ORF » Species Summary » Calidris pugnax » MALRD1 cDNA ORF clone

MALRD1 cDNA ORF clone, Calidris pugnax(ruff)

The following MALRD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MALRD1 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
OCa58587 XM_014945933.1
Latest version!		 Calidris pugnax MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1161.30
$1659.00

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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)
    MALRD1 ( XM_014945933.1 ) cDNA ORF clone, Calidris pugnax(ruff) -> XP_014801419.1 Calidris pugnax MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA.
    Price & Availability↑
    CloneID OCa58587
    Clone ID Related Accession (Same CDS sequence) XM_014945933.1
    Accession Version XM_014945933.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6567bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product MAM and LDL-receptor class A domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090775.1) 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 :: Calidris pugnax Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGAACAAAC TCCTATATTT CTGTGTGTTA TGTTGCTTTG CTTTGGTAGA TTCTTGGCCA 
    TCTACAGGAA GTGAATGCCA GCGCGGTGAT GGCTCCTCTG CTCCACCTGG GGAATCTTGT 
    ATTTTTGCCA GCCAGTGTGG AGGCAGCAGT GATGAGAAAC AAGGTTCGTC CTGTGAAAAG 
    TGTGATTTTG AAACTGACCA ATGCAAAGCT CTTCATGAAC TGAATTTACA GCCTGGATGG 
    ATACAAAGAA ATGGTCGATC TGGCTTGGGA CCACCGTACT CTGACCACAG TGGAAATGAC 
    AGTGCTTATT TCCTCTCATT GTCCTCTGAA ATGCGATCCT CTTCTGCAAC TTTAAGGACC 
    AATGTTTTCC TTCCAACTGA TGAAGAACAC ATTTGTCAGA TTACATTTCA TTATTGGATC 
    AGTCATGTGA GTGGCACATT GATGGTGGGG CTCCAAAAGT CCTCTGAAGA TACTATTACA 
    AACATCTGGC AAGATTCAGG AGAACTGCAA AATCAGTGGA AATCAAAGAC CATCATAATC 
    AATAGCACTG AAAAATATGA GGTTGTCTTT CGGGGGATGG TGGAGACCCA GAGACAAGAT 
    CAAACTGTTG CCATTGATGA TATTACTTTC AGTGAAGGAT GCTCTCTGGC AAGTGCACCA 
    CAGGCTTCCA GTTTTGAGCT TGGAGTGTGT GAGTGGCATT CAGATCAACC AGCTGAGCCT 
    GATGCGCTGG CACGACTGCA GGCTGGGCAC AAGATTGCCA CCTGTTCCTT CCTAAATGAT 
    CCGAGCAACA ACACTGAAGG ATGCTATGTA TGGTTAGAAG CTAATGTCAA TGCATTATAC 
    AGAAGTGCTT ATCTTAACAA TTCGGTGTGT CGTTGCTCCA GCAAGAACTG CCACTTCCAG 
    TTTCATTACT GGACGGCAGA TAGCAGCGTT CTCAAGGCGG TACTGTTTAA TAATCAGGAG 
    GAACATGTCT TATGGGAAAC CAACATCATG ACTAAGAAGG AATGGGTCAA AGTGGATATA 
    CAGCTACCGA CACAGCTAGA AGAATTAAAG CTCATGTTTA AAGGAACACT GGAAAGCAGA 
    GCGAGTTCTG TATGTTTGAA TAGCATCCAG CTCTTGGATG CTACACCATC GGAGCCAGCA 
    GGTTTCTGCT CCACAGAAGA ATCCACCTGC ACTGCTGGGC ACTCCATGGA GCCTGGATCA 
    GCCTGTGATT GTTCTGACGG TAGCGATGAA GATCTAGCAG CCTGCTCTAA TTACACTATG 
    TGTGATTTCG AGACTGACCT CTGTGGATGG AAGCCCCTAA GCCGAGCTGA CGCTGACTGG 
    AACATAATGA AGGAACAGGC TCCCCTCAAA AAGAGACTCC CTGGCAGAGC TCATACAACT 
    AATAGTGGAC ATGGAGCATT CCTTTACTTC AGTGGCTCAC ATCAGATGAA CACAAAGATG 
    GCCATGTCTC ATCTGGGGAG CCCTTTGCTT TTCAAGCTGT CCCCTGGGCC TTCCTGCTGT 
    CAGGTAAGAT TTTGGTACTG GTTATCTCAG GATTCCCAGC TTTCTGTCTT TAAGAGAACT 
    GCATCAGATG GAAGTTTGGA AAAACTGCGT GACATTTCAA CAATGCCTGA AATGCAGTGG 
    ACAAAAGTGA ATATACCCAT AGAAAGTGCA GCTGACGACT TAACTTTTCA GATTATTTTA 
    CGAGCTACCA TCCTTACAAC AAACGCTACT GTAGCTGTTG ATGACATCAG CGTAACAAAG 
    GGATGTGGAG TTGTGAATAA ATCCTTCCCA GGTGTCAGCC AGGAAAGTGA AGGGGAAACA 
    GAATTTGCAG ATGTTAATTC TTCACCTTTT CACTGTCCAC TGGGATTTTT TTCGTGTGGC 
    GATGGACAAT GTATTTCATC TGACAAATTT TGTGATTTCA CACCTGACTG TTCAAATAAC 
    CGTGATGAAG CAAAGTACCC TGCTGTATGT GACTTCGAAA GAGAGAGCTG TGGTTGGATT 
    GAAAGTGTAG ATGGAGATGG CTTTGACTGG CTAAGAAGTT CCAGTAGTGC TCTTGCACCT 
    GCTTTTCAGA AGCAAGCTCC TCCACAAGAT CACACCTACA ACAAATCTGA AGGTCATTTT 
    ATGTTCATTC TGAAAAACAG CAGCAGCATT TCACAAGTAG CTCGGCTAAG AAGCCCAAAG 
    TTCAGGCAAA CTGGATCAAA TTGCACATTG TCCTTTTGGT ATTACAATTA TGGACAGTCA 
    GTTGGAGCAG CAGAGATGCA GTTGTTTGTG GATGGGCAGA GACTGCCTAC TGTCCTTTGG 
    AGGGCATATT ACAATGAAGG AAATCAATGG TTGAACGCAG TCATTCAGCT TGGACGCCTT 
    CCACGTCCTT TCCAATTATC ACTTGATAAA ATCAGTCTGG GATTTTATGA CGGTGTCTCA 
    GCAATTGACG ATATTACGTT TGAAAATTGT GCCCTTCCAC CTCCAGCATT AAGTTGTGAA 
    GGTCCTCGTC GTTTCTGGTG CAGAGACACA AAAGCATGTA TTGACAGTTT ATTGGTCTGT 
    GATCTCGTGG ATGACTGTGG GGATGGATCA GATGAATACA ACTGTAACCC TGACCTACAG 
    TGTAACTTTG AAAATGGGTT GTGCAATTGG GAGCAGGACG TTGGGGATGA CTTGGACTGG 
    ATCAGAATCC AAGGTCCAAC CCCCACGGTT AACACAGGCC CCTTGAAGGA TCACACCACA 
    GGCACAGCCA GGGGACACTA CCTCTACATG GAATCCTCCG AGCCATACCA GTTTCAAGAT 
    AAAGCAATTT TGCTTAGTCC TCTCTTCAAC CCTACTGGCA ACGGAACCTG CATTTTCCGT 
    TTCCATTATC ACATGTTTGG AAAGCAAGTT TACAAGCTGT CGGTCTTGCA GAGGACTGTG 
    AGTAACACCA AGGGGTGGCT GTTGTGGTAC AAGTTTGGAA ATCAAGGAAA CAGATGGATC 
    AGACAGACAC TCTACATCAG CAGCTTTAAG CCCTTTCAGA TCTTGGTGAA AGGTGTCGTA 
    GGAGATGGTT TCACTGGAGA CATTGGACTT GATGACATGT CTTTTCTAGG CTGCACTCTT 
    TACAATGGAA ACTTGCCAAC AATCTCTACA ACTACTCCAG GAACTTCAGT TCCTGCCACA 
    CTTCCCATTA ACAACTGCAC AGAGGAGGAG TTTGTCTGCA GAGCCTCTGG CCATTGCATC 
    CAGATGATCC AGAAGTGTGA TTTTAGACCC GACTGCTCTG ATAAGTCTGA TGAATCAGCT 
    TGTGTTACGG AAGCCTGCAA CTTTGAGGAT AAAAACCAGT GTGGATGGTA TCAACCAGCC 
    TTGGAACCGG TGTCAGGAAA TTATTCCATC CGTACCACAA ACATATTCAA GTGGGAACTC 
    GGAAGAGGGG CAAATCTCTA TCCTGAGCAA GAAAAAGACT GCCCATTAAT TGATCATACT 
    ACGTCTACTG AAGAAGGCTG GTATCTGTTT GCAGACAGCT CGAATGGAGA ATTTGGTCAC 
    ACTGCTGACA TTGCTACCCC AGTCATCTCT CTTACGGGGC CCAAATGCAA AATCATATTC 
    TGGAACCACA TGAATGGTTC AACAATAGGT TCTCTGGAGG TACTGTGTAA AACTGGTAAT 
    AAGACTTCTA AACTGTGGAC TCAAAGTGGC AGCCAAGGTC CCCAGTGGAA CAGAGCAGAA 
    GTGTTCTTAG GAATTCGTTC AAATTTCCAG GTTGTTTTCA GGGCAAAACG TGGTATCAGT 
    TACATGGGAG ACGTGGCAGT GGATGACATT ACCTTTGAAG ATTGTTCCCC TTTGCTCATC 
    CCAGGCAGAC CTTGCACATC AGAGGAATTC ACATGTGCCA ACAAGTACTG CATCCCAAAG 
    GATAAATTGT GTGATTTTGT AAATGACTGT GCAGATAACT CAGACGAGAG CCCTACTATT 
    TGCAGTACAT CTATTGGGCA TTGCCATTTT GAGTTTGATC TTTGTGGATG GAAGCAAGAT 
    GAAAATGATG ATTTTGACTG GAACCTCAGA ACTAGCAGTA CTAGAAAAAT AGGCACTGGA 
    CCAGCAACTG ATCATACGTT ACAAGAGCCA TCTGGTCACT ATATTTTTAT AAGGAGTTCA 
    TTTCGTCAGC TGCCAGGACA GAAAGCTAGA ATTGCCAGTC CTGTCCTAAG CAGGAGGAAT 
    AAAGACTGCA AGATACTATT CTATTACCAT ATGTATGGAG CTCACATTGG ATCATTGGTT 
    GTCTATCAGA GGACTACAAT GAAACATGAA AAAATTCTCC TTAATCTTAC TGGAAACCAG 
    GGAAATTTCT GGCAGCGCAA GACACTGGTC CTGGATGGAG ATGGAAATGA AGATTTCCAA 
    GTTGTCTTTG AAGGGATAGC TGGAAAAGGT CCCAAAGATG GCATAGCACT TGATGACCTC 
    ACGTTATCCA GGGAGTGCTT ACCATCCCAG GAGTTTTTAC CAGCAGAACC CACAATGTTG 
    CCTCCAACAG GCTCCTGCTC ACATGGCTAT TGGCAATGTC AGAACAGCAA GTGCTACAGA 
    CCAGAACAAA GCTGTGATTT TGAAGACGAC TGTGGGGATA ATACAGACGA GAGTGAATGT 
    GGAACTTCCT GCACCTTTGA GAATGGCAGA TGTGGCTGGC AAAATTCCCT GGCAGACAGC 
    TTTAACTGGG TGATAGGGGT CAGCTCACCT CAAAGTCTCA GACCTCCCGG AGACCACACG 
    CTTGGAAATA CCACTGGAAA ATTCCTGTAT CTTGAGGCCA CTGCAATAGG CCTAATAAAT 
    GAAAAAGCCC ATGTGAAGAG TTCCAGATGG AAAGAATCAA GCAGGACATG TGTGATGAGC 
    TTCTGGTACT TCAAGTCATC AAAAGCCATG GGACATATTC AGGTTCTCAT TAAGACTGCT 
    GATGGGATTG TGAAAATATG GAGTGAATCA GGACATCACA GTAACGAGTG GAACAAAGTC 
    GAGTTACACT TGGGGAAACG GAGGAATTTT GAAATTATCT TTGAAGGCAT TCGTACCAGA 
    GACCTAGGAG GAGGAGCAGC AATAGATGAC ATAGAGTTCA ACAACTGCAC CACAGCTGGA 
    GAGAATCCCA GGGAATGCCC TGCCCTCACT GATTTTGTGT GTGGAAATGA GAATTGCATA 
    GAGTCTCAGT TTGTCTGCGA CTATAAACCG GACTGTGAAG ACCTGTCAGA TGAAGCTGAC 
    TGCAGTTACT ACACAAGTAT TCCTGGAAGC TGTAACTTTG AAACACAAGA TCAAGAATGG 
    ACCACTGTAT GTGGATTAAC GCAAGACCCT AACGATGATT TTGACTGGGA TATTAGCAAC 
    AGTGCTGTCA CTGGGCAAAT GGGTCCTGAT ACCGACCATA CACCAGGGAA AGGACAGCAT 
    TTTTTGTATG TAAACTCATC TGCCCAGAAG GAAGGGAACA GAGCAAGGAT AATGACCACC 
    AACCTGTTCC CAGCTAGCCT CGGAGTCTGC AGGGTTCGGT TCTGGTTCTG GATGTTTGCT 
    TCTAGGAAAA CAGGAGTCTT AAAGGTATAC ACAGCTGAAG AACATGGAAT GGACGTTCTT 
    ATGTGGTCTT CTAGTAGAAA TGAAGAAAAC AAATGGATGT ATGCAAATGT AGTCCTCTCC 
    CGTAACAGCC CGTTCAGAGT TGCCTTCGAA GCTGAAGTGG GGTGGAGTGA ACCCACCGAA 
    TTTGCTCTTG ATGATATTTC TTTCACCCCA GAATGCATTG ATGGAGGATC AGCTGATCCA 
    CACCCTCCCA CTTGCAATAG TGACCAGTTC ACATGTGCGT ACGTGCAGCA GTGTTTACCC 
    CTAACTGCAA AATGCAACGG GGCTGAAGAG TGCACGGATG GAAGTGATGA AATGGACTGT 
    CCCACCGAGA TGCCTACCAC CACGTCTCCG AGCTCCTGCA AGCAAACAGA GTTCCTGTGT 
    CCTTCCAAAG GCTGTATCCC ATCCCTCCTG AAATGTGATG GTGTGCCTGA CTGCCCCCTT 
    AATGAAGATG AAGTTGGCTG CCCCATTAAA GACTGTTTCA ATGGTTCTTT GTTATGTGCC 
    TCAACTAATC AATGTATAGC AATCTCCCAG CGTTGTGATG GCATTGCAGA CTGCATCGAT 
    TTCAGCCTTG ATGAGTCCAG CTGTTCAGTT TGTCCTGAAG AATACTGCAA AAATGGAGGG 
    ACATGCATCA TCAAAGATGA CATTCCATTA TGCCAATGTG GAAAAGAATG GAAAGGAAAC 
    CGTTGCCACA TGAGTGCTAA GCCTCTTCAG CCTCCAAGTC TCCTTCGAAA CGATATTTGG 
    ATTGGTTTGG GTATCGGTTT CTTGCTGATT AAAATTACAG CTGCTGTCTT CTATTTCCTT 
    TCGAAGAAGA AAGTGCCAGA AACGAAACTG GAGGAAACCA TGAATGCTTC GTTTGCCAAC 
    CCATTGTACG AAGACCTTAG TTCATCTGGG AAAGTAAAGT CTCCTGGGTA TGCCACCTCA 
    CCAGCTGTTC AAATCAGTGT TTCCCCATGG CAAGAGTGTC CGTTTAATGA AGACACGAAT 
    GCTACTTCTT TTCCAAATCC TCTCTATGGT GAAGTATCCG AAGACATGGA GAAATTATGC 
    AGTTCCTTGC AAATAGACAG AAAATAG

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

    RefSeq XP_014801419.1
    CDS1..6567
    Translation

    Target ORF information:

    RefSeq Version XM_014945933.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax MAM and LDL receptor class A domain containing 1 (MALRD1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014945933.1

    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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGAACAAAC TCCTATATTT CTGTGTGTTA TGTTGCTTTG CTTTGGTAGA TTCTTGGCCA 
    TCTACAGGAA GTGAATGCCA GCGCGGTGAT GGCTCCTCTG CTCCACCTGG GGAATCTTGT 
    ATTTTTGCCA GCCAGTGTGG AGGCAGCAGT GATGAGAAAC AAGGTTCGTC CTGTGAAAAG 
    TGTGATTTTG AAACTGACCA ATGCAAAGCT CTTCATGAAC TGAATTTACA GCCTGGATGG 
    ATACAAAGAA ATGGTCGATC TGGCTTGGGA CCACCGTACT CTGACCACAG TGGAAATGAC 
    AGTGCTTATT TCCTCTCATT GTCCTCTGAA ATGCGATCCT CTTCTGCAAC TTTAAGGACC 
    AATGTTTTCC TTCCAACTGA TGAAGAACAC ATTTGTCAGA TTACATTTCA TTATTGGATC 
    AGTCATGTGA GTGGCACATT GATGGTGGGG CTCCAAAAGT CCTCTGAAGA TACTATTACA 
    AACATCTGGC AAGATTCAGG AGAACTGCAA AATCAGTGGA AATCAAAGAC CATCATAATC 
    AATAGCACTG AAAAATATGA GGTTGTCTTT CGGGGGATGG TGGAGACCCA GAGACAAGAT 
    CAAACTGTTG CCATTGATGA TATTACTTTC AGTGAAGGAT GCTCTCTGGC AAGTGCACCA 
    CAGGCTTCCA GTTTTGAGCT TGGAGTGTGT GAGTGGCATT CAGATCAACC AGCTGAGCCT 
    GATGCGCTGG CACGACTGCA GGCTGGGCAC AAGATTGCCA CCTGTTCCTT CCTAAATGAT 
    CCGAGCAACA ACACTGAAGG ATGCTATGTA TGGTTAGAAG CTAATGTCAA TGCATTATAC 
    AGAAGTGCTT ATCTTAACAA TTCGGTGTGT CGTTGCTCCA GCAAGAACTG CCACTTCCAG 
    TTTCATTACT GGACGGCAGA TAGCAGCGTT CTCAAGGCGG TACTGTTTAA TAATCAGGAG 
    GAACATGTCT TATGGGAAAC CAACATCATG ACTAAGAAGG AATGGGTCAA AGTGGATATA 
    CAGCTACCGA CACAGCTAGA AGAATTAAAG CTCATGTTTA AAGGAACACT GGAAAGCAGA 
    GCGAGTTCTG TATGTTTGAA TAGCATCCAG CTCTTGGATG CTACACCATC GGAGCCAGCA 
    GGTTTCTGCT CCACAGAAGA ATCCACCTGC ACTGCTGGGC ACTCCATGGA GCCTGGATCA 
    GCCTGTGATT GTTCTGACGG TAGCGATGAA GATCTAGCAG CCTGCTCTAA TTACACTATG 
    TGTGATTTCG AGACTGACCT CTGTGGATGG AAGCCCCTAA GCCGAGCTGA CGCTGACTGG 
    AACATAATGA AGGAACAGGC TCCCCTCAAA AAGAGACTCC CTGGCAGAGC TCATACAACT 
    AATAGTGGAC ATGGAGCATT CCTTTACTTC AGTGGCTCAC ATCAGATGAA CACAAAGATG 
    GCCATGTCTC ATCTGGGGAG CCCTTTGCTT TTCAAGCTGT CCCCTGGGCC TTCCTGCTGT 
    CAGGTAAGAT TTTGGTACTG GTTATCTCAG GATTCCCAGC TTTCTGTCTT TAAGAGAACT 
    GCATCAGATG GAAGTTTGGA AAAACTGCGT GACATTTCAA CAATGCCTGA AATGCAGTGG 
    ACAAAAGTGA ATATACCCAT AGAAAGTGCA GCTGACGACT TAACTTTTCA GATTATTTTA 
    CGAGCTACCA TCCTTACAAC AAACGCTACT GTAGCTGTTG ATGACATCAG CGTAACAAAG 
    GGATGTGGAG TTGTGAATAA ATCCTTCCCA GGTGTCAGCC AGGAAAGTGA AGGGGAAACA 
    GAATTTGCAG ATGTTAATTC TTCACCTTTT CACTGTCCAC TGGGATTTTT TTCGTGTGGC 
    GATGGACAAT GTATTTCATC TGACAAATTT TGTGATTTCA CACCTGACTG TTCAAATAAC 
    CGTGATGAAG CAAAGTACCC TGCTGTATGT GACTTCGAAA GAGAGAGCTG TGGTTGGATT 
    GAAAGTGTAG ATGGAGATGG CTTTGACTGG CTAAGAAGTT CCAGTAGTGC TCTTGCACCT 
    GCTTTTCAGA AGCAAGCTCC TCCACAAGAT CACACCTACA ACAAATCTGA AGGTCATTTT 
    ATGTTCATTC TGAAAAACAG CAGCAGCATT TCACAAGTAG CTCGGCTAAG AAGCCCAAAG 
    TTCAGGCAAA CTGGATCAAA TTGCACATTG TCCTTTTGGT ATTACAATTA TGGACAGTCA 
    GTTGGAGCAG CAGAGATGCA GTTGTTTGTG GATGGGCAGA GACTGCCTAC TGTCCTTTGG 
    AGGGCATATT ACAATGAAGG AAATCAATGG TTGAACGCAG TCATTCAGCT TGGACGCCTT 
    CCACGTCCTT TCCAATTATC ACTTGATAAA ATCAGTCTGG GATTTTATGA CGGTGTCTCA 
    GCAATTGACG ATATTACGTT TGAAAATTGT GCCCTTCCAC CTCCAGCATT AAGTTGTGAA 
    GGTCCTCGTC GTTTCTGGTG CAGAGACACA AAAGCATGTA TTGACAGTTT ATTGGTCTGT 
    GATCTCGTGG ATGACTGTGG GGATGGATCA GATGAATACA ACTGTAACCC TGACCTACAG 
    TGTAACTTTG AAAATGGGTT GTGCAATTGG GAGCAGGACG TTGGGGATGA CTTGGACTGG 
    ATCAGAATCC AAGGTCCAAC CCCCACGGTT AACACAGGCC CCTTGAAGGA TCACACCACA 
    GGCACAGCCA GGGGACACTA CCTCTACATG GAATCCTCCG AGCCATACCA GTTTCAAGAT 
    AAAGCAATTT TGCTTAGTCC TCTCTTCAAC CCTACTGGCA ACGGAACCTG CATTTTCCGT 
    TTCCATTATC ACATGTTTGG AAAGCAAGTT TACAAGCTGT CGGTCTTGCA GAGGACTGTG 
    AGTAACACCA AGGGGTGGCT GTTGTGGTAC AAGTTTGGAA ATCAAGGAAA CAGATGGATC 
    AGACAGACAC TCTACATCAG CAGCTTTAAG CCCTTTCAGA TCTTGGTGAA AGGTGTCGTA 
    GGAGATGGTT TCACTGGAGA CATTGGACTT GATGACATGT CTTTTCTAGG CTGCACTCTT 
    TACAATGGAA ACTTGCCAAC AATCTCTACA ACTACTCCAG GAACTTCAGT TCCTGCCACA 
    CTTCCCATTA ACAACTGCAC AGAGGAGGAG TTTGTCTGCA GAGCCTCTGG CCATTGCATC 
    CAGATGATCC AGAAGTGTGA TTTTAGACCC GACTGCTCTG ATAAGTCTGA TGAATCAGCT 
    TGTGTTACGG AAGCCTGCAA CTTTGAGGAT AAAAACCAGT GTGGATGGTA TCAACCAGCC 
    TTGGAACCGG TGTCAGGAAA TTATTCCATC CGTACCACAA ACATATTCAA GTGGGAACTC 
    GGAAGAGGGG CAAATCTCTA TCCTGAGCAA GAAAAAGACT GCCCATTAAT TGATCATACT 
    ACGTCTACTG AAGAAGGCTG GTATCTGTTT GCAGACAGCT CGAATGGAGA ATTTGGTCAC 
    ACTGCTGACA TTGCTACCCC AGTCATCTCT CTTACGGGGC CCAAATGCAA AATCATATTC 
    TGGAACCACA TGAATGGTTC AACAATAGGT TCTCTGGAGG TACTGTGTAA AACTGGTAAT 
    AAGACTTCTA AACTGTGGAC TCAAAGTGGC AGCCAAGGTC CCCAGTGGAA CAGAGCAGAA 
    GTGTTCTTAG GAATTCGTTC AAATTTCCAG GTTGTTTTCA GGGCAAAACG TGGTATCAGT 
    TACATGGGAG ACGTGGCAGT GGATGACATT ACCTTTGAAG ATTGTTCCCC TTTGCTCATC 
    CCAGGCAGAC CTTGCACATC AGAGGAATTC ACATGTGCCA ACAAGTACTG CATCCCAAAG 
    GATAAATTGT GTGATTTTGT AAATGACTGT GCAGATAACT CAGACGAGAG CCCTACTATT 
    TGCAGTACAT CTATTGGGCA TTGCCATTTT GAGTTTGATC TTTGTGGATG GAAGCAAGAT 
    GAAAATGATG ATTTTGACTG GAACCTCAGA ACTAGCAGTA CTAGAAAAAT AGGCACTGGA 
    CCAGCAACTG ATCATACGTT ACAAGAGCCA TCTGGTCACT ATATTTTTAT AAGGAGTTCA 
    TTTCGTCAGC TGCCAGGACA GAAAGCTAGA ATTGCCAGTC CTGTCCTAAG CAGGAGGAAT 
    AAAGACTGCA AGATACTATT CTATTACCAT ATGTATGGAG CTCACATTGG ATCATTGGTT 
    GTCTATCAGA GGACTACAAT GAAACATGAA AAAATTCTCC TTAATCTTAC TGGAAACCAG 
    GGAAATTTCT GGCAGCGCAA GACACTGGTC CTGGATGGAG ATGGAAATGA AGATTTCCAA 
    GTTGTCTTTG AAGGGATAGC TGGAAAAGGT CCCAAAGATG GCATAGCACT TGATGACCTC 
    ACGTTATCCA GGGAGTGCTT ACCATCCCAG GAGTTTTTAC CAGCAGAACC CACAATGTTG 
    CCTCCAACAG GCTCCTGCTC ACATGGCTAT TGGCAATGTC AGAACAGCAA GTGCTACAGA 
    CCAGAACAAA GCTGTGATTT TGAAGACGAC TGTGGGGATA ATACAGACGA GAGTGAATGT 
    GGAACTTCCT GCACCTTTGA GAATGGCAGA TGTGGCTGGC AAAATTCCCT GGCAGACAGC 
    TTTAACTGGG TGATAGGGGT CAGCTCACCT CAAAGTCTCA GACCTCCCGG AGACCACACG 
    CTTGGAAATA CCACTGGAAA ATTCCTGTAT CTTGAGGCCA CTGCAATAGG CCTAATAAAT 
    GAAAAAGCCC ATGTGAAGAG TTCCAGATGG AAAGAATCAA GCAGGACATG TGTGATGAGC 
    TTCTGGTACT TCAAGTCATC AAAAGCCATG GGACATATTC AGGTTCTCAT TAAGACTGCT 
    GATGGGATTG TGAAAATATG GAGTGAATCA GGACATCACA GTAACGAGTG GAACAAAGTC 
    GAGTTACACT TGGGGAAACG GAGGAATTTT GAAATTATCT TTGAAGGCAT TCGTACCAGA 
    GACCTAGGAG GAGGAGCAGC AATAGATGAC ATAGAGTTCA ACAACTGCAC CACAGCTGGA 
    GAGAATCCCA GGGAATGCCC TGCCCTCACT GATTTTGTGT GTGGAAATGA GAATTGCATA 
    GAGTCTCAGT TTGTCTGCGA CTATAAACCG GACTGTGAAG ACCTGTCAGA TGAAGCTGAC 
    TGCAGTTACT ACACAAGTAT TCCTGGAAGC TGTAACTTTG AAACACAAGA TCAAGAATGG 
    ACCACTGTAT GTGGATTAAC GCAAGACCCT AACGATGATT TTGACTGGGA TATTAGCAAC 
    AGTGCTGTCA CTGGGCAAAT GGGTCCTGAT ACCGACCATA CACCAGGGAA AGGACAGCAT 
    TTTTTGTATG TAAACTCATC TGCCCAGAAG GAAGGGAACA GAGCAAGGAT AATGACCACC 
    AACCTGTTCC CAGCTAGCCT CGGAGTCTGC AGGGTTCGGT TCTGGTTCTG GATGTTTGCT 
    TCTAGGAAAA CAGGAGTCTT AAAGGTATAC ACAGCTGAAG AACATGGAAT GGACGTTCTT 
    ATGTGGTCTT CTAGTAGAAA TGAAGAAAAC AAATGGATGT ATGCAAATGT AGTCCTCTCC 
    CGTAACAGCC CGTTCAGAGT TGCCTTCGAA GCTGAAGTGG GGTGGAGTGA ACCCACCGAA 
    TTTGCTCTTG ATGATATTTC TTTCACCCCA GAATGCATTG ATGGAGGATC AGCTGATCCA 
    CACCCTCCCA CTTGCAATAG TGACCAGTTC ACATGTGCGT ACGTGCAGCA GTGTTTACCC 
    CTAACTGCAA AATGCAACGG GGCTGAAGAG TGCACGGATG GAAGTGATGA AATGGACTGT 
    CCCACCGAGA TGCCTACCAC CACGTCTCCG AGCTCCTGCA AGCAAACAGA GTTCCTGTGT 
    CCTTCCAAAG GCTGTATCCC ATCCCTCCTG AAATGTGATG GTGTGCCTGA CTGCCCCCTT 
    AATGAAGATG AAGTTGGCTG CCCCATTAAA GACTGTTTCA ATGGTTCTTT GTTATGTGCC 
    TCAACTAATC AATGTATAGC AATCTCCCAG CGTTGTGATG GCATTGCAGA CTGCATCGAT 
    TTCAGCCTTG ATGAGTCCAG CTGTTCAGTT TGTCCTGAAG AATACTGCAA AAATGGAGGG 
    ACATGCATCA TCAAAGATGA CATTCCATTA TGCCAATGTG GAAAAGAATG GAAAGGAAAC 
    CGTTGCCACA TGAGTGCTAA GCCTCTTCAG CCTCCAAGTC TCCTTCGAAA CGATATTTGG 
    ATTGGTTTGG GTATCGGTTT CTTGCTGATT AAAATTACAG CTGCTGTCTT CTATTTCCTT 
    TCGAAGAAGA AAGTGCCAGA AACGAAACTG GAGGAAACCA TGAATGCTTC GTTTGCCAAC 
    CCATTGTACG AAGACCTTAG TTCATCTGGG AAAGTAAAGT CTCCTGGGTA TGCCACCTCA 
    CCAGCTGTTC AAATCAGTGT TTCCCCATGG CAAGAGTGTC CGTTTAATGA AGACACGAAT 
    GCTACTTCTT TTCCAAATCC TCTCTATGGT GAAGTATCCG AAGACATGGA GAAATTATGC 
    AGTTCCTTGC AAATAGACAG AAAATAG

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

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