ORF » Species Summary » Salmo salar » LOC106607789 cDNA ORF clone

LOC106607789 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following LOC106607789 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106607789 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
OAt22396 XM_014205146.1
Latest version!		 Salmo salar tudor domain-containing protein 15-like (LOC106607789), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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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)
    LOC106607789 ( XM_014205146.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060621.1 Salmo salar tudor domain-containing protein 15-like (LOC106607789), mRNA.
    Price & Availability↑
    CloneID OAt22396
    Clone ID Related Accession (Same CDS sequence) XM_014205146.1
    Accession Version XM_014205146.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6090bp)
    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 1442678400000
    Organism Salmo salar(Atlantic salmon)
    Product tudor domain-containing protein 15-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTTGTTGA GAATGACTTC AGAAAATAGA AAACCTCGGG AGAATTCAAG TCTTCCTGCA 
    CCATGTGCTC TGTGGCCTGT AGACCTACAG TTAACGCATG TGAGCTGCAA CCCAGCGGAT 
    ACACTGGTGC ACTTCCAGGG CCAATATCTC ACAATATGTG AACTGGACTA TAACATACTG 
    CAAGTGGAAA TACAGAATGC ACAGAAAACA AAGATGGCGG TGGAAGTGGG GGAGTTCTGT 
    TTGGTAGAGG ATGTCCTATC TACCCGGTGG TACAGAGGAA GGGTTCAGAA CAAACAGAAA 
    GAATTGTTTG ACGTGTTCCT CATAGACCAT GGGAATGTTC TGAGTGTTGA TGCCAGCCAT 
    TTGGCCACAG CTTTGGATGA GCTCTTCATG CTTCCTCCCA AAATCATCTG TGGTTTCTTT 
    GCAAATGTGT TACCGTTGAC AGAAAATTGG GATTCTTTTT CAGAGACGTA TTTTGCTTCC 
    TTGATTGGAA GTCATGTCAA AGGCTACATC CAAGCCTTTC TTCCTCACAA AGTCCTCATA 
    CTAGAAGCCC CAGATATCAA CAAGGATCTC TTTAGGCTGA GCTTAGGGAA ACATGTGGAC 
    ACAGACACAT TCCTTCTCTT GGTGGAAATG TTGACAGAGG TACCACTCAA GCAGAGCATT 
    GAACCTGTCC CTGATCTACT GATTGAAAAG CAAGGTGGAC AAGAATTCTC ATTCAAATCA 
    TCCAGCTTGA AGGGCTTTGA GGATATTCTG TCATTTTCAG GCCCTAAGTT GACCACTGGC 
    AAAAAAGTGA GGGTTAGGGT AACCGCTGCA GTGAACCCTG TTACATTCTA CTGTCAAATG 
    ACAAGTATGG CAAAAGATCT GAAACGGATG TCAGACAAAT TGGCATTGTC CTGTGAGTCC 
    AAGAGCAAAG ACCCCAGTCT ACAGCCAGCA GAAAATATGG GCTTGCTTTG CTCAGTCAAA 
    GGAAAAGATG AGAAGTGGCA TAGAGGCTTT GTGCAGTTTC TCCCTGTAAA CTCTCAAGTA 
    AGAGTATTGT TTGTTGATTA CGGATTCTGT GAGTCGGTGA AAATTGAGAA TGTCCTCCAG 
    CTTCCACTAG ATTTTCTCTC AACACCAATC ATGGCATTCC CGTGCGCTCT TTCCTGCCTG 
    AATGGACAAG ATAAGGCAGT GAAGATCCAG CAGCTGACTT GCTTCAAGAA AGGATTGCTG 
    GGTGGAGTAT TAGATGTTGA AATCAATGGC TTTGACAAAG AGCAGAATCT CTATTCGGTC 
    ACAGTGCTCA GTGCTGAAGA CTATGCAGCT GTTGAGGCAG GGCCAATTCA AGATGTATCT 
    GGACAAAGGG AGTGTGACTT TGTTCTTGAA AGTGAGCCTG CTTTCCCTCT AAACGGCTAC 
    CTGTATTATG AGACCGCAAT AATCCAAGCA ATGGATAATT CAGTCATTGT TGAGGAAATG 
    CAAGAGGACT CTGTGTTTGA AGGATACGTG GAGCATGTCC TGAATCCAGG TGCGTTCTGG 
    TTGAGAACAC AGAAACGCAA CAAAGACTTT GAAGAGATGA TGGAGAACAT GGCCAAGCAC 
    TTCAGCCAAG TCCAATTGGA TGAAGAAATT CTGGAGAATC CAGAGCCTGG TACACTTTGC 
    TGTGCAATGT ATGAGCTGGA CATGCATTAC TACAGAGCAA TGGTGACAGA CACACTTGAC 
    AACGGAGCTG AAGTATTTTT CATTGATTTT GGAAATACTG AAAAGGTACC ACGCATGTGC 
    ATCAAGCAGA TCCCGGACAA GTTTGCTATT GAACCAGCAT TTGCCCTGAG TTGTTCTCTG 
    GTGAATGTCA TGCCTTTCGA CGATGTATGG ACGATCTCTG CAACCAACTA CTTCCGACGA 
    GCAGTCTCCA ACAAAACTCT CCTTGTGCAT GTTGTCCACA TAAGGAAAGA TCTATATGTG 
    GTTGATTTGT ATGAGTGTGA AAACAACTCA TCACAAAGAG CATCAAAGAG CATCACAGAG 
    CTCTTGACCA CAACAAATCA TGCAGAATTT TGGAAATACA CTCCTTCGGC GCCTGTGATA 
    CCTAAGAGCG AGATGGAGAA GAAAATGATG AAACCGAAGT CCTGTAAAAA AGGACAAGTT 
    CATACAAATG GATCAAGCAC TAGTGGAGTT ACAAGGAAAC CTTCCAAAGA GACATGGGAA 
    ATTTCTGAAT TGGTTGGCTG TGAAAAGAAA CCTGAAACCC CAAAGTCAAG CACCCTAAAA 
    GACAAGGCAC CAGCTGTGAA ATTCAAATCC CAGACATTCA AGCCCGGAAG TGAGCTAGTT 
    GTGCGATGCT CTCACGTCAA CACACCCTCA GATTTTTGGT GCCAGCTGGA AAGCAAGATC 
    CCCAACTTGG AGGACATGAT GGAAGCGATT CAGCGGTATT ACCAAGCGCG CACACTTCCT 
    GTGCAGTTAA ATGATTCATG TTGTGTTACC AAATCTAAAG ATGATGGCAG ATGGTATAGG 
    GCCTGCATTA TAGGAGCACA GAAAGATGAA GTTGAAATTA TATTTGTGGA CTACGGGATT 
    ATAGCAAAAG AGAGGGTGCA CAATCTTCAA GCAATAGTGC CAGAATTCCT TGATCTTGAG 
    GGGCAAGCAT TTAGATGTAG CCTTTACAAC TTGATTGAAC CTGCAAAGGG CAGTGGTAGT 
    GATTGGGGCA GAGAGGCATG CAATTTACTG AAGTACTTCG CTCAAGACCA GTCAATGAAG 
    TTGACATGCT ATATACACGC TCAACTGTAT GTGAAAAACA AGGGCCTGTG CAATGTTGTT 
    GACCTCCACA ACACTCAACA GAATGCAACA AAGATGCTTG TGGAAAAAGG TCTTGCAAGA 
    GAAGTGCAAA CCCCTATGCA GCTTATGCCA TCAGTATGCC CAGACTCTTT TGTCCATTCC 
    TCCTTCAACT TGAGATGTGG AAGTGAAGAG CAAGTCTGTG TCACTCATGT GTGCAGTCCA 
    TGGGAGATGT ATTGCCAGTT GGACAGAAAT ACTGAAATGA TTGACAACTT GATGGAGAAA 
    GTCGCCATAG AAAGTAAAGA AATACTGCGT GCCAACTCTG GGCCTGATAT CGGAAAACTT 
    TGCCTGGCAA AATATTACGG TGATGGCAAA TGGTACAGGG GTGTGGCTTG CCCTGTTCAA 
    TCTACTACGC TGCTTCTAAA TGTGTTTTTT GTGGACTATG GAAACATGCA TATTGTTGAA 
    AAAAACAATG CTATATCTAT TCCCAGACAT TCAGCAGATT TACTGTTCAC TCCCATGCAG 
    GCATTAAGAT GCAGTCTCTC ACAAATCCCG AAAGAGGACA ACTTTGCAGA TGTCAACAAA 
    TGGCTAGAGA AATCGATTCT CAACAAGCCA CTTCGAGCTG TCGTTGCAGG AAAGAATGAG 
    GATGGGACAG TCTTTTTCGA TCTGTTTGAT GGAGGCATAA ACATCAATGA GAAAGTCAAG 
    GAGCTCATTG CAAGTCAAAA ACCAAAGGAG AAGAAAAGCA GTAGACCTGT GACTGGTCAT 
    AAAGGACACA AAGAACAAAC GAAGAACAAA ATTGGAAAAA CTAAAGCGGG ACAGCACCTG 
    AAATCCACAT GCAAGGGCAA CCAACATCAC CAACATCAAA ATAAGTCTTC AAATGCTCAA 
    AAAGCAAACC CACCAAAGTG GCAAGAGCAA AGTGAAAGAA TCACTCAGTT CAAATCTGAG 
    AAAAGCACAG AAGGAAAAAC AGATCAACAT GTAGACAGTT CCTCTAAACT CACAGAAACT 
    GTTTGCTCTG TCCAATTGCC AAAACTTTCA CAACTACCCT CTAATCCCAA AATAAAATCT 
    GGATTCCGAG GTCTGGGGTT TGTTTCCCAT ATCAATACCG TTGACAGCTT TTTTATCCAA 
    ATGCAAGATG ATGAACAATC CATTCTGAAA ATGAGAGAAG ACCTCAACAC TGAGCTGTTT 
    AAAGAAACCA TGGGGAACAG CACGTTGGTG GACTTCAGAA TGAATGACCT TGTTGCTGCT 
    GAATATGAAG AGGATGGTGC ACTCTACCGA GCAGTTGTGA CAGATAATGC GTCTAATGAC 
    CATTTCAAGG TGGAGTTTGT TGACTATGGA AATACAGCCA CTGTGACTAA GGACAAAACG 
    TACACTCTGA CAAGTGTTTT TTTGTCGCAG CATAGACTAA GCATACCCTG TTCATTGCTA 
    AACAGTGTCT CTTATAAAAG TGATGCTTCT TTCACTGATG CAGTAATGGG AAAACCTCTC 
    ATGGTTGAAA TTGTCAGTCG TTTTGGGACA CAGTGGGAGG TTAATGTTGA GATCCAACAG 
    GACAACCCAA CACTTGACAA TGTGACTGAA AATGAAGCGG TCCAAGCTTT GTGTGCAAGC 
    CAAGTTGACA CAGTTAAAAA GCAAACGAGA GTAACCATCA AGGACAATAG CCAGTCCAAT 
    ACACATTCTG AGAGGGTTAT GTTCACTGCT CAAGGTGAAA AGGTCTTGCA GAATGTGTCC 
    CCAAGGCCCT CGCCAACTAG GCACAAACAT GACATTTGCA AACACCAGGA CTCCAGTCAA 
    CTCCAAGCAA CAACCTTTGG ACCGTCTATG GAGGCCGTGA AGGATATGGC CATTCCATCA 
    CAGGATATAA GAGCCGGACA GGCAGAGAGC GGGACACTGT TGTCCATCTT GGAGAATGGA 
    GATCTATATC TGAGACTCCA CAGGACCACT GAACAGTTTA CTGTACTTGA GAATCTCATA 
    GTTGAACATT TGTCTAAGTG CAAAGTCATG TCTGAGAAGA ATGTCAAAGA AGGACTTCAA 
    TGCTTGGCAA AATCAACCAA AGACGACCAG TGGCACAGAG CAGTTGTACG GCATGCATCT 
    ATTGACCAAG GAAAATGCGT TGTGTTCCTT GTGGATCATG GCACTGTAGA GGACGTCCCA 
    ATGGGCTGCA TCAAAGACAT CTGTAATGAC CTCAAGCAAA CTCCTGTACA AGCAGTCTTG 
    TGCAAGTGGA ATAGCCCTGG CCTCCCTATC AGCGACGCTT ATGAGATATT GAAGAACACT 
    CTGAAACAAA TGATAGGCAA GGATGTGAAA CTGATGTTTG TGTCCTACTC TGAAGCTGAT 
    AACTTGTGGA TGGTCGAAAT CATGATAAAT GGACTGTTCC TTGTTCAGCA AATAAAGACT 
    GCAACTTCTG AATTTACTGA AGAAAGACCA ATCCCCACAA AGACTCAAAC TGTAACCCCA 
    AAAGAGAAAA AATCCAACCT GGACAACAGT CCCCAGAGGT TCTTCCTTGC CCCAGTGAAC 
    ATGGACCTGG GATACTCCGG CTTTGCAGCT GCAGTCACCA CACCAAGTGA ATTCTACATT 
    GTTCTGGAAG ATTTGCTTCT CATCATGAAC ACTGTGTCTA CGATTCTTGA GGATCTTCCA 
    AAGGAGCTGT TGCCATTGCA TGAAGAACAC CTAATTCCAG GGTCATGCTG CCTTGTGATG 
    TCTGATAGTA AGAACAAATG GTGCCGAGCT GAAATCGTCC ATTCCGATAG CGCAGTGGTT 
    GTGATCAATT TGGTTGACTA TGGCCATTGT GTGGACATGC CGTACAAAGA TTGGTCTGAG 
    CTGAGACGAC TTCCTGACCA GTTGACCAAG CTACCAAAGG TCACGTATCC ATGCACTTTG 
    AGAGGAGTAA AATCAGTCGA GGAGCAATGG ACAGATGAAG CAGTTGTTTT CTTTCAAGAG 
    TGCATCTGTA AGAAAAACCT TCAAATATAC TTCAGACAGT ACATTTCTGA AGCACACTGG 
    GAGGTGGACA TTGTAGCAGA TGGCGTTCAC GTGGCTAAAG ACCTGGTTGA TGCTGGCCAT 
    GCAGAATACA TCGACATCAT GCTTGGACTG AGATTTCAAG AACAAAGCCC CATCAAAGCC 
    CCTGAACAGA AACAAGGCAT GAGTCGTGCA GAGAAAACAT CCAAAGTGGA ACCAGAAATG 
    ACACCACCTC GGACAAACAA ACTCCTGAGA AGACTGAATG AAGAACTAGA ACTCGTTGGA 
    CACACTTCAA GTGAGGCTGC CTTCCGTGGA CAAGGATTTG AAAATGCAAG CGAGAAGACA 
    GCCCGTGCTA CTGAGTACTC TGATGGCCAA GGAGCAGAGA TGAAACACTG TAGCACAATG 
    ACTGGAACAA AAAATTGTGC CCTGATGTGA

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

    RefSeq XP_014060621.1
    CDS266..6355
    Translation

    Target ORF information:

    RefSeq Version XM_014205146.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar tudor domain-containing protein 15-like (LOC106607789), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014205146.1

    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
    ATGTTGTTGA GAATGACTTC AGAAAATAGA AAACCTCGGG AGAATTCAAG TCTTCCTGCA 
    CCATGTGCTC TGTGGCCTGT AGACCTACAG TTAACGCATG TGAGCTGCAA CCCAGCGGAT 
    ACACTGGTGC ACTTCCAGGG CCAATATCTC ACAATATGTG AACTGGACTA TAACATACTG 
    CAAGTGGAAA TACAGAATGC ACAGAAAACA AAGATGGCGG TGGAAGTGGG GGAGTTCTGT 
    TTGGTAGAGG ATGTCCTATC TACCCGGTGG TACAGAGGAA GGGTTCAGAA CAAACAGAAA 
    GAATTGTTTG ACGTGTTCCT CATAGACCAT GGGAATGTTC TGAGTGTTGA TGCCAGCCAT 
    TTGGCCACAG CTTTGGATGA GCTCTTCATG CTTCCTCCCA AAATCATCTG TGGTTTCTTT 
    GCAAATGTGT TACCGTTGAC AGAAAATTGG GATTCTTTTT CAGAGACGTA TTTTGCTTCC 
    TTGATTGGAA GTCATGTCAA AGGCTACATC CAAGCCTTTC TTCCTCACAA AGTCCTCATA 
    CTAGAAGCCC CAGATATCAA CAAGGATCTC TTTAGGCTGA GCTTAGGGAA ACATGTGGAC 
    ACAGACACAT TCCTTCTCTT GGTGGAAATG TTGACAGAGG TACCACTCAA GCAGAGCATT 
    GAACCTGTCC CTGATCTACT GATTGAAAAG CAAGGTGGAC AAGAATTCTC ATTCAAATCA 
    TCCAGCTTGA AGGGCTTTGA GGATATTCTG TCATTTTCAG GCCCTAAGTT GACCACTGGC 
    AAAAAAGTGA GGGTTAGGGT AACCGCTGCA GTGAACCCTG TTACATTCTA CTGTCAAATG 
    ACAAGTATGG CAAAAGATCT GAAACGGATG TCAGACAAAT TGGCATTGTC CTGTGAGTCC 
    AAGAGCAAAG ACCCCAGTCT ACAGCCAGCA GAAAATATGG GCTTGCTTTG CTCAGTCAAA 
    GGAAAAGATG AGAAGTGGCA TAGAGGCTTT GTGCAGTTTC TCCCTGTAAA CTCTCAAGTA 
    AGAGTATTGT TTGTTGATTA CGGATTCTGT GAGTCGGTGA AAATTGAGAA TGTCCTCCAG 
    CTTCCACTAG ATTTTCTCTC AACACCAATC ATGGCATTCC CGTGCGCTCT TTCCTGCCTG 
    AATGGACAAG ATAAGGCAGT GAAGATCCAG CAGCTGACTT GCTTCAAGAA AGGATTGCTG 
    GGTGGAGTAT TAGATGTTGA AATCAATGGC TTTGACAAAG AGCAGAATCT CTATTCGGTC 
    ACAGTGCTCA GTGCTGAAGA CTATGCAGCT GTTGAGGCAG GGCCAATTCA AGATGTATCT 
    GGACAAAGGG AGTGTGACTT TGTTCTTGAA AGTGAGCCTG CTTTCCCTCT AAACGGCTAC 
    CTGTATTATG AGACCGCAAT AATCCAAGCA ATGGATAATT CAGTCATTGT TGAGGAAATG 
    CAAGAGGACT CTGTGTTTGA AGGATACGTG GAGCATGTCC TGAATCCAGG TGCGTTCTGG 
    TTGAGAACAC AGAAACGCAA CAAAGACTTT GAAGAGATGA TGGAGAACAT GGCCAAGCAC 
    TTCAGCCAAG TCCAATTGGA TGAAGAAATT CTGGAGAATC CAGAGCCTGG TACACTTTGC 
    TGTGCAATGT ATGAGCTGGA CATGCATTAC TACAGAGCAA TGGTGACAGA CACACTTGAC 
    AACGGAGCTG AAGTATTTTT CATTGATTTT GGAAATACTG AAAAGGTACC ACGCATGTGC 
    ATCAAGCAGA TCCCGGACAA GTTTGCTATT GAACCAGCAT TTGCCCTGAG TTGTTCTCTG 
    GTGAATGTCA TGCCTTTCGA CGATGTATGG ACGATCTCTG CAACCAACTA CTTCCGACGA 
    GCAGTCTCCA ACAAAACTCT CCTTGTGCAT GTTGTCCACA TAAGGAAAGA TCTATATGTG 
    GTTGATTTGT ATGAGTGTGA AAACAACTCA TCACAAAGAG CATCAAAGAG CATCACAGAG 
    CTCTTGACCA CAACAAATCA TGCAGAATTT TGGAAATACA CTCCTTCGGC GCCTGTGATA 
    CCTAAGAGCG AGATGGAGAA GAAAATGATG AAACCGAAGT CCTGTAAAAA AGGACAAGTT 
    CATACAAATG GATCAAGCAC TAGTGGAGTT ACAAGGAAAC CTTCCAAAGA GACATGGGAA 
    ATTTCTGAAT TGGTTGGCTG TGAAAAGAAA CCTGAAACCC CAAAGTCAAG CACCCTAAAA 
    GACAAGGCAC CAGCTGTGAA ATTCAAATCC CAGACATTCA AGCCCGGAAG TGAGCTAGTT 
    GTGCGATGCT CTCACGTCAA CACACCCTCA GATTTTTGGT GCCAGCTGGA AAGCAAGATC 
    CCCAACTTGG AGGACATGAT GGAAGCGATT CAGCGGTATT ACCAAGCGCG CACACTTCCT 
    GTGCAGTTAA ATGATTCATG TTGTGTTACC AAATCTAAAG ATGATGGCAG ATGGTATAGG 
    GCCTGCATTA TAGGAGCACA GAAAGATGAA GTTGAAATTA TATTTGTGGA CTACGGGATT 
    ATAGCAAAAG AGAGGGTGCA CAATCTTCAA GCAATAGTGC CAGAATTCCT TGATCTTGAG 
    GGGCAAGCAT TTAGATGTAG CCTTTACAAC TTGATTGAAC CTGCAAAGGG CAGTGGTAGT 
    GATTGGGGCA GAGAGGCATG CAATTTACTG AAGTACTTCG CTCAAGACCA GTCAATGAAG 
    TTGACATGCT ATATACACGC TCAACTGTAT GTGAAAAACA AGGGCCTGTG CAATGTTGTT 
    GACCTCCACA ACACTCAACA GAATGCAACA AAGATGCTTG TGGAAAAAGG TCTTGCAAGA 
    GAAGTGCAAA CCCCTATGCA GCTTATGCCA TCAGTATGCC CAGACTCTTT TGTCCATTCC 
    TCCTTCAACT TGAGATGTGG AAGTGAAGAG CAAGTCTGTG TCACTCATGT GTGCAGTCCA 
    TGGGAGATGT ATTGCCAGTT GGACAGAAAT ACTGAAATGA TTGACAACTT GATGGAGAAA 
    GTCGCCATAG AAAGTAAAGA AATACTGCGT GCCAACTCTG GGCCTGATAT CGGAAAACTT 
    TGCCTGGCAA AATATTACGG TGATGGCAAA TGGTACAGGG GTGTGGCTTG CCCTGTTCAA 
    TCTACTACGC TGCTTCTAAA TGTGTTTTTT GTGGACTATG GAAACATGCA TATTGTTGAA 
    AAAAACAATG CTATATCTAT TCCCAGACAT TCAGCAGATT TACTGTTCAC TCCCATGCAG 
    GCATTAAGAT GCAGTCTCTC ACAAATCCCG AAAGAGGACA ACTTTGCAGA TGTCAACAAA 
    TGGCTAGAGA AATCGATTCT CAACAAGCCA CTTCGAGCTG TCGTTGCAGG AAAGAATGAG 
    GATGGGACAG TCTTTTTCGA TCTGTTTGAT GGAGGCATAA ACATCAATGA GAAAGTCAAG 
    GAGCTCATTG CAAGTCAAAA ACCAAAGGAG AAGAAAAGCA GTAGACCTGT GACTGGTCAT 
    AAAGGACACA AAGAACAAAC GAAGAACAAA ATTGGAAAAA CTAAAGCGGG ACAGCACCTG 
    AAATCCACAT GCAAGGGCAA CCAACATCAC CAACATCAAA ATAAGTCTTC AAATGCTCAA 
    AAAGCAAACC CACCAAAGTG GCAAGAGCAA AGTGAAAGAA TCACTCAGTT CAAATCTGAG 
    AAAAGCACAG AAGGAAAAAC AGATCAACAT GTAGACAGTT CCTCTAAACT CACAGAAACT 
    GTTTGCTCTG TCCAATTGCC AAAACTTTCA CAACTACCCT CTAATCCCAA AATAAAATCT 
    GGATTCCGAG GTCTGGGGTT TGTTTCCCAT ATCAATACCG TTGACAGCTT TTTTATCCAA 
    ATGCAAGATG ATGAACAATC CATTCTGAAA ATGAGAGAAG ACCTCAACAC TGAGCTGTTT 
    AAAGAAACCA TGGGGAACAG CACGTTGGTG GACTTCAGAA TGAATGACCT TGTTGCTGCT 
    GAATATGAAG AGGATGGTGC ACTCTACCGA GCAGTTGTGA CAGATAATGC GTCTAATGAC 
    CATTTCAAGG TGGAGTTTGT TGACTATGGA AATACAGCCA CTGTGACTAA GGACAAAACG 
    TACACTCTGA CAAGTGTTTT TTTGTCGCAG CATAGACTAA GCATACCCTG TTCATTGCTA 
    AACAGTGTCT CTTATAAAAG TGATGCTTCT TTCACTGATG CAGTAATGGG AAAACCTCTC 
    ATGGTTGAAA TTGTCAGTCG TTTTGGGACA CAGTGGGAGG TTAATGTTGA GATCCAACAG 
    GACAACCCAA CACTTGACAA TGTGACTGAA AATGAAGCGG TCCAAGCTTT GTGTGCAAGC 
    CAAGTTGACA CAGTTAAAAA GCAAACGAGA GTAACCATCA AGGACAATAG CCAGTCCAAT 
    ACACATTCTG AGAGGGTTAT GTTCACTGCT CAAGGTGAAA AGGTCTTGCA GAATGTGTCC 
    CCAAGGCCCT CGCCAACTAG GCACAAACAT GACATTTGCA AACACCAGGA CTCCAGTCAA 
    CTCCAAGCAA CAACCTTTGG ACCGTCTATG GAGGCCGTGA AGGATATGGC CATTCCATCA 
    CAGGATATAA GAGCCGGACA GGCAGAGAGC GGGACACTGT TGTCCATCTT GGAGAATGGA 
    GATCTATATC TGAGACTCCA CAGGACCACT GAACAGTTTA CTGTACTTGA GAATCTCATA 
    GTTGAACATT TGTCTAAGTG CAAAGTCATG TCTGAGAAGA ATGTCAAAGA AGGACTTCAA 
    TGCTTGGCAA AATCAACCAA AGACGACCAG TGGCACAGAG CAGTTGTACG GCATGCATCT 
    ATTGACCAAG GAAAATGCGT TGTGTTCCTT GTGGATCATG GCACTGTAGA GGACGTCCCA 
    ATGGGCTGCA TCAAAGACAT CTGTAATGAC CTCAAGCAAA CTCCTGTACA AGCAGTCTTG 
    TGCAAGTGGA ATAGCCCTGG CCTCCCTATC AGCGACGCTT ATGAGATATT GAAGAACACT 
    CTGAAACAAA TGATAGGCAA GGATGTGAAA CTGATGTTTG TGTCCTACTC TGAAGCTGAT 
    AACTTGTGGA TGGTCGAAAT CATGATAAAT GGACTGTTCC TTGTTCAGCA AATAAAGACT 
    GCAACTTCTG AATTTACTGA AGAAAGACCA ATCCCCACAA AGACTCAAAC TGTAACCCCA 
    AAAGAGAAAA AATCCAACCT GGACAACAGT CCCCAGAGGT TCTTCCTTGC CCCAGTGAAC 
    ATGGACCTGG GATACTCCGG CTTTGCAGCT GCAGTCACCA CACCAAGTGA ATTCTACATT 
    GTTCTGGAAG ATTTGCTTCT CATCATGAAC ACTGTGTCTA CGATTCTTGA GGATCTTCCA 
    AAGGAGCTGT TGCCATTGCA TGAAGAACAC CTAATTCCAG GGTCATGCTG CCTTGTGATG 
    TCTGATAGTA AGAACAAATG GTGCCGAGCT GAAATCGTCC ATTCCGATAG CGCAGTGGTT 
    GTGATCAATT TGGTTGACTA TGGCCATTGT GTGGACATGC CGTACAAAGA TTGGTCTGAG 
    CTGAGACGAC TTCCTGACCA GTTGACCAAG CTACCAAAGG TCACGTATCC ATGCACTTTG 
    AGAGGAGTAA AATCAGTCGA GGAGCAATGG ACAGATGAAG CAGTTGTTTT CTTTCAAGAG 
    TGCATCTGTA AGAAAAACCT TCAAATATAC TTCAGACAGT ACATTTCTGA AGCACACTGG 
    GAGGTGGACA TTGTAGCAGA TGGCGTTCAC GTGGCTAAAG ACCTGGTTGA TGCTGGCCAT 
    GCAGAATACA TCGACATCAT GCTTGGACTG AGATTTCAAG AACAAAGCCC CATCAAAGCC 
    CCTGAACAGA AACAAGGCAT GAGTCGTGCA GAGAAAACAT CCAAAGTGGA ACCAGAAATG 
    ACACCACCTC GGACAAACAA ACTCCTGAGA AGACTGAATG AAGAACTAGA ACTCGTTGGA 
    CACACTTCAA GTGAGGCTGC CTTCCGTGGA CAAGGATTTG AAAATGCAAG CGAGAAGACA 
    GCCCGTGCTA CTGAGTACTC TGATGGCCAA GGAGCAGAGA TGAAACACTG TAGCACAATG 
    ACTGGAACAA AAAATTGTGC CCTGATGTGA

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

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