mig-38 cDNA ORF clone, Caenorhabditis elegans

The following mig-38 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mig-38 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
OCa344256 NM_001268640.2
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Caenorhabditis elegans Abnormal cell migration protein 38 (mig-38), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
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OCa344256 NM_001268640.1 Caenorhabditis elegans Abnormal cell migration protein 38 (mig-38), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
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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)
    CloneID OCa344256
    Clone ID Related Accession (Same CDS sequence) NM_001268640.2 , NM_001268640.1
    Accession Version NM_001268640.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4824bp)
    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 2019-10-17
    Organism Caenorhabditis elegans
    Product Abnormal cell migration protein 38
    Comment Comment: REVIEWED REFSEQ: This record has been curated by WormBase. This record is derived from an annotated genomic sequence (NC_003282). On Sep 4, 2019 this sequence version replaced NM_001268640.1.

    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
    ATGTCTTACG AAGAGGATGA CTGGTTCTCG TACAGAACAG AGTTCAACAA ACGGGCAGAC 
    AGTCCACGAG CAGCCGGGAA CTATGATTTT GAGTCTGGAA ACATTGATAA CATCCCACTC
    AATGATGACG GACCATTATC ACCCAGTCAA GATTTCGATT TAGCTGGAAC ACTCGAGGAA
    TACGAATCGT ATGATTTGAG ATTATCACCG AACGGAGGAC TCAATCGAGA AGATCAACAA
    CCAGGTCCCA GTGGAAATAA CGATGGACAA TATCATGTTA TGCAGAATAA TGATTCATTT
    GCCCAGCATA TGCAATCATC GAATACAATT GAGTATAACT CATTCGAAAT GCCCACTGTT
    ATCAATTCTA ATCATGACGT CGGCCCGTAT CAAGATCTTG GTATTGATGA CCCTAATTCG
    TTTTATGCGA ATCAACAGCC ATCAACGTCA CAAGGGAATG ATATGATAAT CAATGAGAAC
    TATGAAATGA TGGGTCCATC GACATCATAT ATGCCACAAA TAGATCATAT GAATCCTTCT
    GGGAACTCTT CTTCGCAGAT TAATCATCAA CAGGGAATGA TTGTTCCACA AGTTCAACAA
    CAGCCCGCAA AACCGAAGAC AACAAAAAAG AGGCCTCCAC CGAAGAAAAA GACAGCTGCT
    CAAGCGCCTG ATACAGTTGG TACAGTACTC ACGAAAGTGA ATAAATTAAC TCAACAGATT
    GACAACAACA ACGACAATCA AGAACAAAAA ATTGAGACAC GAATATCTGC GGAAGACTTG
    GTTCGAGTCA GCGCGCTATT GAGCAGATTG GATGTATATC AGAAAGAACA GGCACAAGGA
    AATAACACTC ATGATCAAGA TATTGAAGCG CTTCAAGCTG AAATAGCACA GGTGTTTACC
    AAGAATATGG CAATGAGTGC GAATGATGCT CCAGGAAACA GTATACTTAG TCAAATTCAA
    AATCTCACAA GTATTGGTAG CTCAGCTTCA TCATCTGCAC AGCCTTCTCA ACCTGCCAAA
    AAAGCTGCTC CCAAGAGAAA AACCGTACCG AATACGGCAA AAAATCTCGC TCAAAATCAG
    CAGATAATGC CACCACAGGC TCAAATAACG CCTACCAAAC TCGTTATGGA TCCTCCGACA
    ACAACGATGG TTCCAAGTAG CAGTCAGTCG AATCATATGT ATAGTAATGA TGGCTTCACG
    ACATACAATC AAATGGATGA ACCCGGAACG AGTCAGCAAC AACAATATAA TGATTATCGA
    CAGCCTCCAT CTCAGGAATC AATGCAATAT GGTCACCAAC AGATTATTCA AGCAAGAGTT
    GTGCCTTCTA TGAACCAGAA AACTCATAAC TATCGTCAAG CAGTAGTGTT TGCATCTCCG
    AATACAAATG GACCGTCATC ACAACTACAA CGGCCACAAT CCGGCATGGA TCAAATGCAA
    GACCAACAAT ATCATGCTCA GGATCTTCAA GGATCCCAAG TTCAACAAAC ATTCGTTTCT
    GTACAACATG ACGGGCAAAT TTATCAAGAA GTGGAGCCAA CGTTGAGAGA TTTTGTTCGA
    CAGGGAAGGT ACCAAGGTCC ACAGGATGCA CCGCATCTTC GGCAACAGTT GATCACAAAT
    GTAAATGCGA CAACAAACAA GCAAATGGTT CATCGAAGTC AAGATCCGAC ACCATCGCCT
    GGAAACCTCC AACAATTCGG TGAACCTCTT CAACGCCATG GAAGCTATCC ACATAGTCAT
    GATATGAGAC CAAATTCACA TTCACAATCT CAACACAGCT ACAGTAATCA TTACGATGGA
    GCCACCGAGT TCTTTGATGT GTCAATGCAA CATCAAGATA GTCAAATGTC ACAAATTCAA
    CCAGGATCAC AACATTATGT TCAACAACAA GAGCTGTATC ATCCAATTGG AGATCAACAA
    CAAATGGTTG AACCTGAATC AGAATATCCG GTTCCCCAGG TTACCAATGA GTTGAGCGAA
    GAAGAGTTGA GAGCTATAAT GGAAGAAAAA CGACAGATTC GACAGAAACG ATTGAAAGAT
    ATCATGATAG ATCAACTGAA TCGATTAGAA GAGCCCGTGG ATGTAACTCC TTTCAGAAAT
    AAGATGGATG TTTTGGAACG ACTACTTCCA TATCATCATT TTGCAAATGA AGAAGAACCA
    GTGTCAGATT TTGATTCTAC GTTTCAAAGA GTTATGGATA ATGCTGTACA TCAGGCGAAT
    TCCATCGGAA ATCGAATTCG AAATATCGTA CTTCGTGATA CTATGAGATC TTCGACAGAG
    TGGGAAGAGA ACATGATCTT GTTCCTTGAA ACAGAATCGG AGCGTCGAAA ACTGGAAGAT
    GATAAGAAAT TGGCTGATCA AGATCTGAGC ACATTTTTGC GTAATAGTGA TATAATTCAA
    AACGTGAGAG CTAGAAGATT GGATGTGGAA CGAACGCGAC TAAGGGTTCC TCGAATTCCA
    GCACATTTGA AAGAACTTGA TCTTCAAAAC GGCCAGCTTT CGTCGCTGTA TCGAGAATAC
    GAGTTCGATT CATACGATGA AAATCGTCCA CGTGGATCAC CATTTGTCTA CGAAGAGCCA
    GAATCGGAAT CTGAGTCGGA ACCAGAAGCA GAGCCAGAAC CGAAGAAGGA CAATTTCGCC
    GAACCGGAAC CAGCTCGTGG CGATATTTCT CCACTCATCG GTTTCCCTCA ATTATCACCG
    ATTCCTTCTC CGTCAAGATA TCGAAATGAG AGTGAGAGCA CGTTTGATTG GAAAGATGAA
    GATGAATCCC CGTTGTTGTC TCCAGAAACT GAAAAAATCA ACAAAGCTGC AGATCAGTTT
    CGAAAGGAAA TTTTTGGGAC TCAAGAAGAT TTGGATAAAT CGGAACCATT TCCGTTTGAA
    CAAATATCTG AAGCTGCTCG GAATCAACAT CTCATCACAG CTCAACCACA ACTTCCTCGA
    GTGGATGCCA GCTCAATTGG ATCTCTTGCA AGTTCTTCAT CGACAGTTGA TCACAGTCCA
    CAATCCATCC ATCCAGTTTT CTCACCCAAA GCTGCAATCC AGTCAAGTTC AGTTCAAGTT
    ATGAAGCCTC CACGAAGTCC TAGTTCTGTT TCGTGTAAAC TATCAACGCC ATGTGTTGAA
    CAGTCTCTAC CAGAGGAAAG TCATTATGAA GGTTCACCTG AAATTGACGA GGATTATGAT
    ATGTCTCCGA TCAGAGAAAA TGAGCCGGCC GAACTAATTT CACTTCCAAT TTCAGTAAAT
    ATGATCAAGA AAGAGAAAGA GGATTCTACT CCAAAGTTGA AATTACGGAT CCCAGCTGCT
    GTTCTTCAGA ATGGTATTGT TGCAAGTGAA GATGAGAGTG ATGTGGCAGT TGAGGAAACT
    ATTCCTGCGA TTCGGAAGCC GCTTAAGCTG AGGTTCAATC TAAAAGATAT CAAGTTGGAA
    GAACCGTCAC CAGATCGAGA TGTAGCTAGC AGTCGTCCAA AATCGAGAAC TGAGCCGCCT
    CCAACTCCAG AAAAGTTGCA TGTTAAGATA AAAGCTTCAC CAGCTGAGAC GACGCCAACG
    AAGTTACAAT TGAAAGAAAA GTCGCCAGCA AAAACGCCAG TTTTCAAGAC TCCACTGCAA
    ACTCCGATCA AGATGACACC TTCGCCATCT GAATCGAGAA AACGTAGAAG TGCAAAAATC
    GAGGATAGTC CAGCCCAGAA GAAGAAACTT TTGAATTCGG GTAGCAGCTT TGTAACTCCA
    AAGAATGGAT TGAGGGCTGA ACTGGACGAG ACTGTCGAGA GACCTCTACG AATTATGACC
    GATGGACGGA AGATTGTGAT GAAGATTAGC AAAGTTTCGA GAAACATCAA TCACTTTGTT
    ACACCGCGCA GAGATAAGAA AGGAAATCTT CATAAAGATC TATCCCCGAC GAATTATACA
    CGATTAACGA TGAAGCTGAT GAAGAAGAAA GGGGAATTAT CAGTTGAATT CACTGAAACT
    CCCAATAAGA ATAGTGAGGA AGACGATCAT AAGATTCCAA ACATTCCTAG CACGAGTACT
    TCAATTCCAC CTGCTTCAAC AGTCGTTTCT TCCGTTTCCG TGAAGGGTAG ACCTGCTCCT
    GCTTCAAGAA AATCGTCGAT CGACACTGCT GGAAAGGACA AGAAAGGGCA ATTAGCAAAG
    AATAAAGCTG CGTTTTGCAA TCGTTTTAAT CCTTTCGCAA ACGTTCCCAG TTCGAAACCA
    TCGACTTCTT CTGCTGTTTC TGCTACTCCC TCAACATCTT CTGCAGTATC CGCAAAGCTT
    CCAACAGGAA AGACACCTGG TCGCCCCGTC GCTCTTTCAA CTCCAAGATC TTCGCATAAG
    CCACCACAAG CAGTTGTTGC TCCACGTCCA AATTTGATTC GAACTGCTCC GGTTGTACCG
    AAAATCACTG TCACAAATGC ATCGGAGAGC AGTCTTCCTT CTAAATCTCA TATCCCAATT
    GAAGTGAAAC CAAAGTTGTC TTCACTTCTT CCATGGGTAT CAGACACCGA TGAAAGCCCT
    GAACAGAAGC ATAAATTGAA GAAAACGATG CCTTCAATTA ATTTATTAAA AGTGAAAACG
    GAACCTCCGG AAGCTGATGC TGTTACATCA AAGCCTGAAT CTCCTCGTGC ATCATCGTCG
    ATGTCGTTTT TTGAAGACGC ATTTCTACGA TCCCCAAAAC GATCGAATGA GCCACTGCCT
    GTTGTCGAAT TTTCTGACGA CGAGGAGAAC GATTTGGCTC ATTCGACATT CAGTCATGCC
    ACTGATCATT TGCTAGGAAC TAGCAATATG AACAGCTCAA CAAATGGATC TTCATCAGGT
    CTACCTTGGT CCACGGATCC CTAA

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

    RefSeq NP_001255569.1
    CDS82..4905
    Translation

    Target ORF information:

    RefSeq Version NM_001268640.2
    Organism Caenorhabditis elegans
    Definition Caenorhabditis elegans Abnormal cell migration protein 38 (mig-38), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001268640.2

    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
    4501
    4561
    4621
    4681
    4741
    4801
    ATGTCTTACG AAGAGGATGA CTGGTTCTCG TACAGAACAG AGTTCAACAA ACGGGCAGAC 
    AGTCCACGAG CAGCCGGGAA CTATGATTTT GAGTCTGGAA ACATTGATAA CATCCCACTC
    AATGATGACG GACCATTATC ACCCAGTCAA GATTTCGATT TAGCTGGAAC ACTCGAGGAA
    TACGAATCGT ATGATTTGAG ATTATCACCG AACGGAGGAC TCAATCGAGA AGATCAACAA
    CCAGGTCCCA GTGGAAATAA CGATGGACAA TATCATGTTA TGCAGAATAA TGATTCATTT
    GCCCAGCATA TGCAATCATC GAATACAATT GAGTATAACT CATTCGAAAT GCCCACTGTT
    ATCAATTCTA ATCATGACGT CGGCCCGTAT CAAGATCTTG GTATTGATGA CCCTAATTCG
    TTTTATGCGA ATCAACAGCC ATCAACGTCA CAAGGGAATG ATATGATAAT CAATGAGAAC
    TATGAAATGA TGGGTCCATC GACATCATAT ATGCCACAAA TAGATCATAT GAATCCTTCT
    GGGAACTCTT CTTCGCAGAT TAATCATCAA CAGGGAATGA TTGTTCCACA AGTTCAACAA
    CAGCCCGCAA AACCGAAGAC AACAAAAAAG AGGCCTCCAC CGAAGAAAAA GACAGCTGCT
    CAAGCGCCTG ATACAGTTGG TACAGTACTC ACGAAAGTGA ATAAATTAAC TCAACAGATT
    GACAACAACA ACGACAATCA AGAACAAAAA ATTGAGACAC GAATATCTGC GGAAGACTTG
    GTTCGAGTCA GCGCGCTATT GAGCAGATTG GATGTATATC AGAAAGAACA GGCACAAGGA
    AATAACACTC ATGATCAAGA TATTGAAGCG CTTCAAGCTG AAATAGCACA GGTGTTTACC
    AAGAATATGG CAATGAGTGC GAATGATGCT CCAGGAAACA GTATACTTAG TCAAATTCAA
    AATCTCACAA GTATTGGTAG CTCAGCTTCA TCATCTGCAC AGCCTTCTCA ACCTGCCAAA
    AAAGCTGCTC CCAAGAGAAA AACCGTACCG AATACGGCAA AAAATCTCGC TCAAAATCAG
    CAGATAATGC CACCACAGGC TCAAATAACG CCTACCAAAC TCGTTATGGA TCCTCCGACA
    ACAACGATGG TTCCAAGTAG CAGTCAGTCG AATCATATGT ATAGTAATGA TGGCTTCACG
    ACATACAATC AAATGGATGA ACCCGGAACG AGTCAGCAAC AACAATATAA TGATTATCGA
    CAGCCTCCAT CTCAGGAATC AATGCAATAT GGTCACCAAC AGATTATTCA AGCAAGAGTT
    GTGCCTTCTA TGAACCAGAA AACTCATAAC TATCGTCAAG CAGTAGTGTT TGCATCTCCG
    AATACAAATG GACCGTCATC ACAACTACAA CGGCCACAAT CCGGCATGGA TCAAATGCAA
    GACCAACAAT ATCATGCTCA GGATCTTCAA GGATCCCAAG TTCAACAAAC ATTCGTTTCT
    GTACAACATG ACGGGCAAAT TTATCAAGAA GTGGAGCCAA CGTTGAGAGA TTTTGTTCGA
    CAGGGAAGGT ACCAAGGTCC ACAGGATGCA CCGCATCTTC GGCAACAGTT GATCACAAAT
    GTAAATGCGA CAACAAACAA GCAAATGGTT CATCGAAGTC AAGATCCGAC ACCATCGCCT
    GGAAACCTCC AACAATTCGG TGAACCTCTT CAACGCCATG GAAGCTATCC ACATAGTCAT
    GATATGAGAC CAAATTCACA TTCACAATCT CAACACAGCT ACAGTAATCA TTACGATGGA
    GCCACCGAGT TCTTTGATGT GTCAATGCAA CATCAAGATA GTCAAATGTC ACAAATTCAA
    CCAGGATCAC AACATTATGT TCAACAACAA GAGCTGTATC ATCCAATTGG AGATCAACAA
    CAAATGGTTG AACCTGAATC AGAATATCCG GTTCCCCAGG TTACCAATGA GTTGAGCGAA
    GAAGAGTTGA GAGCTATAAT GGAAGAAAAA CGACAGATTC GACAGAAACG ATTGAAAGAT
    ATCATGATAG ATCAACTGAA TCGATTAGAA GAGCCCGTGG ATGTAACTCC TTTCAGAAAT
    AAGATGGATG TTTTGGAACG ACTACTTCCA TATCATCATT TTGCAAATGA AGAAGAACCA
    GTGTCAGATT TTGATTCTAC GTTTCAAAGA GTTATGGATA ATGCTGTACA TCAGGCGAAT
    TCCATCGGAA ATCGAATTCG AAATATCGTA CTTCGTGATA CTATGAGATC TTCGACAGAG
    TGGGAAGAGA ACATGATCTT GTTCCTTGAA ACAGAATCGG AGCGTCGAAA ACTGGAAGAT
    GATAAGAAAT TGGCTGATCA AGATCTGAGC ACATTTTTGC GTAATAGTGA TATAATTCAA
    AACGTGAGAG CTAGAAGATT GGATGTGGAA CGAACGCGAC TAAGGGTTCC TCGAATTCCA
    GCACATTTGA AAGAACTTGA TCTTCAAAAC GGCCAGCTTT CGTCGCTGTA TCGAGAATAC
    GAGTTCGATT CATACGATGA AAATCGTCCA CGTGGATCAC CATTTGTCTA CGAAGAGCCA
    GAATCGGAAT CTGAGTCGGA ACCAGAAGCA GAGCCAGAAC CGAAGAAGGA CAATTTCGCC
    GAACCGGAAC CAGCTCGTGG CGATATTTCT CCACTCATCG GTTTCCCTCA ATTATCACCG
    ATTCCTTCTC CGTCAAGATA TCGAAATGAG AGTGAGAGCA CGTTTGATTG GAAAGATGAA
    GATGAATCCC CGTTGTTGTC TCCAGAAACT GAAAAAATCA ACAAAGCTGC AGATCAGTTT
    CGAAAGGAAA TTTTTGGGAC TCAAGAAGAT TTGGATAAAT CGGAACCATT TCCGTTTGAA
    CAAATATCTG AAGCTGCTCG GAATCAACAT CTCATCACAG CTCAACCACA ACTTCCTCGA
    GTGGATGCCA GCTCAATTGG ATCTCTTGCA AGTTCTTCAT CGACAGTTGA TCACAGTCCA
    CAATCCATCC ATCCAGTTTT CTCACCCAAA GCTGCAATCC AGTCAAGTTC AGTTCAAGTT
    ATGAAGCCTC CACGAAGTCC TAGTTCTGTT TCGTGTAAAC TATCAACGCC ATGTGTTGAA
    CAGTCTCTAC CAGAGGAAAG TCATTATGAA GGTTCACCTG AAATTGACGA GGATTATGAT
    ATGTCTCCGA TCAGAGAAAA TGAGCCGGCC GAACTAATTT CACTTCCAAT TTCAGTAAAT
    ATGATCAAGA AAGAGAAAGA GGATTCTACT CCAAAGTTGA AATTACGGAT CCCAGCTGCT
    GTTCTTCAGA ATGGTATTGT TGCAAGTGAA GATGAGAGTG ATGTGGCAGT TGAGGAAACT
    ATTCCTGCGA TTCGGAAGCC GCTTAAGCTG AGGTTCAATC TAAAAGATAT CAAGTTGGAA
    GAACCGTCAC CAGATCGAGA TGTAGCTAGC AGTCGTCCAA AATCGAGAAC TGAGCCGCCT
    CCAACTCCAG AAAAGTTGCA TGTTAAGATA AAAGCTTCAC CAGCTGAGAC GACGCCAACG
    AAGTTACAAT TGAAAGAAAA GTCGCCAGCA AAAACGCCAG TTTTCAAGAC TCCACTGCAA
    ACTCCGATCA AGATGACACC TTCGCCATCT GAATCGAGAA AACGTAGAAG TGCAAAAATC
    GAGGATAGTC CAGCCCAGAA GAAGAAACTT TTGAATTCGG GTAGCAGCTT TGTAACTCCA
    AAGAATGGAT TGAGGGCTGA ACTGGACGAG ACTGTCGAGA GACCTCTACG AATTATGACC
    GATGGACGGA AGATTGTGAT GAAGATTAGC AAAGTTTCGA GAAACATCAA TCACTTTGTT
    ACACCGCGCA GAGATAAGAA AGGAAATCTT CATAAAGATC TATCCCCGAC GAATTATACA
    CGATTAACGA TGAAGCTGAT GAAGAAGAAA GGGGAATTAT CAGTTGAATT CACTGAAACT
    CCCAATAAGA ATAGTGAGGA AGACGATCAT AAGATTCCAA ACATTCCTAG CACGAGTACT
    TCAATTCCAC CTGCTTCAAC AGTCGTTTCT TCCGTTTCCG TGAAGGGTAG ACCTGCTCCT
    GCTTCAAGAA AATCGTCGAT CGACACTGCT GGAAAGGACA AGAAAGGGCA ATTAGCAAAG
    AATAAAGCTG CGTTTTGCAA TCGTTTTAAT CCTTTCGCAA ACGTTCCCAG TTCGAAACCA
    TCGACTTCTT CTGCTGTTTC TGCTACTCCC TCAACATCTT CTGCAGTATC CGCAAAGCTT
    CCAACAGGAA AGACACCTGG TCGCCCCGTC GCTCTTTCAA CTCCAAGATC TTCGCATAAG
    CCACCACAAG CAGTTGTTGC TCCACGTCCA AATTTGATTC GAACTGCTCC GGTTGTACCG
    AAAATCACTG TCACAAATGC ATCGGAGAGC AGTCTTCCTT CTAAATCTCA TATCCCAATT
    GAAGTGAAAC CAAAGTTGTC TTCACTTCTT CCATGGGTAT CAGACACCGA TGAAAGCCCT
    GAACAGAAGC ATAAATTGAA GAAAACGATG CCTTCAATTA ATTTATTAAA AGTGAAAACG
    GAACCTCCGG AAGCTGATGC TGTTACATCA AAGCCTGAAT CTCCTCGTGC ATCATCGTCG
    ATGTCGTTTT TTGAAGACGC ATTTCTACGA TCCCCAAAAC GATCGAATGA GCCACTGCCT
    GTTGTCGAAT TTTCTGACGA CGAGGAGAAC GATTTGGCTC ATTCGACATT CAGTCATGCC
    ACTGATCATT TGCTAGGAAC TAGCAATATG AACAGCTCAA CAAATGGATC TTCATCAGGT
    CTACCTTGGT CCACGGATCC CTAA

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

    CloneID OCa344256
    Clone ID Related Accession (Same CDS sequence) NM_001268640.2 , NM_001268640.1
    Accession Version NM_001268640.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4824bp)
    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 2019-04-08
    Organism Caenorhabditis elegans
    Product Abnormal cell migration protein 38
    Comment Comment: REVIEWED REFSEQ: This record has been curated by WormBase. This record is derived from an annotated genomic sequence (NC_003282). COMPLETENESS: incomplete on both ends.

    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
    ATGTCTTACG AAGAGGATGA CTGGTTCTCG TACAGAACAG AGTTCAACAA ACGGGCAGAC 
    AGTCCACGAG CAGCCGGGAA CTATGATTTT GAGTCTGGAA ACATTGATAA CATCCCACTC
    AATGATGACG GACCATTATC ACCCAGTCAA GATTTCGATT TAGCTGGAAC ACTCGAGGAA
    TACGAATCGT ATGATTTGAG ATTATCACCG AACGGAGGAC TCAATCGAGA AGATCAACAA
    CCAGGTCCCA GTGGAAATAA CGATGGACAA TATCATGTTA TGCAGAATAA TGATTCATTT
    GCCCAGCATA TGCAATCATC GAATACAATT GAGTATAACT CATTCGAAAT GCCCACTGTT
    ATCAATTCTA ATCATGACGT CGGCCCGTAT CAAGATCTTG GTATTGATGA CCCTAATTCG
    TTTTATGCGA ATCAACAGCC ATCAACGTCA CAAGGGAATG ATATGATAAT CAATGAGAAC
    TATGAAATGA TGGGTCCATC GACATCATAT ATGCCACAAA TAGATCATAT GAATCCTTCT
    GGGAACTCTT CTTCGCAGAT TAATCATCAA CAGGGAATGA TTGTTCCACA AGTTCAACAA
    CAGCCCGCAA AACCGAAGAC AACAAAAAAG AGGCCTCCAC CGAAGAAAAA GACAGCTGCT
    CAAGCGCCTG ATACAGTTGG TACAGTACTC ACGAAAGTGA ATAAATTAAC TCAACAGATT
    GACAACAACA ACGACAATCA AGAACAAAAA ATTGAGACAC GAATATCTGC GGAAGACTTG
    GTTCGAGTCA GCGCGCTATT GAGCAGATTG GATGTATATC AGAAAGAACA GGCACAAGGA
    AATAACACTC ATGATCAAGA TATTGAAGCG CTTCAAGCTG AAATAGCACA GGTGTTTACC
    AAGAATATGG CAATGAGTGC GAATGATGCT CCAGGAAACA GTATACTTAG TCAAATTCAA
    AATCTCACAA GTATTGGTAG CTCAGCTTCA TCATCTGCAC AGCCTTCTCA ACCTGCCAAA
    AAAGCTGCTC CCAAGAGAAA AACCGTACCG AATACGGCAA AAAATCTCGC TCAAAATCAG
    CAGATAATGC CACCACAGGC TCAAATAACG CCTACCAAAC TCGTTATGGA TCCTCCGACA
    ACAACGATGG TTCCAAGTAG CAGTCAGTCG AATCATATGT ATAGTAATGA TGGCTTCACG
    ACATACAATC AAATGGATGA ACCCGGAACG AGTCAGCAAC AACAATATAA TGATTATCGA
    CAGCCTCCAT CTCAGGAATC AATGCAATAT GGTCACCAAC AGATTATTCA AGCAAGAGTT
    GTGCCTTCTA TGAACCAGAA AACTCATAAC TATCGTCAAG CAGTAGTGTT TGCATCTCCG
    AATACAAATG GACCGTCATC ACAACTACAA CGGCCACAAT CCGGCATGGA TCAAATGCAA
    GACCAACAAT ATCATGCTCA GGATCTTCAA GGATCCCAAG TTCAACAAAC ATTCGTTTCT
    GTACAACATG ACGGGCAAAT TTATCAAGAA GTGGAGCCAA CGTTGAGAGA TTTTGTTCGA
    CAGGGAAGGT ACCAAGGTCC ACAGGATGCA CCGCATCTTC GGCAACAGTT GATCACAAAT
    GTAAATGCGA CAACAAACAA GCAAATGGTT CATCGAAGTC AAGATCCGAC ACCATCGCCT
    GGAAACCTCC AACAATTCGG TGAACCTCTT CAACGCCATG GAAGCTATCC ACATAGTCAT
    GATATGAGAC CAAATTCACA TTCACAATCT CAACACAGCT ACAGTAATCA TTACGATGGA
    GCCACCGAGT TCTTTGATGT GTCAATGCAA CATCAAGATA GTCAAATGTC ACAAATTCAA
    CCAGGATCAC AACATTATGT TCAACAACAA GAGCTGTATC ATCCAATTGG AGATCAACAA
    CAAATGGTTG AACCTGAATC AGAATATCCG GTTCCCCAGG TTACCAATGA GTTGAGCGAA
    GAAGAGTTGA GAGCTATAAT GGAAGAAAAA CGACAGATTC GACAGAAACG ATTGAAAGAT
    ATCATGATAG ATCAACTGAA TCGATTAGAA GAGCCCGTGG ATGTAACTCC TTTCAGAAAT
    AAGATGGATG TTTTGGAACG ACTACTTCCA TATCATCATT TTGCAAATGA AGAAGAACCA
    GTGTCAGATT TTGATTCTAC GTTTCAAAGA GTTATGGATA ATGCTGTACA TCAGGCGAAT
    TCCATCGGAA ATCGAATTCG AAATATCGTA CTTCGTGATA CTATGAGATC TTCGACAGAG
    TGGGAAGAGA ACATGATCTT GTTCCTTGAA ACAGAATCGG AGCGTCGAAA ACTGGAAGAT
    GATAAGAAAT TGGCTGATCA AGATCTGAGC ACATTTTTGC GTAATAGTGA TATAATTCAA
    AACGTGAGAG CTAGAAGATT GGATGTGGAA CGAACGCGAC TAAGGGTTCC TCGAATTCCA
    GCACATTTGA AAGAACTTGA TCTTCAAAAC GGCCAGCTTT CGTCGCTGTA TCGAGAATAC
    GAGTTCGATT CATACGATGA AAATCGTCCA CGTGGATCAC CATTTGTCTA CGAAGAGCCA
    GAATCGGAAT CTGAGTCGGA ACCAGAAGCA GAGCCAGAAC CGAAGAAGGA CAATTTCGCC
    GAACCGGAAC CAGCTCGTGG CGATATTTCT CCACTCATCG GTTTCCCTCA ATTATCACCG
    ATTCCTTCTC CGTCAAGATA TCGAAATGAG AGTGAGAGCA CGTTTGATTG GAAAGATGAA
    GATGAATCCC CGTTGTTGTC TCCAGAAACT GAAAAAATCA ACAAAGCTGC AGATCAGTTT
    CGAAAGGAAA TTTTTGGGAC TCAAGAAGAT TTGGATAAAT CGGAACCATT TCCGTTTGAA
    CAAATATCTG AAGCTGCTCG GAATCAACAT CTCATCACAG CTCAACCACA ACTTCCTCGA
    GTGGATGCCA GCTCAATTGG ATCTCTTGCA AGTTCTTCAT CGACAGTTGA TCACAGTCCA
    CAATCCATCC ATCCAGTTTT CTCACCCAAA GCTGCAATCC AGTCAAGTTC AGTTCAAGTT
    ATGAAGCCTC CACGAAGTCC TAGTTCTGTT TCGTGTAAAC TATCAACGCC ATGTGTTGAA
    CAGTCTCTAC CAGAGGAAAG TCATTATGAA GGTTCACCTG AAATTGACGA GGATTATGAT
    ATGTCTCCGA TCAGAGAAAA TGAGCCGGCC GAACTAATTT CACTTCCAAT TTCAGTAAAT
    ATGATCAAGA AAGAGAAAGA GGATTCTACT CCAAAGTTGA AATTACGGAT CCCAGCTGCT
    GTTCTTCAGA ATGGTATTGT TGCAAGTGAA GATGAGAGTG ATGTGGCAGT TGAGGAAACT
    ATTCCTGCGA TTCGGAAGCC GCTTAAGCTG AGGTTCAATC TAAAAGATAT CAAGTTGGAA
    GAACCGTCAC CAGATCGAGA TGTAGCTAGC AGTCGTCCAA AATCGAGAAC TGAGCCGCCT
    CCAACTCCAG AAAAGTTGCA TGTTAAGATA AAAGCTTCAC CAGCTGAGAC GACGCCAACG
    AAGTTACAAT TGAAAGAAAA GTCGCCAGCA AAAACGCCAG TTTTCAAGAC TCCACTGCAA
    ACTCCGATCA AGATGACACC TTCGCCATCT GAATCGAGAA AACGTAGAAG TGCAAAAATC
    GAGGATAGTC CAGCCCAGAA GAAGAAACTT TTGAATTCGG GTAGCAGCTT TGTAACTCCA
    AAGAATGGAT TGAGGGCTGA ACTGGACGAG ACTGTCGAGA GACCTCTACG AATTATGACC
    GATGGACGGA AGATTGTGAT GAAGATTAGC AAAGTTTCGA GAAACATCAA TCACTTTGTT
    ACACCGCGCA GAGATAAGAA AGGAAATCTT CATAAAGATC TATCCCCGAC GAATTATACA
    CGATTAACGA TGAAGCTGAT GAAGAAGAAA GGGGAATTAT CAGTTGAATT CACTGAAACT
    CCCAATAAGA ATAGTGAGGA AGACGATCAT AAGATTCCAA ACATTCCTAG CACGAGTACT
    TCAATTCCAC CTGCTTCAAC AGTCGTTTCT TCCGTTTCCG TGAAGGGTAG ACCTGCTCCT
    GCTTCAAGAA AATCGTCGAT CGACACTGCT GGAAAGGACA AGAAAGGGCA ATTAGCAAAG
    AATAAAGCTG CGTTTTGCAA TCGTTTTAAT CCTTTCGCAA ACGTTCCCAG TTCGAAACCA
    TCGACTTCTT CTGCTGTTTC TGCTACTCCC TCAACATCTT CTGCAGTATC CGCAAAGCTT
    CCAACAGGAA AGACACCTGG TCGCCCCGTC GCTCTTTCAA CTCCAAGATC TTCGCATAAG
    CCACCACAAG CAGTTGTTGC TCCACGTCCA AATTTGATTC GAACTGCTCC GGTTGTACCG
    AAAATCACTG TCACAAATGC ATCGGAGAGC AGTCTTCCTT CTAAATCTCA TATCCCAATT
    GAAGTGAAAC CAAAGTTGTC TTCACTTCTT CCATGGGTAT CAGACACCGA TGAAAGCCCT
    GAACAGAAGC ATAAATTGAA GAAAACGATG CCTTCAATTA ATTTATTAAA AGTGAAAACG
    GAACCTCCGG AAGCTGATGC TGTTACATCA AAGCCTGAAT CTCCTCGTGC ATCATCGTCG
    ATGTCGTTTT TTGAAGACGC ATTTCTACGA TCCCCAAAAC GATCGAATGA GCCACTGCCT
    GTTGTCGAAT TTTCTGACGA CGAGGAGAAC GATTTGGCTC ATTCGACATT CAGTCATGCC
    ACTGATCATT TGCTAGGAAC TAGCAATATG AACAGCTCAA CAAATGGATC TTCATCAGGT
    CTACCTTGGT CCACGGATCC CTAA

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

    RefSeq NP_001255569.1
    CDS1..4824
    Translation

    Target ORF information:

    RefSeq Version NM_001268640.1
    Organism Caenorhabditis elegans
    Definition Caenorhabditis elegans Abnormal cell migration protein 38 (mig-38), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001268640.1

    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
    ATGTCTTACG AAGAGGATGA CTGGTTCTCG TACAGAACAG AGTTCAACAA ACGGGCAGAC 
    AGTCCACGAG CAGCCGGGAA CTATGATTTT GAGTCTGGAA ACATTGATAA CATCCCACTC
    AATGATGACG GACCATTATC ACCCAGTCAA GATTTCGATT TAGCTGGAAC ACTCGAGGAA
    TACGAATCGT ATGATTTGAG ATTATCACCG AACGGAGGAC TCAATCGAGA AGATCAACAA
    CCAGGTCCCA GTGGAAATAA CGATGGACAA TATCATGTTA TGCAGAATAA TGATTCATTT
    GCCCAGCATA TGCAATCATC GAATACAATT GAGTATAACT CATTCGAAAT GCCCACTGTT
    ATCAATTCTA ATCATGACGT CGGCCCGTAT CAAGATCTTG GTATTGATGA CCCTAATTCG
    TTTTATGCGA ATCAACAGCC ATCAACGTCA CAAGGGAATG ATATGATAAT CAATGAGAAC
    TATGAAATGA TGGGTCCATC GACATCATAT ATGCCACAAA TAGATCATAT GAATCCTTCT
    GGGAACTCTT CTTCGCAGAT TAATCATCAA CAGGGAATGA TTGTTCCACA AGTTCAACAA
    CAGCCCGCAA AACCGAAGAC AACAAAAAAG AGGCCTCCAC CGAAGAAAAA GACAGCTGCT
    CAAGCGCCTG ATACAGTTGG TACAGTACTC ACGAAAGTGA ATAAATTAAC TCAACAGATT
    GACAACAACA ACGACAATCA AGAACAAAAA ATTGAGACAC GAATATCTGC GGAAGACTTG
    GTTCGAGTCA GCGCGCTATT GAGCAGATTG GATGTATATC AGAAAGAACA GGCACAAGGA
    AATAACACTC ATGATCAAGA TATTGAAGCG CTTCAAGCTG AAATAGCACA GGTGTTTACC
    AAGAATATGG CAATGAGTGC GAATGATGCT CCAGGAAACA GTATACTTAG TCAAATTCAA
    AATCTCACAA GTATTGGTAG CTCAGCTTCA TCATCTGCAC AGCCTTCTCA ACCTGCCAAA
    AAAGCTGCTC CCAAGAGAAA AACCGTACCG AATACGGCAA AAAATCTCGC TCAAAATCAG
    CAGATAATGC CACCACAGGC TCAAATAACG CCTACCAAAC TCGTTATGGA TCCTCCGACA
    ACAACGATGG TTCCAAGTAG CAGTCAGTCG AATCATATGT ATAGTAATGA TGGCTTCACG
    ACATACAATC AAATGGATGA ACCCGGAACG AGTCAGCAAC AACAATATAA TGATTATCGA
    CAGCCTCCAT CTCAGGAATC AATGCAATAT GGTCACCAAC AGATTATTCA AGCAAGAGTT
    GTGCCTTCTA TGAACCAGAA AACTCATAAC TATCGTCAAG CAGTAGTGTT TGCATCTCCG
    AATACAAATG GACCGTCATC ACAACTACAA CGGCCACAAT CCGGCATGGA TCAAATGCAA
    GACCAACAAT ATCATGCTCA GGATCTTCAA GGATCCCAAG TTCAACAAAC ATTCGTTTCT
    GTACAACATG ACGGGCAAAT TTATCAAGAA GTGGAGCCAA CGTTGAGAGA TTTTGTTCGA
    CAGGGAAGGT ACCAAGGTCC ACAGGATGCA CCGCATCTTC GGCAACAGTT GATCACAAAT
    GTAAATGCGA CAACAAACAA GCAAATGGTT CATCGAAGTC AAGATCCGAC ACCATCGCCT
    GGAAACCTCC AACAATTCGG TGAACCTCTT CAACGCCATG GAAGCTATCC ACATAGTCAT
    GATATGAGAC CAAATTCACA TTCACAATCT CAACACAGCT ACAGTAATCA TTACGATGGA
    GCCACCGAGT TCTTTGATGT GTCAATGCAA CATCAAGATA GTCAAATGTC ACAAATTCAA
    CCAGGATCAC AACATTATGT TCAACAACAA GAGCTGTATC ATCCAATTGG AGATCAACAA
    CAAATGGTTG AACCTGAATC AGAATATCCG GTTCCCCAGG TTACCAATGA GTTGAGCGAA
    GAAGAGTTGA GAGCTATAAT GGAAGAAAAA CGACAGATTC GACAGAAACG ATTGAAAGAT
    ATCATGATAG ATCAACTGAA TCGATTAGAA GAGCCCGTGG ATGTAACTCC TTTCAGAAAT
    AAGATGGATG TTTTGGAACG ACTACTTCCA TATCATCATT TTGCAAATGA AGAAGAACCA
    GTGTCAGATT TTGATTCTAC GTTTCAAAGA GTTATGGATA ATGCTGTACA TCAGGCGAAT
    TCCATCGGAA ATCGAATTCG AAATATCGTA CTTCGTGATA CTATGAGATC TTCGACAGAG
    TGGGAAGAGA ACATGATCTT GTTCCTTGAA ACAGAATCGG AGCGTCGAAA ACTGGAAGAT
    GATAAGAAAT TGGCTGATCA AGATCTGAGC ACATTTTTGC GTAATAGTGA TATAATTCAA
    AACGTGAGAG CTAGAAGATT GGATGTGGAA CGAACGCGAC TAAGGGTTCC TCGAATTCCA
    GCACATTTGA AAGAACTTGA TCTTCAAAAC GGCCAGCTTT CGTCGCTGTA TCGAGAATAC
    GAGTTCGATT CATACGATGA AAATCGTCCA CGTGGATCAC CATTTGTCTA CGAAGAGCCA
    GAATCGGAAT CTGAGTCGGA ACCAGAAGCA GAGCCAGAAC CGAAGAAGGA CAATTTCGCC
    GAACCGGAAC CAGCTCGTGG CGATATTTCT CCACTCATCG GTTTCCCTCA ATTATCACCG
    ATTCCTTCTC CGTCAAGATA TCGAAATGAG AGTGAGAGCA CGTTTGATTG GAAAGATGAA
    GATGAATCCC CGTTGTTGTC TCCAGAAACT GAAAAAATCA ACAAAGCTGC AGATCAGTTT
    CGAAAGGAAA TTTTTGGGAC TCAAGAAGAT TTGGATAAAT CGGAACCATT TCCGTTTGAA
    CAAATATCTG AAGCTGCTCG GAATCAACAT CTCATCACAG CTCAACCACA ACTTCCTCGA
    GTGGATGCCA GCTCAATTGG ATCTCTTGCA AGTTCTTCAT CGACAGTTGA TCACAGTCCA
    CAATCCATCC ATCCAGTTTT CTCACCCAAA GCTGCAATCC AGTCAAGTTC AGTTCAAGTT
    ATGAAGCCTC CACGAAGTCC TAGTTCTGTT TCGTGTAAAC TATCAACGCC ATGTGTTGAA
    CAGTCTCTAC CAGAGGAAAG TCATTATGAA GGTTCACCTG AAATTGACGA GGATTATGAT
    ATGTCTCCGA TCAGAGAAAA TGAGCCGGCC GAACTAATTT CACTTCCAAT TTCAGTAAAT
    ATGATCAAGA AAGAGAAAGA GGATTCTACT CCAAAGTTGA AATTACGGAT CCCAGCTGCT
    GTTCTTCAGA ATGGTATTGT TGCAAGTGAA GATGAGAGTG ATGTGGCAGT TGAGGAAACT
    ATTCCTGCGA TTCGGAAGCC GCTTAAGCTG AGGTTCAATC TAAAAGATAT CAAGTTGGAA
    GAACCGTCAC CAGATCGAGA TGTAGCTAGC AGTCGTCCAA AATCGAGAAC TGAGCCGCCT
    CCAACTCCAG AAAAGTTGCA TGTTAAGATA AAAGCTTCAC CAGCTGAGAC GACGCCAACG
    AAGTTACAAT TGAAAGAAAA GTCGCCAGCA AAAACGCCAG TTTTCAAGAC TCCACTGCAA
    ACTCCGATCA AGATGACACC TTCGCCATCT GAATCGAGAA AACGTAGAAG TGCAAAAATC
    GAGGATAGTC CAGCCCAGAA GAAGAAACTT TTGAATTCGG GTAGCAGCTT TGTAACTCCA
    AAGAATGGAT TGAGGGCTGA ACTGGACGAG ACTGTCGAGA GACCTCTACG AATTATGACC
    GATGGACGGA AGATTGTGAT GAAGATTAGC AAAGTTTCGA GAAACATCAA TCACTTTGTT
    ACACCGCGCA GAGATAAGAA AGGAAATCTT CATAAAGATC TATCCCCGAC GAATTATACA
    CGATTAACGA TGAAGCTGAT GAAGAAGAAA GGGGAATTAT CAGTTGAATT CACTGAAACT
    CCCAATAAGA ATAGTGAGGA AGACGATCAT AAGATTCCAA ACATTCCTAG CACGAGTACT
    TCAATTCCAC CTGCTTCAAC AGTCGTTTCT TCCGTTTCCG TGAAGGGTAG ACCTGCTCCT
    GCTTCAAGAA AATCGTCGAT CGACACTGCT GGAAAGGACA AGAAAGGGCA ATTAGCAAAG
    AATAAAGCTG CGTTTTGCAA TCGTTTTAAT CCTTTCGCAA ACGTTCCCAG TTCGAAACCA
    TCGACTTCTT CTGCTGTTTC TGCTACTCCC TCAACATCTT CTGCAGTATC CGCAAAGCTT
    CCAACAGGAA AGACACCTGG TCGCCCCGTC GCTCTTTCAA CTCCAAGATC TTCGCATAAG
    CCACCACAAG CAGTTGTTGC TCCACGTCCA AATTTGATTC GAACTGCTCC GGTTGTACCG
    AAAATCACTG TCACAAATGC ATCGGAGAGC AGTCTTCCTT CTAAATCTCA TATCCCAATT
    GAAGTGAAAC CAAAGTTGTC TTCACTTCTT CCATGGGTAT CAGACACCGA TGAAAGCCCT
    GAACAGAAGC ATAAATTGAA GAAAACGATG CCTTCAATTA ATTTATTAAA AGTGAAAACG
    GAACCTCCGG AAGCTGATGC TGTTACATCA AAGCCTGAAT CTCCTCGTGC ATCATCGTCG
    ATGTCGTTTT TTGAAGACGC ATTTCTACGA TCCCCAAAAC GATCGAATGA GCCACTGCCT
    GTTGTCGAAT TTTCTGACGA CGAGGAGAAC GATTTGGCTC ATTCGACATT CAGTCATGCC
    ACTGATCATT TGCTAGGAAC TAGCAATATG AACAGCTCAA CAAATGGATC TTCATCAGGT
    CTACCTTGGT CCACGGATCC CTAA

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