAG GCCCTCAAGC 
    AGGGGCAGTC ATCGCCGATC CCAGAGTTCA CTAACTATAT GA

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

    RefSeq XP_019650600.1
    CDS66..4187
    Translation

    Target ORF information:

    RefSeq Version XM_019795041.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019795041.1

    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
    ATGTGGGCTA ACCTCTATTT TCTGTTCCTG GTGATTCTGA ACTGGATGCC CTCCATGGAA 
    GTTTTCCACA AAGAAATCAC CATGTTACCA TTGGCCATCG TGCTGTTCAT CATCATGGTC 
    AAGGATGGCA TGGAGGACTT CAAGAGACAT CGTTTTGATA GAGAGATCAA CTGTTCCAAC 
    ATCTGGATAT ATGAAAGAAA AGAGCGGAGC TACGTGCAGA AGTGCTGGAA GGATGTTCGT 
    GTGGGAGACT TCATCCAAAT GAAATGCAAC GAGATCATCC CAGCCGACAT ACTCCTCCTC 
    TTCTCCTCAG ACCCCAGTGG GATCTGCCAC CTGGAAACTG CCAACCTGGA TGGAGAGACA 
    AACCTCAAAC AAAGACGTGT CGTGAAGGGC TTCTCACAGC AGGACGTACA GTTTGAACCC 
    GAAGGCTTCT GCAATACCAT CGTGTGTGAG AGACCCAACA ACCACCTCAA CAAATTTAAG 
    GGTTATATGG AGCATCCTGA CCAGACGAGG ACTGGCTTTG GCAGTGAGAG CCTTCTGCTT 
    CGAGGCTGCA CCATCAGAAA CACCGAGGTG GCTGTTGGCA TCGTCATCTA TGCAGGCCAT 
    GAGACAAAAG CCATGCTGAA CAACAATGGC CCACGGTATA AACGCAGCAA GATTGAGCGG 
    CGCATGAACA CAGACATCTT CTTCTGCATT GGACTCCTCC TCCTCATGTG TCTCATTGGA 
    GCTATAGGTC ACCGCCTCTG GAATGGGACC TTTGAAGAAC ACCCTCCCTT TGATGTGCCA 
    GATGCCAAGG GCAGCTTCCT TCCCCTTGCC CTTGGAGGCT TCTACATGTT CCTTACAATG 
    ATCATCCTGC TCCAGGTGCT GATCCCAGTC TCCCTCTATG TGTCCATTGA GCTGGTGAAG 
    CTTGGGCAAG TCTTCTTCCT GCATAATGAC CTTGACCTGT ATGATGAAGA GACCGATTTG 
    CCCATTCAGT GTCGAGCCCT CAACATCACT GAGGACTTGG GCCAGATCCA GTATGTCTTC 
    TCTGACAAGA CGGGGACACT GACTGAGAAC AAGATGGTCT TTCGGCGTTG CACTATCATG 
    GGCAGCGAGT ATTCTCACCA AGAAAATGCC AAGCGACTGG AGACTCCAAG GGAGCTTGAC 
    TCAGACAGTG AAGAGTGGAC CCAGTACCAG TGCCTGTCCT TCCCAGCCCG ATGGGTTCAG 
    GGCCCAGCAA CACTGAGAGG CCAAGGATGG GCCCAGCCTC TGAGGAGATG CCACAGTGCC 
    CAGGTACCAA TCCAGGGCCA CTCCCGACAA AGGTCTGTGG GACGCTATGA AAGCTCACAG 
    CCTCCTGTGG CCTTCAGCAG CTCCATAGAA AAAGATGTGA CTCCAGATAA AAATCTACTG 
    CCCAAAGTGC ACGATGCTGC CCTGTGGCTG GAGACCTTGT CAGACACCAA ACCTGCCAAG 
    CCTTCCCCCT CCACCACCTC CACCATTGCT GACTTCTTCC TTGCCCTAAC CATCTGCAAC 
    TCTGTCATGG TCTCCACAAC CACAGAGCCC AGGCAGAGGG TCACCATGCC ACCCTCAACC 
    AAGGCTGTGG GGACGTCCCT GGAGAAGATT CAGCAGCTCT TCCACAAATT GAAGCTTTTG 
    AACCTCAGCC AGTCATTCTC ATCTACTGCG CCCTCTGACA CTGACCTGGG GGACAGTTTG 
    GGGGCCAACA TGCCTAACAC AGACTCAGAA GAGAGAGATG ATGCATCTGT GTACAGTGGA 
    GGCTACTCTA CAGATGGTGG CTATAGGAGC AGCACATGGG ACCAGGGTGA CATCCAGGGG 
    TCTGGATTGG ATGCTTCCTT GGAGGAGGTG CTGGAGGCCC CAGCTCTGGG CCTTGCCAGC 
    CCTGAGCTCT ATTATGAGGC TGAGAGCCCT GATGAGGCAG CCCTGGTGCA TGCTGCCCAT 
    GCCTACAGCT TCACGCTGGT GTCCCGGACA CCTGAGCAGG TGACCGTGCG CTTGCCCCAG 
    GGCACCTGCC TCACCTTTGA CATCCTCTGC ACCCTGGGCT TTGACTCTGT CAGGAAAAGA 
    ATGTCCGTGG TTGTGAGGCA CCCACTGACG GGTGAGATCA TCGTCTACAC CAAGGGCGCA 
    GATTCGGTTA TCATGGACCT GCTGGAAGAC CCAGCGTGTG TAACTGACAT GGATGTGGAA 
    AAGAAGGTGA GAAAAATCCG AGCCAGGACC CAGAAGCACC TAGACTTGTA TGCAAGAGAT 
    GGCCTTCGAA CACTGTGCAT CGCCAAGAAG GTCATAACTG AAGATGACTT CCGTCGATGG 
    GCCAGTTCCC GGTGTGAGGC AGAGGCATCC CTTGACAACC GAGACGAGCT GCTAATGGAG 
    ACCACACAGC ATCTGGAGAA TCAACTCACC TTACTCGGAG CCACTGGGAT CGAAGACCGG 
    CTACAAGAAG GGGTTCCAGA CACAATCGCT GCTCTGCAGG AGGCTGGGAT CCAACTCTGG 
    GTCTTGACTG GAGATAAGCA GGAGACAGCA ATCAATATCG CCTATTCCTG CGGATTGTTA 
    GATCAGACTG ACACTGTTTA CTCCATTAAT ACAGAAAGTC AGGAAACTTG CGAATCCATC 
    CTCAACTGTG CACTGGAAGA AGTAAAGCAA TTTCATGGAC CACAGAAGCC AGACCGCAAG 
    CTCTTCGGGT TCTGTTTACC TTCTGAGATG CTACCCCCCA CATCAAGAGC TGCAGTTCCA 
    GACGTTGGAC TGGTCATCAA TGGGAAGACA TTGAATGCCA TTTTTCAGGG AGAACTGGAG 
    ATGAAATTTT TGGAGTTGAC TCAGTACTGC CGGTCTGTCC TATGCTGCCG TTCCACCCCG 
    CTCCAGAAGA GTATGATAGT GAAGCTGGTG CGAGACAAGT TGAGCGTCAT GACCCTTTCC 
    ATAGGTGATG GAGCAAATGA CGTAAGCATG ATTCAAGCTG CTGACATTGG AATTGGGATA 
    TCTGGACAGG AAGGCATGCA GGCTGTTATG TCCAGTGACT TTGCCATCTC CCGCTTCAAA 
    CACCTCAAGA AGCTGCTGCT TGTACATGGC CACTGGTGTT ACTCGCGCCT GGCCAGGATG 
    GTGGTGTACT ACTTCTACAA GAATGTGTGC TACGTCAACC TGCTCTTCTG GTACCAGTTT 
    TTCTGTGGTT TCTCTGGTTC CACCATGATC GATTATTGGC AGATGATATT CTTCAATCTC 
    TTCTTCACCT CCTTGCCTCC TCTCATTTTC GGAATCCTCG ATAAAGACAT CTCTGCAGAA 
    ACACTCCTGG CATTGCCTGA GCTGTACAAG AGTGGCCAGA ACTCTGAGTG CTACAACCCA 
    ATGACTTTCT GGATTTCCAT AGTGGATGCA TTCTACCAGA GCCTTGTCTG TTTCTTCATT 
    CCTTACCTGA CCTACAAAGA TTCTGATATT GACGTTTTTA CATTTGGGAC ACCCATCAAT 
    ACCATCTCCC TCACCACAAT CCTCTTGCAC CAGGCAATGG AAATGAAGAC CTGGACCATG 
    ATCCATGGGC TTGTTCTCGT AGGCAGCTTC CTGATGTACT TTGTGGTATC CCTTGTTTAC 
    AACGCCACCT GTGTCAACTG CAACAGTCCC ACTAATCCCT ACTGGGTGAT GGAAGGCCAG 
    CTCTCTGACC CCACTTTCTA CCTCGTCTGT TTCCTCACAC CAGTCATGGC TCTTCTCCCA 
    AGGTACTTTT TCCTATCTCT ACAAGGCACT TACGGGAAGT CTCTGATCTT AAAAGCTCAG 
    AAAATCGACA AACTGCCCAC AGACAAAAAG GACCTAGAAA TGCAGAGTTC GAGAAGCAGA 
    CAGAGATCTG TCCCTATTCC CAGAGAGGCT CAGCGCACCC ACCATCCAGT GCCACCTGTC 
    CCAGAACGAG ACTTCAGAGC CAGCACCCCA AAGAGTTCTA GACCTCCCAA GCAGAAGTGC 
    AAGGAGGACT GGGTGCTGCA TGGAGAGAAA TGCAGCAGAG ACCATCTGAA GGATCACCCA 
    TGCCCAGGGG CCTCCTCAGC TAAACTCCCA TCCAGGGAAT ACCCTCTTCT GGGGCCTAGT 
    AGGACAATGG CTTTGGGAGC CTACTCAAGT GGACAGATTG ATGAGTACAG GCCCTCAAGC 
    AGGGGCAGTC ATCGCCGATC CCAGAGTTCA CTAACTATAT GA

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

    ATP10B ( XM_011219504.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011217806.1 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAc32562
    Clone ID Related Accession (Same CDS sequence) XM_011219504.2 , XM_019795040.1
    Accession Version XM_011219504.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 probable phospholipid-transporting ATPase VB isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217293.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011219504.1. ##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
    ATGGCCCTGT CTGTGGACTC ATCTTGGCAC CGGTGGCAGT GTCGAGTCAG AGATGGCCTC 
    TCCCAGTCTC CATCAGAAGC CACACCACTG TTGTCCCGAG ACAAAAGGAG GCAAAGCTAC 
    AACCTGACAC AGCAGCGGGT CGTGTTTCCT AACAACAGCA TGTGCCACCA TGATTGGGCA 
    GAGGTCTCCA GGAAATACTC CGGCAACAGA ATCTGCACGA CCAAATACAC CTTCCTCACC 
    TTCCTGCCTC AGAACCTCTT TGAGCAGTTT CATAGGTGGG CTAACCTCTA TTTTCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTTTTCC ACAAAGAAAT CACCATGTTA 
    CCATTGGCCA TCGTGCTGTT CATCATCATG GTCAAGGATG GCATGGAGGA CTTCAAGAGA 
    CATCGTTTTG ATAGAGAGAT CAACTGTTCC AACATCTGGA TATATGAAAG AAAAGAGCGG 
    AGCTACGTGC AGAAGTGCTG GAAGGATGTT CGTGTGGGAG ACTTCATCCA AATGAAATGC 
    AACGAGATCA TCCCAGCCGA CATACTCCTC CTCTTCTCCT CAGACCCCAG TGGGATCTGC 
    CACCTGGAAA CTGCCAACCT GGATGGAGAG ACAAACCTCA AACAAAGACG TGTCGTGAAG 
    GGCTTCTCAC AGCAGGACGT ACAGTTTGAA CCCGAAGGCT TCTGCAATAC CATCGTGTGT 
    GAGAGACCCA ACAACCACCT CAACAAATTT AAGGGTTATA TGGAGCATCC TGACCAGACG 
    AGGACTGGCT TTGGCAGTGA GAGCCTTCTG CTTCGAGGCT GCACCATCAG AAACACCGAG 
    GTGGCTGTTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAAT 
    GGCCCACGGT ATAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATTGGACTCC TCCTCCTCAT GTGTCTCATT GGAGCTATAG GTCACCGCCT CTGGAATGGG 
    ACCTTTGAAG AACACCCTCC CTTTGATGTG CCAGATGCCA AGGGCAGCTT CCTTCCCCTT 
    GCCCTTGGAG GCTTCTACAT GTTCCTTACA ATGATCATCC TGCTCCAGGT GCTGATCCCA 
    GTCTCCCTCT ATGTGTCCAT TGAGCTGGTG AAGCTTGGGC AAGTCTTCTT CCTGCATAAT 
    GACCTTGACC TGTATGATGA AGAGACCGAT TTGCCCATTC AGTGTCGAGC CCTCAACATC 
    ACTGAGGACT TGGGCCAGAT CCAGTATGTC TTCTCTGACA AGACGGGGAC ACTGACTGAG 
    AACAAGATGG TCTTTCGGCG TTGCACTATC ATGGGCAGCG AGTATTCTCA CCAAGAAAAT 
    GCCAAGCGAC TGGAGACTCC AAGGGAGCTT GACTCAGACA GTGAAGAGTG GACCCAGTAC 
    CAGTGCCTGT CCTTCCCAGC CCGATGGGTT CAGGGCCCAG CAACACTGAG AGGCCAAGGA 
    TGGGCCCAGC CTCTGAGGAG ATGCCACAGT GCCCAGGTAC CAATCCAGGG CCACTCCCGA 
    CAAAGGTCTG TGGGACGCTA TGAAAGCTCA CAGCCTCCTG TGGCCTTCAG CAGCTCCATA 
    GAAAAAGATG TGACTCCAGA TAAAAATCTA CTGCCCAAAG TGCACGATGC TGCCCTGTGG 
    CTGGAGACCT TGTCAGACAC CAAACCTGCC AAGCCTTCCC CCTCCACCAC CTCCACCATT 
    GCTGACTTCT TCCTTGCCCT AACCATCTGC AACTCTGTCA TGGTCTCCAC AACCACAGAG 
    CCCAGGCAGA GGGTCACCAT GCCACCCTCA ACCAAGGCTG TGGGGACGTC CCTGGAGAAG 
    ATTCAGCAGC TCTTCCACAA ATTGAAGCTT TTGAACCTCA GCCAGTCATT CTCATCTACT 
    GCGCCCTCTG ACACTGACCT GGGGGACAGT TTGGGGGCCA ACATGCCTAA CACAGACTCA 
    GAAGAGAGAG ATGATGCATC TGTGTACAGT GGAGGCTACT CTACAGATGG TGGCTATAGG 
    AGCAGCACAT GGGACCAGGG TGACATCCAG GGGTCTGGAT TGGATGCTTC CTTGGAGGAG 
    GTGCTGGAGG CCCCAGCTCT GGGCCTTGCC AGCCCTGAGC TCTATTATGA GGCTGAGAGC 
    CCTGATGAGG CAGCCCTGGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AGGTGACCGT GCGCTTGCCC CAGGGCACCT GCCTCACCTT TGACATCCTC 
    TGCACCCTGG GCTTTGACTC TGTCAGGAAA AGAATGTCCG TGGTTGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA CACCAAGGGC GCAGATTCGG TTATCATGGA CCTGCTGGAA 
    GACCCAGCGT GTGTAACTGA CATGGATGTG GAAAAGAAGG TGAGAAAAAT CCGAGCCAGG 
    ACCCAGAAGC ACCTAGACTT GTATGCAAGA GATGGCCTTC GAACACTGTG CATCGCCAAG 
    AAGGTCATAA CTGAAGATGA CTTCCGTCGA TGGGCCAGTT CCCGGTGTGA GGCAGAGGCA 
    TCCCTTGACA ACCGAGACGA GCTGCTAATG GAGACCACAC AGCATCTGGA GAATCAACTC 
    ACCTTACTCG GAGCCACTGG GATCGAAGAC CGGCTACAAG AAGGGGTTCC AGACACAATC 
    GCTGCTCTGC AGGAGGCTGG GATCCAACTC TGGGTCTTGA CTGGAGATAA GCAGGAGACA 
    GCAATCAATA TCGCCTATTC CTGCGGATTG TTAGATCAGA CTGACACTGT TTACTCCATT 
    AATACAGAAA GTCAGGAAAC TTGCGAATCC ATCCTCAACT GTGCACTGGA AGAAGTAAAG 
    CAATTTCATG GACCACAGAA GCCAGACCGC AAGCTCTTCG GGTTCTGTTT ACCTTCTGAG 
    ATGCTACCCC CCACATCAAG AGCTGCAGTT CCAGACGTTG GACTGGTCAT CAATGGGAAG 
    ACATTGAATG CCATTTTTCA GGGAGAACTG GAGATGAAAT TTTTGGAGTT GACTCAGTAC 
    TGCCGGTCTG TCCTATGCTG CCGTTCCACC CCGCTCCAGA AGAGTATGAT AGTGAAGCTG 
    GTGCGAGACA AGTTGAGCGT CATGACCCTT TCCATAGGTG ATGGAGCAAA TGACGTAAGC 
    ATGATTCAAG CTGCTGACAT TGGAATTGGG ATATCTGGAC AGGAAGGCAT GCAGGCTGTT 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AAACACCTCA AGAAGCTGCT GCTTGTACAT 
    GGCCACTGGT GTTACTCGCG CCTGGCCAGG ATGGTGGTGT ACTACTTCTA CAAGAATGTG 
    TGCTACGTCA ACCTGCTCTT CTGGTACCAG TTTTTCTGTG GTTTCTCTGG TTCCACCATG 
    ATCGATTATT GGCAGATGAT ATTCTTCAAT CTCTTCTTCA CCTCCTTGCC TCCTCTCATT 
    TTCGGAATCC TCGATAAAGA CATCTCTGCA GAAACACTCC TGGCATTGCC TGAGCTGTAC 
    AAGAGTGGCC AGAACTCTGA GTGCTACAAC CCAATGACTT TCTGGATTTC CATAGTGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTC ATTCCTTACC TGACCTACAA AGATTCTGAT 
    ATTGACGTTT TTACATTTGG GACACCCATC AATACCATCT CCCTCACCAC AATCCTCTTG 
    CACCAGGCAA TGGAAATGAA GACCTGGACC ATGATCCATG GGCTTGTTCT CGTAGGCAGC 
    TTCCTGATGT ACTTTGTGGT ATCCCTTGTT TACAACGCCA CCTGTGTCAA CTGCAACAGT 
    CCCACTAATC CCTACTGGGT GATGGAAGGC CAGCTCTCTG ACCCCACTTT CTACCTCGTC 
    TGTTTCCTCA CACCAGTCAT GGCTCTTCTC CCAAGGTACT TTTTCCTATC TCTACAAGGC 
    ACTTACGGGA AGTCTCTGAT CTTAAAAGCT CAGAAAATCG ACAAACTGCC CACAGACAAA 
    AAGGACCTAG AAATGCAGAG TTCGAGAAGC AGACAGAGAT CTGTCCCTAT TCCCAGAGAG 
    GCTCAGCGCA CCCACCATCC AGTGCCACCT GTCCCAGAAC GAGACTTCAG AGCCAGCACC 
    CCAAAGAGTT CTAGACCTCC CAAGCAGAAG TGCAAGGAGG ACTGGGTGCT GCATGGAGAG 
    AAATGCAGCA GAGACCATCT GAAGGATCAC CCATGCCCAG GGGCCTCCTC AGCTAAACTC 
    CCATCCAGGG AATACCCTCT TCTGGGGCCT AGTAGGACAA TGGCTTTGGG AGCCTACTCA 
    AGTGGACAGA TTGATGAGTA CAGGCCCTCA AGCAGGGGCA GTCATCGCCG ATCCCAGAGT 
    TCACTAACTA TATGA

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

    RefSeq XP_011217806.1
    CDS208..4602
    Translation

    Target ORF information:

    RefSeq Version XM_011219504.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011219504.2

    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
    ATGGCCCTGT CTGTGGACTC ATCTTGGCAC CGGTGGCAGT GTCGAGTCAG AGATGGCCTC 
    TCCCAGTCTC CATCAGAAGC CACACCACTG TTGTCCCGAG ACAAAAGGAG GCAAAGCTAC 
    AACCTGACAC AGCAGCGGGT CGTGTTTCCT AACAACAGCA TGTGCCACCA TGATTGGGCA 
    GAGGTCTCCA GGAAATACTC CGGCAACAGA ATCTGCACGA CCAAATACAC CTTCCTCACC 
    TTCCTGCCTC AGAACCTCTT TGAGCAGTTT CATAGGTGGG CTAACCTCTA TTTTCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTTTTCC ACAAAGAAAT CACCATGTTA 
    CCATTGGCCA TCGTGCTGTT CATCATCATG GTCAAGGATG GCATGGAGGA CTTCAAGAGA 
    CATCGTTTTG ATAGAGAGAT CAACTGTTCC AACATCTGGA TATATGAAAG AAAAGAGCGG 
    AGCTACGTGC AGAAGTGCTG GAAGGATGTT CGTGTGGGAG ACTTCATCCA AATGAAATGC 
    AACGAGATCA TCCCAGCCGA CATACTCCTC CTCTTCTCCT CAGACCCCAG TGGGATCTGC 
    CACCTGGAAA CTGCCAACCT GGATGGAGAG ACAAACCTCA AACAAAGACG TGTCGTGAAG 
    GGCTTCTCAC AGCAGGACGT ACAGTTTGAA CCCGAAGGCT TCTGCAATAC CATCGTGTGT 
    GAGAGACCCA ACAACCACCT CAACAAATTT AAGGGTTATA TGGAGCATCC TGACCAGACG 
    AGGACTGGCT TTGGCAGTGA GAGCCTTCTG CTTCGAGGCT GCACCATCAG AAACACCGAG 
    GTGGCTGTTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAAT 
    GGCCCACGGT ATAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATTGGACTCC TCCTCCTCAT GTGTCTCATT GGAGCTATAG GTCACCGCCT CTGGAATGGG 
    ACCTTTGAAG AACACCCTCC CTTTGATGTG CCAGATGCCA AGGGCAGCTT CCTTCCCCTT 
    GCCCTTGGAG GCTTCTACAT GTTCCTTACA ATGATCATCC TGCTCCAGGT GCTGATCCCA 
    GTCTCCCTCT ATGTGTCCAT TGAGCTGGTG AAGCTTGGGC AAGTCTTCTT CCTGCATAAT 
    GACCTTGACC TGTATGATGA AGAGACCGAT TTGCCCATTC AGTGTCGAGC CCTCAACATC 
    ACTGAGGACT TGGGCCAGAT CCAGTATGTC TTCTCTGACA AGACGGGGAC ACTGACTGAG 
    AACAAGATGG TCTTTCGGCG TTGCACTATC ATGGGCAGCG AGTATTCTCA CCAAGAAAAT 
    GCCAAGCGAC TGGAGACTCC AAGGGAGCTT GACTCAGACA GTGAAGAGTG GACCCAGTAC 
    CAGTGCCTGT CCTTCCCAGC CCGATGGGTT CAGGGCCCAG CAACACTGAG AGGCCAAGGA 
    TGGGCCCAGC CTCTGAGGAG ATGCCACAGT GCCCAGGTAC CAATCCAGGG CCACTCCCGA 
    CAAAGGTCTG TGGGACGCTA TGAAAGCTCA CAGCCTCCTG TGGCCTTCAG CAGCTCCATA 
    GAAAAAGATG TGACTCCAGA TAAAAATCTA CTGCCCAAAG TGCACGATGC TGCCCTGTGG 
    CTGGAGACCT TGTCAGACAC CAAACCTGCC AAGCCTTCCC CCTCCACCAC CTCCACCATT 
    GCTGACTTCT TCCTTGCCCT AACCATCTGC AACTCTGTCA TGGTCTCCAC AACCACAGAG 
    CCCAGGCAGA GGGTCACCAT GCCACCCTCA ACCAAGGCTG TGGGGACGTC CCTGGAGAAG 
    ATTCAGCAGC TCTTCCACAA ATTGAAGCTT TTGAACCTCA GCCAGTCATT CTCATCTACT 
    GCGCCCTCTG ACACTGACCT GGGGGACAGT TTGGGGGCCA ACATGCCTAA CACAGACTCA 
    GAAGAGAGAG ATGATGCATC TGTGTACAGT GGAGGCTACT CTACAGATGG TGGCTATAGG 
    AGCAGCACAT GGGACCAGGG TGACATCCAG GGGTCTGGAT TGGATGCTTC CTTGGAGGAG 
    GTGCTGGAGG CCCCAGCTCT GGGCCTTGCC AGCCCTGAGC TCTATTATGA GGCTGAGAGC 
    CCTGATGAGG CAGCCCTGGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AGGTGACCGT GCGCTTGCCC CAGGGCACCT GCCTCACCTT TGACATCCTC 
    TGCACCCTGG GCTTTGACTC TGTCAGGAAA AGAATGTCCG TGGTTGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA CACCAAGGGC GCAGATTCGG TTATCATGGA CCTGCTGGAA 
    GACCCAGCGT GTGTAACTGA CATGGATGTG GAAAAGAAGG TGAGAAAAAT CCGAGCCAGG 
    ACCCAGAAGC ACCTAGACTT GTATGCAAGA GATGGCCTTC GAACACTGTG CATCGCCAAG 
    AAGGTCATAA CTGAAGATGA CTTCCGTCGA TGGGCCAGTT CCCGGTGTGA GGCAGAGGCA 
    TCCCTTGACA ACCGAGACGA GCTGCTAATG GAGACCACAC AGCATCTGGA GAATCAACTC 
    ACCTTACTCG GAGCCACTGG GATCGAAGAC CGGCTACAAG AAGGGGTTCC AGACACAATC 
    GCTGCTCTGC AGGAGGCTGG GATCCAACTC TGGGTCTTGA CTGGAGATAA GCAGGAGACA 
    GCAATCAATA TCGCCTATTC CTGCGGATTG TTAGATCAGA CTGACACTGT TTACTCCATT 
    AATACAGAAA GTCAGGAAAC TTGCGAATCC ATCCTCAACT GTGCACTGGA AGAAGTAAAG 
    CAATTTCATG GACCACAGAA GCCAGACCGC AAGCTCTTCG GGTTCTGTTT ACCTTCTGAG 
    ATGCTACCCC CCACATCAAG AGCTGCAGTT CCAGACGTTG GACTGGTCAT CAATGGGAAG 
    ACATTGAATG CCATTTTTCA GGGAGAACTG GAGATGAAAT TTTTGGAGTT GACTCAGTAC 
    TGCCGGTCTG TCCTATGCTG CCGTTCCACC CCGCTCCAGA AGAGTATGAT AGTGAAGCTG 
    GTGCGAGACA AGTTGAGCGT CATGACCCTT TCCATAGGTG ATGGAGCAAA TGACGTAAGC 
    ATGATTCAAG CTGCTGACAT TGGAATTGGG ATATCTGGAC AGGAAGGCAT GCAGGCTGTT 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AAACACCTCA AGAAGCTGCT GCTTGTACAT 
    GGCCACTGGT GTTACTCGCG CCTGGCCAGG ATGGTGGTGT ACTACTTCTA CAAGAATGTG 
    TGCTACGTCA ACCTGCTCTT CTGGTACCAG TTTTTCTGTG GTTTCTCTGG TTCCACCATG 
    ATCGATTATT GGCAGATGAT ATTCTTCAAT CTCTTCTTCA CCTCCTTGCC TCCTCTCATT 
    TTCGGAATCC TCGATAAAGA CATCTCTGCA GAAACACTCC TGGCATTGCC TGAGCTGTAC 
    AAGAGTGGCC AGAACTCTGA GTGCTACAAC CCAATGACTT TCTGGATTTC CATAGTGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTC ATTCCTTACC TGACCTACAA AGATTCTGAT 
    ATTGACGTTT TTACATTTGG GACACCCATC AATACCATCT CCCTCACCAC AATCCTCTTG 
    CACCAGGCAA TGGAAATGAA GACCTGGACC ATGATCCATG GGCTTGTTCT CGTAGGCAGC 
    TTCCTGATGT ACTTTGTGGT ATCCCTTGTT TACAACGCCA CCTGTGTCAA CTGCAACAGT 
    CCCACTAATC CCTACTGGGT GATGGAAGGC CAGCTCTCTG ACCCCACTTT CTACCTCGTC 
    TGTTTCCTCA CACCAGTCAT GGCTCTTCTC CCAAGGTACT TTTTCCTATC TCTACAAGGC 
    ACTTACGGGA AGTCTCTGAT CTTAAAAGCT CAGAAAATCG ACAAACTGCC CACAGACAAA 
    AAGGACCTAG AAATGCAGAG TTCGAGAAGC AGACAGAGAT CTGTCCCTAT TCCCAGAGAG 
    GCTCAGCGCA CCCACCATCC AGTGCCACCT GTCCCAGAAC GAGACTTCAG AGCCAGCACC 
    CCAAAGAGTT CTAGACCTCC CAAGCAGAAG TGCAAGGAGG ACTGGGTGCT GCATGGAGAG 
    AAATGCAGCA GAGACCATCT GAAGGATCAC CCATGCCCAG GGGCCTCCTC AGCTAAACTC 
    CCATCCAGGG AATACCCTCT TCTGGGGCCT AGTAGGACAA TGGCTTTGGG AGCCTACTCA 
    AGTGGACAGA TTGATGAGTA CAGGCCCTCA AGCAGGGGCA GTCATCGCCG ATCCCAGAGT 
    TCACTAACTA TATGA

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

    ATP10B ( XM_019795040.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019650599.1 Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAc32562
    Clone ID Related Accession (Same CDS sequence) XM_011219504.2 , XM_019795040.1
    Accession Version XM_019795040.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 probable phospholipid-transporting ATPase VB isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217293.1) 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
    ATGGCCCTGT CTGTGGACTC ATCTTGGCAC CGGTGGCAGT GTCGAGTCAG AGATGGCCTC 
    TCCCAGTCTC CATCAGAAGC CACACCACTG TTGTCCCGAG ACAAAAGGAG GCAAAGCTAC 
    AACCTGACAC AGCAGCGGGT CGTGTTTCCT AACAACAGCA TGTGCCACCA TGATTGGGCA 
    GAGGTCTCCA GGAAATACTC CGGCAACAGA ATCTGCACGA CCAAATACAC CTTCCTCACC 
    TTCCTGCCTC AGAACCTCTT TGAGCAGTTT CATAGGTGGG CTAACCTCTA TTTTCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTTTTCC ACAAAGAAAT CACCATGTTA 
    CCATTGGCCA TCGTGCTGTT CATCATCATG GTCAAGGATG GCATGGAGGA CTTCAAGAGA 
    CATCGTTTTG ATAGAGAGAT CAACTGTTCC AACATCTGGA TATATGAAAG AAAAGAGCGG 
    AGCTACGTGC AGAAGTGCTG GAAGGATGTT CGTGTGGGAG ACTTCATCCA AATGAAATGC 
    AACGAGATCA TCCCAGCCGA CATACTCCTC CTCTTCTCCT CAGACCCCAG TGGGATCTGC 
    CACCTGGAAA CTGCCAACCT GGATGGAGAG ACAAACCTCA AACAAAGACG TGTCGTGAAG 
    GGCTTCTCAC AGCAGGACGT ACAGTTTGAA CCCGAAGGCT TCTGCAATAC CATCGTGTGT 
    GAGAGACCCA ACAACCACCT CAACAAATTT AAGGGTTATA TGGAGCATCC TGACCAGACG 
    AGGACTGGCT TTGGCAGTGA GAGCCTTCTG CTTCGAGGCT GCACCATCAG AAACACCGAG 
    GTGGCTGTTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAAT 
    GGCCCACGGT ATAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATTGGACTCC TCCTCCTCAT GTGTCTCATT GGAGCTATAG GTCACCGCCT CTGGAATGGG 
    ACCTTTGAAG AACACCCTCC CTTTGATGTG CCAGATGCCA AGGGCAGCTT CCTTCCCCTT 
    GCCCTTGGAG GCTTCTACAT GTTCCTTACA ATGATCATCC TGCTCCAGGT GCTGATCCCA 
    GTCTCCCTCT ATGTGTCCAT TGAGCTGGTG AAGCTTGGGC AAGTCTTCTT CCTGCATAAT 
    GACCTTGACC TGTATGATGA AGAGACCGAT TTGCCCATTC AGTGTCGAGC CCTCAACATC 
    ACTGAGGACT TGGGCCAGAT CCAGTATGTC TTCTCTGACA AGACGGGGAC ACTGACTGAG 
    AACAAGATGG TCTTTCGGCG TTGCACTATC ATGGGCAGCG AGTATTCTCA CCAAGAAAAT 
    GCCAAGCGAC TGGAGACTCC AAGGGAGCTT GACTCAGACA GTGAAGAGTG GACCCAGTAC 
    CAGTGCCTGT CCTTCCCAGC CCGATGGGTT CAGGGCCCAG CAACACTGAG AGGCCAAGGA 
    TGGGCCCAGC CTCTGAGGAG ATGCCACAGT GCCCAGGTAC CAATCCAGGG CCACTCCCGA 
    CAAAGGTCTG TGGGACGCTA TGAAAGCTCA CAGCCTCCTG TGGCCTTCAG CAGCTCCATA 
    GAAAAAGATG TGACTCCAGA TAAAAATCTA CTGCCCAAAG TGCACGATGC TGCCCTGTGG 
    CTGGAGACCT TGTCAGACAC CAAACCTGCC AAGCCTTCCC CCTCCACCAC CTCCACCATT 
    GCTGACTTCT TCCTTGCCCT AACCATCTGC AACTCTGTCA TGGTCTCCAC AACCACAGAG 
    CCCAGGCAGA GGGTCACCAT GCCACCCTCA ACCAAGGCTG TGGGGACGTC CCTGGAGAAG 
    ATTCAGCAGC TCTTCCACAA ATTGAAGCTT TTGAACCTCA GCCAGTCATT CTCATCTACT 
    GCGCCCTCTG ACACTGACCT GGGGGACAGT TTGGGGGCCA ACATGCCTAA CACAGACTCA 
    GAAGAGAGAG ATGATGCATC TGTGTACAGT GGAGGCTACT CTACAGATGG TGGCTATAGG 
    AGCAGCACAT GGGACCAGGG TGACATCCAG GGGTCTGGAT TGGATGCTTC CTTGGAGGAG 
    GTGCTGGAGG CCCCAGCTCT GGGCCTTGCC AGCCCTGAGC TCTATTATGA GGCTGAGAGC 
    CCTGATGAGG CAGCCCTGGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AGGTGACCGT GCGCTTGCCC CAGGGCACCT GCCTCACCTT TGACATCCTC 
    TGCACCCTGG GCTTTGACTC TGTCAGGAAA AGAATGTCCG TGGTTGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA CACCAAGGGC GCAGATTCGG TTATCATGGA CCTGCTGGAA 
    GACCCAGCGT GTGTAACTGA CATGGATGTG GAAAAGAAGG TGAGAAAAAT CCGAGCCAGG 
    ACCCAGAAGC ACCTAGACTT GTATGCAAGA GATGGCCTTC GAACACTGTG CATCGCCAAG 
    AAGGTCATAA CTGAAGATGA CTTCCGTCGA TGGGCCAGTT CCCGGTGTGA GGCAGAGGCA 
    TCCCTTGACA ACCGAGACGA GCTGCTAATG GAGACCACAC AGCATCTGGA GAATCAACTC 
    ACCTTACTCG GAGCCACTGG GATCGAAGAC CGGCTACAAG AAGGGGTTCC AGACACAATC 
    GCTGCTCTGC AGGAGGCTGG GATCCAACTC TGGGTCTTGA CTGGAGATAA GCAGGAGACA 
    GCAATCAATA TCGCCTATTC CTGCGGATTG TTAGATCAGA CTGACACTGT TTACTCCATT 
    AATACAGAAA GTCAGGAAAC TTGCGAATCC ATCCTCAACT GTGCACTGGA AGAAGTAAAG 
    CAATTTCATG GACCACAGAA GCCAGACCGC AAGCTCTTCG GGTTCTGTTT ACCTTCTGAG 
    ATGCTACCCC CCACATCAAG AGCTGCAGTT CCAGACGTTG GACTGGTCAT CAATGGGAAG 
    ACATTGAATG CCATTTTTCA GGGAGAACTG GAGATGAAAT TTTTGGAGTT GACTCAGTAC 
    TGCCGGTCTG TCCTATGCTG CCGTTCCACC CCGCTCCAGA AGAGTATGAT AGTGAAGCTG 
    GTGCGAGACA AGTTGAGCGT CATGACCCTT TCCATAGGTG ATGGAGCAAA TGACGTAAGC 
    ATGATTCAAG CTGCTGACAT TGGAATTGGG ATATCTGGAC AGGAAGGCAT GCAGGCTGTT 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AAACACCTCA AGAAGCTGCT GCTTGTACAT 
    GGCCACTGGT GTTACTCGCG CCTGGCCAGG ATGGTGGTGT ACTACTTCTA CAAGAATGTG 
    TGCTACGTCA ACCTGCTCTT CTGGTACCAG TTTTTCTGTG GTTTCTCTGG TTCCACCATG 
    ATCGATTATT GGCAGATGAT ATTCTTCAAT CTCTTCTTCA CCTCCTTGCC TCCTCTCATT 
    TTCGGAATCC TCGATAAAGA CATCTCTGCA GAAACACTCC TGGCATTGCC TGAGCTGTAC 
    AAGAGTGGCC AGAACTCTGA GTGCTACAAC CCAATGACTT TCTGGATTTC CATAGTGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTC ATTCCTTACC TGACCTACAA AGATTCTGAT 
    ATTGACGTTT TTACATTTGG GACACCCATC AATACCATCT CCCTCACCAC AATCCTCTTG 
    CACCAGGCAA TGGAAATGAA GACCTGGACC ATGATCCATG GGCTTGTTCT CGTAGGCAGC 
    TTCCTGATGT ACTTTGTGGT ATCCCTTGTT TACAACGCCA CCTGTGTCAA CTGCAACAGT 
    CCCACTAATC CCTACTGGGT GATGGAAGGC CAGCTCTCTG ACCCCACTTT CTACCTCGTC 
    TGTTTCCTCA CACCAGTCAT GGCTCTTCTC CCAAGGTACT TTTTCCTATC TCTACAAGGC 
    ACTTACGGGA AGTCTCTGAT CTTAAAAGCT CAGAAAATCG ACAAACTGCC CACAGACAAA 
    AAGGACCTAG AAATGCAGAG TTCGAGAAGC AGACAGAGAT CTGTCCCTAT TCCCAGAGAG 
    GCTCAGCGCA CCCACCATCC AGTGCCACCT GTCCCAGAAC GAGACTTCAG AGCCAGCACC 
    CCAAAGAGTT CTAGACCTCC CAAGCAGAAG TGCAAGGAGG ACTGGGTGCT GCATGGAGAG 
    AAATGCAGCA GAGACCATCT GAAGGATCAC CCATGCCCAG GGGCCTCCTC AGCTAAACTC 
    CCATCCAGGG AATACCCTCT TCTGGGGCCT AGTAGGACAA TGGCTTTGGG AGCCTACTCA 
    AGTGGACAGA TTGATGAGTA CAGGCCCTCA AGCAGGGGCA GTCATCGCCG ATCCCAGAGT 
    TCACTAACTA TATGA

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

    RefSeq XP_019650599.1
    CDS183..4577
    Translation

    Target ORF information:

    RefSeq Version XM_019795040.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019795040.1

    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
    ATGGCCCTGT CTGTGGACTC ATCTTGGCAC CGGTGGCAGT GTCGAGTCAG AGATGGCCTC 
    TCCCAGTCTC CATCAGAAGC CACACCACTG TTGTCCCGAG ACAAAAGGAG GCAAAGCTAC 
    AACCTGACAC AGCAGCGGGT CGTGTTTCCT AACAACAGCA TGTGCCACCA TGATTGGGCA 
    GAGGTCTCCA GGAAATACTC CGGCAACAGA ATCTGCACGA CCAAATACAC CTTCCTCACC 
    TTCCTGCCTC AGAACCTCTT TGAGCAGTTT CATAGGTGGG CTAACCTCTA TTTTCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTTTTCC ACAAAGAAAT CACCATGTTA 
    CCATTGGCCA TCGTGCTGTT CATCATCATG GTCAAGGATG GCATGGAGGA CTTCAAGAGA 
    CATCGTTTTG ATAGAGAGAT CAACTGTTCC AACATCTGGA TATATGAAAG AAAAGAGCGG 
    AGCTACGTGC AGAAGTGCTG GAAGGATGTT CGTGTGGGAG ACTTCATCCA AATGAAATGC 
    AACGAGATCA TCCCAGCCGA CATACTCCTC CTCTTCTCCT CAGACCCCAG TGGGATCTGC 
    CACCTGGAAA CTGCCAACCT GGATGGAGAG ACAAACCTCA AACAAAGACG TGTCGTGAAG 
    GGCTTCTCAC AGCAGGACGT ACAGTTTGAA CCCGAAGGCT TCTGCAATAC CATCGTGTGT 
    GAGAGACCCA ACAACCACCT CAACAAATTT AAGGGTTATA TGGAGCATCC TGACCAGACG 
    AGGACTGGCT TTGGCAGTGA GAGCCTTCTG CTTCGAGGCT GCACCATCAG AAACACCGAG 
    GTGGCTGTTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAAT 
    GGCCCACGGT ATAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATTGGACTCC TCCTCCTCAT GTGTCTCATT GGAGCTATAG GTCACCGCCT CTGGAATGGG 
    ACCTTTGAAG AACACCCTCC CTTTGATGTG CCAGATGCCA AGGGCAGCTT CCTTCCCCTT 
    GCCCTTGGAG GCTTCTACAT GTTCCTTACA ATGATCATCC TGCTCCAGGT GCTGATCCCA 
    GTCTCCCTCT ATGTGTCCAT TGAGCTGGTG AAGCTTGGGC AAGTCTTCTT CCTGCATAAT 
    GACCTTGACC TGTATGATGA AGAGACCGAT TTGCCCATTC AGTGTCGAGC CCTCAACATC 
    ACTGAGGACT TGGGCCAGAT CCAGTATGTC TTCTCTGACA AGACGGGGAC ACTGACTGAG 
    AACAAGATGG TCTTTCGGCG TTGCACTATC ATGGGCAGCG AGTATTCTCA CCAAGAAAAT 
    GCCAAGCGAC TGGAGACTCC AAGGGAGCTT GACTCAGACA GTGAAGAGTG GACCCAGTAC 
    CAGTGCCTGT CCTTCCCAGC CCGATGGGTT CAGGGCCCAG CAACACTGAG AGGCCAAGGA 
    TGGGCCCAGC CTCTGAGGAG ATGCCACAGT GCCCAGGTAC CAATCCAGGG CCACTCCCGA 
    CAAAGGTCTG TGGGACGCTA TGAAAGCTCA CAGCCTCCTG TGGCCTTCAG CAGCTCCATA 
    GAAAAAGATG TGACTCCAGA TAAAAATCTA CTGCCCAAAG TGCACGATGC TGCCCTGTGG 
    CTGGAGACCT TGTCAGACAC CAAACCTGCC AAGCCTTCCC CCTCCACCAC CTCCACCATT 
    GCTGACTTCT TCCTTGCCCT AACCATCTGC AACTCTGTCA TGGTCTCCAC AACCACAGAG 
    CCCAGGCAGA GGGTCACCAT GCCACCCTCA ACCAAGGCTG TGGGGACGTC CCTGGAGAAG 
    ATTCAGCAGC TCTTCCACAA ATTGAAGCTT TTGAACCTCA GCCAGTCATT CTCATCTACT 
    GCGCCCTCTG ACACTGACCT GGGGGACAGT TTGGGGGCCA ACATGCCTAA CACAGACTCA 
    GAAGAGAGAG ATGATGCATC TGTGTACAGT GGAGGCTACT CTACAGATGG TGGCTATAGG 
    AGCAGCACAT GGGACCAGGG TGACATCCAG GGGTCTGGAT TGGATGCTTC CTTGGAGGAG 
    GTGCTGGAGG CCCCAGCTCT GGGCCTTGCC AGCCCTGAGC TCTATTATGA GGCTGAGAGC 
    CCTGATGAGG CAGCCCTGGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AGGTGACCGT GCGCTTGCCC CAGGGCACCT GCCTCACCTT TGACATCCTC 
    TGCACCCTGG GCTTTGACTC TGTCAGGAAA AGAATGTCCG TGGTTGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA CACCAAGGGC GCAGATTCGG TTATCATGGA CCTGCTGGAA 
    GACCCAGCGT GTGTAACTGA CATGGATGTG GAAAAGAAGG TGAGAAAAAT CCGAGCCAGG 
    ACCCAGAAGC ACCTAGACTT GTATGCAAGA GATGGCCTTC GAACACTGTG CATCGCCAAG 
    AAGGTCATAA CTGAAGATGA CTTCCGTCGA TGGGCCAGTT CCCGGTGTGA GGCAGAGGCA 
    TCCCTTGACA ACCGAGACGA GCTGCTAATG GAGACCACAC AGCATCTGGA GAATCAACTC 
    ACCTTACTCG GAGCCACTGG GATCGAAGAC CGGCTACAAG AAGGGGTTCC AGACACAATC 
    GCTGCTCTGC AGGAGGCTGG GATCCAACTC TGGGTCTTGA CTGGAGATAA GCAGGAGACA 
    GCAATCAATA TCGCCTATTC CTGCGGATTG TTAGATCAGA CTGACACTGT TTACTCCATT 
    AATACAGAAA GTCAGGAAAC TTGCGAATCC ATCCTCAACT GTGCACTGGA AGAAGTAAAG 
    CAATTTCATG GACCACAGAA GCCAGACCGC AAGCTCTTCG GGTTCTGTTT ACCTTCTGAG 
    ATGCTACCCC CCACATCAAG AGCTGCAGTT CCAGACGTTG GACTGGTCAT CAATGGGAAG 
    ACATTGAATG CCATTTTTCA GGGAGAACTG GAGATGAAAT TTTTGGAGTT GACTCAGTAC 
    TGCCGGTCTG TCCTATGCTG CCGTTCCACC CCGCTCCAGA AGAGTATGAT AGTGAAGCTG 
    GTGCGAGACA AGTTGAGCGT CATGACCCTT TCCATAGGTG ATGGAGCAAA TGACGTAAGC 
    ATGATTCAAG CTGCTGACAT TGGAATTGGG ATATCTGGAC AGGAAGGCAT GCAGGCTGTT 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AAACACCTCA AGAAGCTGCT GCTTGTACAT 
    GGCCACTGGT GTTACTCGCG CCTGGCCAGG ATGGTGGTGT ACTACTTCTA CAAGAATGTG 
    TGCTACGTCA ACCTGCTCTT CTGGTACCAG TTTTTCTGTG GTTTCTCTGG TTCCACCATG 
    ATCGATTATT GGCAGATGAT ATTCTTCAAT CTCTTCTTCA CCTCCTTGCC TCCTCTCATT 
    TTCGGAATCC TCGATAAAGA CATCTCTGCA GAAACACTCC TGGCATTGCC TGAGCTGTAC 
    AAGAGTGGCC AGAACTCTGA GTGCTACAAC CCAATGACTT TCTGGATTTC CATAGTGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTC ATTCCTTACC TGACCTACAA AGATTCTGAT 
    ATTGACGTTT TTACATTTGG GACACCCATC AATACCATCT CCCTCACCAC AATCCTCTTG 
    CACCAGGCAA TGGAAATGAA GACCTGGACC ATGATCCATG GGCTTGTTCT CGTAGGCAGC 
    TTCCTGATGT ACTTTGTGGT ATCCCTTGTT TACAACGCCA CCTGTGTCAA CTGCAACAGT 
    CCCACTAATC CCTACTGGGT GATGGAAGGC CAGCTCTCTG ACCCCACTTT CTACCTCGTC 
    TGTTTCCTCA CACCAGTCAT GGCTCTTCTC CCAAGGTACT TTTTCCTATC TCTACAAGGC 
    ACTTACGGGA AGTCTCTGAT CTTAAAAGCT CAGAAAATCG ACAAACTGCC CACAGACAAA 
    AAGGACCTAG AAATGCAGAG TTCGAGAAGC AGACAGAGAT CTGTCCCTAT TCCCAGAGAG 
    GCTCAGCGCA CCCACCATCC AGTGCCACCT GTCCCAGAAC GAGACTTCAG AGCCAGCACC 
    CCAAAGAGTT CTAGACCTCC CAAGCAGAAG TGCAAGGAGG ACTGGGTGCT GCATGGAGAG 
    AAATGCAGCA GAGACCATCT GAAGGATCAC CCATGCCCAG GGGCCTCCTC AGCTAAACTC 
    CCATCCAGGG AATACCCTCT TCTGGGGCCT AGTAGGACAA TGGCTTTGGG AGCCTACTCA 
    AGTGGACAGA TTGATGAGTA CAGGCCCTCA AGCAGGGGCA GTCATCGCCG ATCCCAGAGT 
    TCACTAACTA TATGA

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

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