ORF » Species Summary » Xenopus tropicalis » cd302 cDNA ORF clone

cd302 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following cd302 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cd302 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
OXa46737 XM_018097297.1
Latest version!		 Xenopus tropicalis CD302 molecule (cd302), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa67516 XM_031893877.1
Latest version!		 Xenopus tropicalis CD302 molecule (cd302), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    cd302 ( XM_018097297.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952786.1 Xenopus tropicalis CD302 molecule (cd302), mRNA.
    Price & Availability↑
    CloneID OXa46737
    Clone ID Related Accession (Same CDS sequence) XM_018097297.1
    Accession Version XM_018097297.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5640bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product lymphocyte antigen 75-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##RefSeq-Attributes-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
    ATGAAGGTTC TGCTGCTATT TCTGCTCTGC GGAGTTGCCT GCTCTTCAGC AGATCCCTCT 
    AGACACGACA ATGATGCAAA TTTGTTCACC ATACGCCATG AACAACATAA AAAATGCCTT 
    GAGTACGACA ATAATCAAAT CACAATGGCC AGCTGTTCTG CAGAAAACGA GGCCCTGTTA 
    TGGAAATGGG TCTCCAACCA TCGACTCTTC CACTTGCAGT CCCAGATGTG CCTTGGGATT 
    AACCTCACAA TTCCACTGGA TCCTTTAAAA ATGGTTCCAT GCAACTCAGA TTTAATGCTG 
    TGGTGGAGAT GCCACGATGG GTCTATATAT GGGGCGTCAC AATACAAACT AACAGAAAAG 
    AATGGAGCTG TGACTGCAAG CTTCTCGTCC AATGACGAAT GGAGAAGGGA TAACACTTTA 
    GAAAATGTGT GTTATCATCT GTACCGTGAA ATATATACTA ACAGAGGGAA CTCTGCCGGA 
    AAGCCATGTG AATTTCCCTT TCTCAGACAT GGAACCTGGC ACCATGACTG TATCAAGGAA 
    GCGAATGACA CCCAGGAATG GTGCGCCACC ACCTCCAATT ATGATACTGA TGGAAAATGG 
    GGATATTGCT TAAAACCAGG CAATGGCTGT CAGGAAAGCT GGGTACAGAA TGTAAAGCTT 
    CAGAGCTGCT ACCAGTTTAA TATGGAATCC ATCCTGACAT GGAAGGAAGC CTACATTTCC 
    TGCCAAAACC AAGGTGCTGA TTTGCTGAGC ATCTCAACCC CAGAAGAACT GCAGGTTTTC 
    ACTGATAAGG AGGATGTTCC TGATTCGGTA TGGATTGGTC TGAACCATCT AGATACATCT 
    GGGGGCTGGC AGTGGTCTGA CCATACACCT CTGAGGTTTA TTAACTGGGA TAAAGACAGA 
    GCCAGCTTTT CACTGCTGGA TGACAAAGAC TGCGCTATAC TGAACACAGA CACCGGCCGA 
    ATGGAAAATA TTCACTGTGA AAAATCTTTG CCTTATATAT GCAAGAAAAA CCTAAGGAAC 
    ACAGAATCTA AAGGTGACTG GTTCTACTCT GAGACCCAAT GTGAGCCGGG CTGGATTCCA 
    TATAATGGGT TTTGTTATAT GTTGCATCAA CCAAGCAGGT GGAACAACGC TGAGCCTTCC 
    TGCAAGAAGG AAGGAGCGGA TCTTATCAGC ATGCATTCCT TGGCCGATAT AGAAATGGTG 
    GTGACAACAT TTCAGGGAGG TACATGCAGC ACTGAGAGTG AAGATATTTG GTCAGGGCTT 
    AAAAATGAAG CTTCCCCGGC CTTCTTTGAG TGGTCTGATG GGACAGAAAC GGACTTTACT 
    TACTGGGATC GAAATGAACC AACTGGTACC TTCAACTCAA TTACTCACTG TGTCTCCTTT 
    GCAGCAAAGT CCGGACGATG GCACGTTAAA TCCTGCAAAG AAGAATTCAA ATATATCTGT 
    AAGAAAAAGG GTGAAATTAA TGACACCATA ACAGACAAGG GATGCCAAAA CGATACGAAC 
    TCGGTAAGAC ACGGCAACTC CTGCTATTGG GTTGACCCGA CAGAAGTGCC CTTCGGAGCC 
    AAATGCAATC TCACAGTGAC CAACAAATTT GAACAGGAGT TCCTTAATTA CCTAATGAAA 
    AACCAAAAGA AATTGAATGG GAAATATTTC TGGACCAGTT TAAGAGATTC AAACCATACA 
    GGAGACTATT GTTGGGAAAC AGCAGATGGG AAACAGGACA TGACCTACTC TAACTGGAAC 
    GTTCTTGAGC CAGCCTCACG TGGTGGATGT GTTGCAATGG GAACCGGCCC GCCTCTTGGT 
    AAATGGGAAG TCAAAGATTG TAAAACCTTT AAAGCTCAAT CTATCTGCAA AAGACAAATT 
    GGATCTCCCA AGCCAGACAC TAGGCCCAAA CCCACGGACA CGTGCCCAGA GGGCTGGTAT 
    TCTGGATCTG ATCTGTTCTG TTACAAACTG TTTCATGTTG AAAGAATATT GAGGAAAAGG 
    ACCTGGGAGG AGGCTGAAGG ATTATGTGAA GAATTTGGAG GACACCTTGC CAGCTTTACT 
    CATGAGAAGG AGAAAGAAAC ATTAACTGCA TTCATATTGT CAGCTACAAG AAGAAATCCT 
    TGGATCTGGA TTGGGCTAAA TAAAAGAAAC CCCGCACTGC ATGGAAGCTG GCAGTGGAGT 
    GATGACCGGC CAGTCTCTGA CGTTGTCTTG CCATCAGATT TTAATGAAGA TGATCATGAT 
    CTCAAAGACT GTGTTGCCTT TATGCCATAC AGGGATAGCT GGGAAAACAG GATAGTGAAT 
    ACAATGAGAG TAATGCACTG TGACGTCACT TTGGAGTGGG TGTGCCAGGT TCCTAAGGAC 
    TGGAAGGATA GCTCTCATCC AACCATTGTA ACTGCACAAG CTCATTTCTG GTTCATAACT 
    GACCCACTCC TTGATTACAA GGAAGCCCAG TTATATTGTT CCAACGCTGG CAGTACATTG 
    GCCTCTGCGC AGTTTCTACA TGAGCTCGAA AACATCCAAG AACAACTGAA ACATCTGGCA 
    GAAGTGAAAA AGATTTTCCC TTTAACACAA AACTGGTGGT TGTCATCTCT TCAGGTAGAA 
    GAATATTCCT GGCGTTTGAG ATTCATATTT GGCACCCATG GTGGAAAGGA TTGCTTGTTT 
    GTGTCGGCGC AGAGTTGGAT CAAAGGTATC GTATGCTGTT TTGCAACAGG AAAATTACTG 
    GAAGAACTCT ATAATGTAAG GTCTAGGTAC CCGTTCAGCC TCGCTCAGTC TGATTTTTGG 
    GCTGTGAGTT TAGGGGTGGC TGCTGGTAAT TACATTTGGA GTTTTACAGG CTACATAGAA 
    GGTATAGACT GCTATCAAAA ACTGCCGTTT ATATGTGAAA GCCGGAACAT GACATTATTG 
    GAAAGAAATA CTACAAGAAG GGACGTATTC AAAGGGGATT GCCCTAAAAC CTGGCTGAGC 
    TTTGGTGACA AGTGCTTTAT AAAGACAAAA CCAAAGTTAA TGACTTATCA TAACGCAGAA 
    GAGGAGTGCA AAGCATTTGG CGCCACCCTT CCCACTATCA CTAGCCAGCG TGAGCAAGAT 
    TTCATTACTT CCCTGCTACC AAACATGACT ACAGCATTTT GGATTGGCCT GAGGTTTTTT 
    CTATATGAAA GCGAATCCAA ATGGATCGAT GACCAGGAGG TCAACTACAC CAACTTCAAT 
    CCACTTCTCC ACAGCTTGGA TCCTTCTTCA GAGTTCCAAC TTCGTGAGAG GAATGAAGTC 
    AGTTATATTC ATTGTACCTT CGTTCTCAAT GATCCCAGAT CAACGTTTCC TGGAACATGG 
    GATACCACGT ATTGTGGGAG TTATCAGTAT TTGTCCCTCT GCCAACAATA TAAAGCCAGT 
    CCTGGAAAAC CAACTCCCAT GGTCGTGCCT GAAGATGTGG AATATCAGGG CCAGAAATAC 
    AAAATGATCC AAAAGAACGT GACTTGGTAT GAGGCCTTGG CGCAATGTAG CCGGCATGAT 
    ATGAAGCTAG CCAGCCTAAC GGATCAGTAC CACGTTGCCT TTCTTGCTCT CAAGGTTGGT 
    GCCTTAGGCC ATGGAATGTG GATTGGACTA TCCAGCAACC AGGATGGAAT CCACTATCGG 
    TGGCAGGATG GGAAGCCTGT GACTGTGAGT CGATGGTCTA AGGATGAAGA AGAGAATGAG 
    AAGTGCGTTT ATATGGATAC TGATGGTTTC TGGAAGACAA GGAACTGTAA TAATCAGATA 
    CCAGGAGCGT TTTGTTACAC TGTACCAGAG GATTCAGTCG CAAAGCCAGT GGAAAACCAC 
    ACAGTGTCTT GTCCTCAAAG AATTAAGGAC ACTCAATGGA TACCGTTCCG GAACAGCTGC 
    TATTCTTTTA TTTCAACCCA TAAAAGGTGG CCCTTGAACG ACACACACTC GCGTTTTGTC 
    TGCAGGGACC TCCACCCAGA TGCAGTTGTG TTGAACATCA GAGATGAAGA GGAAAACAAT 
    TTTGTAATGA ATGAGCTGCA GCCGTACCGT GACCTGGTGA CATGGCTGTG GTTGGGAATG 
    TATTATGACA TCAAAGATAA GCGCCTTTTG TGGTTTGATG AGACGTTTGT GAAGTATTCA 
    AACTGGAGAT ACGGAAGGCC TTATGTTTCC AATGAGATGT TTTATGCAGG AATGAGCTTG 
    GAAGGCTTGT GGGACACCCA CAGTTTCTCC GATAATGAAG AAGTCATGTC ATTTAAATAC 
    AAAACTATCG TTGCTTGTAA AATTGAAATG GGCTCCAAGG AGCAATACAG CCAGTCCCAG 
    CCAGCAGACA TGGTGCATGA AGGTCTCACT TATCATATAA TACAAAAGAG GCTCACCTGG 
    AATGAAGCGG CTGAGGAATG CAATAAAGAT GGAAGTCTGC TGGCAAGTGT TCATAGTGAG 
    GCCCAACAAA TATTTTTGGA AAGCATCGTG AAGCAGGATG GTTTCTCCCT CTGGATTGGA 
    TTATCAAGCT ATGGAGCAAA CCATACGGAC TTCAAATGGG CTGATAATTC TCAGTATGAC 
    TATGAGCACA TTCACTTTGC TCAGATAATT TATGCAAAAA ATTGCATTTT GTTGGACACC 
    AAAGGACTCT GGCACTCCAA CAACTGCACA GACCAACTGG AAGGCGCCAT TTGTTACAAA 
    GCTTCAGTTG CGTCATTAAA AGTAAGAGTG GCCATAGGAG TAACAGCTTT TCTTATCATC 
    CTCTTCCTCC TCTTGGGACT GTTTCTCTTT CACTACAAAG AGCAAATCTC CGGCTTCTCC 
    CCCACAATTC ATTATCGGCA CATGGGGGAC GACACAGAAC CATGCCTACC GTTCCCTACA 
    GGACACACAA GGTCTCTCCC TGCCAGACCA CGTGACTCTC AGGACACTTT TGCTCTTTAT 
    CCTTTGGGCA CCTCTCCTGG AATAACAGAG GAAAAACCTG GAGAAGAAAA GCCAATGAGG 
    GCTCTAATAC TGCTCTCCCT CTGCAGCGCT GCATATTGTG CCGCCGGTCT CCCTGGCTCA 
    GCCCCCCAAG AAAATGGAAC AGGATGTCCA TCTCCAGCCT GGGTTTGGTT TAACAGCAGC 
    TGTTACACTC TCCTCCATAC TACACCAAAG GACTTGCTAA ATATTGAGCC TGCTGAAGAG 
    CTTTGCAAAG CCTATGGTGC CAACTTGATA AGCATCAATA CCGAAGAGGA AAACACATTT 
    ATATTAAAGA TGTTTCAAGC TGAATGGAAG GGTCCAGAGA AAATCTTACT GGGAATGTTC 
    TACGACAGTG ATGACGATAC TATGAAATGG TTTGACCAGT CTGAAGTGAG CTTCACAAAC 
    TGGAGAGGAG GAGAGGAGAA GAATCACAAC AACCTGATCA CGTGCGCCAC AATGAGCACA 
    ATCACGGGGC TGTGGCATCT CGACAGTTGT GAAAACGTGG CTGAAATGGC AACTTTGTGT 
    AAAAAACCCA CAAATCCCCA AAGTGAATAT AACTTATCAG ATCAAGGGGC TTTAACAATC 
    ACCCTGATCA TCTTCATTGT ATTCCTTGTA ATTAGTGTAT CGGCCTTACT CTTAGTATTG 
    TATAGGAGAG GCTCTCCGGG ATTTCCATCA AGGAACTACA CCTTGGCCAG CAACGTTCTT 
    CCTTACACTG ATCAGGATGT ATTGATGGAT ACAGAGGAAA CGGAGGACTC CAATGCCTAG

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

    RefSeq XP_017952786.1
    CDS1..5640
    Translation

    Target ORF information:

    RefSeq Version XM_018097297.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis CD302 molecule (cd302), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018097297.1

    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
    ATGAAGGTTC TGCTGCTATT TCTGCTCTGC GGAGTTGCCT GCTCTTCAGC AGATCCCTCT 
    AGACACGACA ATGATGCAAA TTTGTTCACC ATACGCCATG AACAACATAA AAAATGCCTT 
    GAGTACGACA ATAATCAAAT CACAATGGCC AGCTGTTCTG CAGAAAACGA GGCCCTGTTA 
    TGGAAATGGG TCTCCAACCA TCGACTCTTC CACTTGCAGT CCCAGATGTG CCTTGGGATT 
    AACCTCACAA TTCCACTGGA TCCTTTAAAA ATGGTTCCAT GCAACTCAGA TTTAATGCTG 
    TGGTGGAGAT GCCACGATGG GTCTATATAT GGGGCGTCAC AATACAAACT AACAGAAAAG 
    AATGGAGCTG TGACTGCAAG CTTCTCGTCC AATGACGAAT GGAGAAGGGA TAACACTTTA 
    GAAAATGTGT GTTATCATCT GTACCGTGAA ATATATACTA ACAGAGGGAA CTCTGCCGGA 
    AAGCCATGTG AATTTCCCTT TCTCAGACAT GGAACCTGGC ACCATGACTG TATCAAGGAA 
    GCGAATGACA CCCAGGAATG GTGCGCCACC ACCTCCAATT ATGATACTGA TGGAAAATGG 
    GGATATTGCT TAAAACCAGG CAATGGCTGT CAGGAAAGCT GGGTACAGAA TGTAAAGCTT 
    CAGAGCTGCT ACCAGTTTAA TATGGAATCC ATCCTGACAT GGAAGGAAGC CTACATTTCC 
    TGCCAAAACC AAGGTGCTGA TTTGCTGAGC ATCTCAACCC CAGAAGAACT GCAGGTTTTC 
    ACTGATAAGG AGGATGTTCC TGATTCGGTA TGGATTGGTC TGAACCATCT AGATACATCT 
    GGGGGCTGGC AGTGGTCTGA CCATACACCT CTGAGGTTTA TTAACTGGGA TAAAGACAGA 
    GCCAGCTTTT CACTGCTGGA TGACAAAGAC TGCGCTATAC TGAACACAGA CACCGGCCGA 
    ATGGAAAATA TTCACTGTGA AAAATCTTTG CCTTATATAT GCAAGAAAAA CCTAAGGAAC 
    ACAGAATCTA AAGGTGACTG GTTCTACTCT GAGACCCAAT GTGAGCCGGG CTGGATTCCA 
    TATAATGGGT TTTGTTATAT GTTGCATCAA CCAAGCAGGT GGAACAACGC TGAGCCTTCC 
    TGCAAGAAGG AAGGAGCGGA TCTTATCAGC ATGCATTCCT TGGCCGATAT AGAAATGGTG 
    GTGACAACAT TTCAGGGAGG TACATGCAGC ACTGAGAGTG AAGATATTTG GTCAGGGCTT 
    AAAAATGAAG CTTCCCCGGC CTTCTTTGAG TGGTCTGATG GGACAGAAAC GGACTTTACT 
    TACTGGGATC GAAATGAACC AACTGGTACC TTCAACTCAA TTACTCACTG TGTCTCCTTT 
    GCAGCAAAGT CCGGACGATG GCACGTTAAA TCCTGCAAAG AAGAATTCAA ATATATCTGT 
    AAGAAAAAGG GTGAAATTAA TGACACCATA ACAGACAAGG GATGCCAAAA CGATACGAAC 
    TCGGTAAGAC ACGGCAACTC CTGCTATTGG GTTGACCCGA CAGAAGTGCC CTTCGGAGCC 
    AAATGCAATC TCACAGTGAC CAACAAATTT GAACAGGAGT TCCTTAATTA CCTAATGAAA 
    AACCAAAAGA AATTGAATGG GAAATATTTC TGGACCAGTT TAAGAGATTC AAACCATACA 
    GGAGACTATT GTTGGGAAAC AGCAGATGGG AAACAGGACA TGACCTACTC TAACTGGAAC 
    GTTCTTGAGC CAGCCTCACG TGGTGGATGT GTTGCAATGG GAACCGGCCC GCCTCTTGGT 
    AAATGGGAAG TCAAAGATTG TAAAACCTTT AAAGCTCAAT CTATCTGCAA AAGACAAATT 
    GGATCTCCCA AGCCAGACAC TAGGCCCAAA CCCACGGACA CGTGCCCAGA GGGCTGGTAT 
    TCTGGATCTG ATCTGTTCTG TTACAAACTG TTTCATGTTG AAAGAATATT GAGGAAAAGG 
    ACCTGGGAGG AGGCTGAAGG ATTATGTGAA GAATTTGGAG GACACCTTGC CAGCTTTACT 
    CATGAGAAGG AGAAAGAAAC ATTAACTGCA TTCATATTGT CAGCTACAAG AAGAAATCCT 
    TGGATCTGGA TTGGGCTAAA TAAAAGAAAC CCCGCACTGC ATGGAAGCTG GCAGTGGAGT 
    GATGACCGGC CAGTCTCTGA CGTTGTCTTG CCATCAGATT TTAATGAAGA TGATCATGAT 
    CTCAAAGACT GTGTTGCCTT TATGCCATAC AGGGATAGCT GGGAAAACAG GATAGTGAAT 
    ACAATGAGAG TAATGCACTG TGACGTCACT TTGGAGTGGG TGTGCCAGGT TCCTAAGGAC 
    TGGAAGGATA GCTCTCATCC AACCATTGTA ACTGCACAAG CTCATTTCTG GTTCATAACT 
    GACCCACTCC TTGATTACAA GGAAGCCCAG TTATATTGTT CCAACGCTGG CAGTACATTG 
    GCCTCTGCGC AGTTTCTACA TGAGCTCGAA AACATCCAAG AACAACTGAA ACATCTGGCA 
    GAAGTGAAAA AGATTTTCCC TTTAACACAA AACTGGTGGT TGTCATCTCT TCAGGTAGAA 
    GAATATTCCT GGCGTTTGAG ATTCATATTT GGCACCCATG GTGGAAAGGA TTGCTTGTTT 
    GTGTCGGCGC AGAGTTGGAT CAAAGGTATC GTATGCTGTT TTGCAACAGG AAAATTACTG 
    GAAGAACTCT ATAATGTAAG GTCTAGGTAC CCGTTCAGCC TCGCTCAGTC TGATTTTTGG 
    GCTGTGAGTT TAGGGGTGGC TGCTGGTAAT TACATTTGGA GTTTTACAGG CTACATAGAA 
    GGTATAGACT GCTATCAAAA ACTGCCGTTT ATATGTGAAA GCCGGAACAT GACATTATTG 
    GAAAGAAATA CTACAAGAAG GGACGTATTC AAAGGGGATT GCCCTAAAAC CTGGCTGAGC 
    TTTGGTGACA AGTGCTTTAT AAAGACAAAA CCAAAGTTAA TGACTTATCA TAACGCAGAA 
    GAGGAGTGCA AAGCATTTGG CGCCACCCTT CCCACTATCA CTAGCCAGCG TGAGCAAGAT 
    TTCATTACTT CCCTGCTACC AAACATGACT ACAGCATTTT GGATTGGCCT GAGGTTTTTT 
    CTATATGAAA GCGAATCCAA ATGGATCGAT GACCAGGAGG TCAACTACAC CAACTTCAAT 
    CCACTTCTCC ACAGCTTGGA TCCTTCTTCA GAGTTCCAAC TTCGTGAGAG GAATGAAGTC 
    AGTTATATTC ATTGTACCTT CGTTCTCAAT GATCCCAGAT CAACGTTTCC TGGAACATGG 
    GATACCACGT ATTGTGGGAG TTATCAGTAT TTGTCCCTCT GCCAACAATA TAAAGCCAGT 
    CCTGGAAAAC CAACTCCCAT GGTCGTGCCT GAAGATGTGG AATATCAGGG CCAGAAATAC 
    AAAATGATCC AAAAGAACGT GACTTGGTAT GAGGCCTTGG CGCAATGTAG CCGGCATGAT 
    ATGAAGCTAG CCAGCCTAAC GGATCAGTAC CACGTTGCCT TTCTTGCTCT CAAGGTTGGT 
    GCCTTAGGCC ATGGAATGTG GATTGGACTA TCCAGCAACC AGGATGGAAT CCACTATCGG 
    TGGCAGGATG GGAAGCCTGT GACTGTGAGT CGATGGTCTA AGGATGAAGA AGAGAATGAG 
    AAGTGCGTTT ATATGGATAC TGATGGTTTC TGGAAGACAA GGAACTGTAA TAATCAGATA 
    CCAGGAGCGT TTTGTTACAC TGTACCAGAG GATTCAGTCG CAAAGCCAGT GGAAAACCAC 
    ACAGTGTCTT GTCCTCAAAG AATTAAGGAC ACTCAATGGA TACCGTTCCG GAACAGCTGC 
    TATTCTTTTA TTTCAACCCA TAAAAGGTGG CCCTTGAACG ACACACACTC GCGTTTTGTC 
    TGCAGGGACC TCCACCCAGA TGCAGTTGTG TTGAACATCA GAGATGAAGA GGAAAACAAT 
    TTTGTAATGA ATGAGCTGCA GCCGTACCGT GACCTGGTGA CATGGCTGTG GTTGGGAATG 
    TATTATGACA TCAAAGATAA GCGCCTTTTG TGGTTTGATG AGACGTTTGT GAAGTATTCA 
    AACTGGAGAT ACGGAAGGCC TTATGTTTCC AATGAGATGT TTTATGCAGG AATGAGCTTG 
    GAAGGCTTGT GGGACACCCA CAGTTTCTCC GATAATGAAG AAGTCATGTC ATTTAAATAC 
    AAAACTATCG TTGCTTGTAA AATTGAAATG GGCTCCAAGG AGCAATACAG CCAGTCCCAG 
    CCAGCAGACA TGGTGCATGA AGGTCTCACT TATCATATAA TACAAAAGAG GCTCACCTGG 
    AATGAAGCGG CTGAGGAATG CAATAAAGAT GGAAGTCTGC TGGCAAGTGT TCATAGTGAG 
    GCCCAACAAA TATTTTTGGA AAGCATCGTG AAGCAGGATG GTTTCTCCCT CTGGATTGGA 
    TTATCAAGCT ATGGAGCAAA CCATACGGAC TTCAAATGGG CTGATAATTC TCAGTATGAC 
    TATGAGCACA TTCACTTTGC TCAGATAATT TATGCAAAAA ATTGCATTTT GTTGGACACC 
    AAAGGACTCT GGCACTCCAA CAACTGCACA GACCAACTGG AAGGCGCCAT TTGTTACAAA 
    GCTTCAGTTG CGTCATTAAA AGTAAGAGTG GCCATAGGAG TAACAGCTTT TCTTATCATC 
    CTCTTCCTCC TCTTGGGACT GTTTCTCTTT CACTACAAAG AGCAAATCTC CGGCTTCTCC 
    CCCACAATTC ATTATCGGCA CATGGGGGAC GACACAGAAC CATGCCTACC GTTCCCTACA 
    GGACACACAA GGTCTCTCCC TGCCAGACCA CGTGACTCTC AGGACACTTT TGCTCTTTAT 
    CCTTTGGGCA CCTCTCCTGG AATAACAGAG GAAAAACCTG GAGAAGAAAA GCCAATGAGG 
    GCTCTAATAC TGCTCTCCCT CTGCAGCGCT GCATATTGTG CCGCCGGTCT CCCTGGCTCA 
    GCCCCCCAAG AAAATGGAAC AGGATGTCCA TCTCCAGCCT GGGTTTGGTT TAACAGCAGC 
    TGTTACACTC TCCTCCATAC TACACCAAAG GACTTGCTAA ATATTGAGCC TGCTGAAGAG 
    CTTTGCAAAG CCTATGGTGC CAACTTGATA AGCATCAATA CCGAAGAGGA AAACACATTT 
    ATATTAAAGA TGTTTCAAGC TGAATGGAAG GGTCCAGAGA AAATCTTACT GGGAATGTTC 
    TACGACAGTG ATGACGATAC TATGAAATGG TTTGACCAGT CTGAAGTGAG CTTCACAAAC 
    TGGAGAGGAG GAGAGGAGAA GAATCACAAC AACCTGATCA CGTGCGCCAC AATGAGCACA 
    ATCACGGGGC TGTGGCATCT CGACAGTTGT GAAAACGTGG CTGAAATGGC AACTTTGTGT 
    AAAAAACCCA CAAATCCCCA AAGTGAATAT AACTTATCAG ATCAAGGGGC TTTAACAATC 
    ACCCTGATCA TCTTCATTGT ATTCCTTGTA ATTAGTGTAT CGGCCTTACT CTTAGTATTG 
    TATAGGAGAG GCTCTCCGGG ATTTCCATCA AGGAACTACA CCTTGGCCAG CAACGTTCTT 
    CCTTACACTG ATCAGGATGT ATTGATGGAT ACAGAGGAAA CGGAGGACTC CAATGCCTAG

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

    cd302 ( XM_031893877.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031749737.1 Xenopus tropicalis CD302 molecule (cd302), mRNA.
    Price & Availability↑
    CloneID OXa67516
    Clone ID Related Accession (Same CDS sequence) XM_031893877.1
    Accession Version XM_031893877.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5517bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product lymphocyte antigen 75
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030685.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-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
    ATGAAGGTTC TGCTGCTATT TCTGCTCTGC GGAGTTGCCT GCTCTTCAGC AGATCCCTCT 
    AGACACGACA ATGATGCAAA TTTGTTCACC ATACGCCATG AACAACATAA AAAATGCCTT 
    GAGTACGACA ATAATCAAAT CACAATGGCC AGCTGTTCTG CAGAAAACGA GGCCCTGTTA 
    TGGAAATGGG TCTCCAACCA TCGACTCTTC CACTTGCAGT CCCAGATGTG CCTTGGGATT 
    AACCTCACAA TTCCACTGGA TCCTTTAAAA ATGGTTCCAT GCAACTCAGA TTTAATGCTG 
    TGGTGGAGAT GCCACGATGG GTCTATATAT GGGGCGTCAC AATACAAACT AACAGAAAAG 
    AATGGAGCTG TGACTGCAAG CTTCTCGTCC AATGACGAAT GGAGAAGGGA TAACACTTTA 
    GAAAATGTGT GTTATCATCT GTACCGTGAA ATATATACTA ACAGAGGGAA CTCTGCCGGA 
    AAGCCATGTG AATTTCCCTT TCTCAGACAT GGAACCTGGC ACCATGACTG TATCAAGGAA 
    GCGAATGACA CCCAGGAATG GTGCGCCACC ACCTCCAATT ATGATACTGA TGGAAAATGG 
    GGATATTGCT TAAAACCAGG CAATGGCTGT CAGGAAAGCT GGGTACAGAA TGTAAAGCTT 
    CAGAGCTGCT ACCAGTTTAA TATGGAATCC ATCCTGACAT GGAAGGAAGC CTACATTTCC 
    TGCCAAAACC AAGGTGCTGA TTTGCTGAGC ATCTCAACCC CAGAAGAACT GCAGGTTTTC 
    ACTGATAAGG AGGATGTTCC TGATTCGGTA TGGATTGGTC TGAACCATCT AGATACATCT 
    GGGGGCTGGC AGTGGTCTGA CCATACACCT CTGAGGTTTA TTAACTGGGA TAAAGACAGA 
    GCCAGCTTTT CACTGCTGGA TGACAAAGAC TGCGCTATAC TGAACACAGA CACCGGCCGA 
    ATGGAAAATA TTCACTGTGA AAAATCTTTG CCTTATATAT GCAAGAAAAA CCTAAGGAAC 
    ACAGAATCTA AAGGTGACTG GTTCTACTCT GAGACCCAAT GTGAGCCGGG CTGGATTCCA 
    TATAATGGGT TTTGTTATAT GTTGCATCAA CCAAGCAGGT GGAACAACGC TGAGCCTTCC 
    TGCAAGAAGG AAGGAGCGGA TCTTATCAGC ATGCATTCCT TGGCCGATAT AGAAATGGTG 
    GTGACAACAT TTCAGGGAGA GAGTGAAGAT ATTTGGTCAG GGCTTAAAAA TGAAGCTTCC 
    CCGGCCTTCT TTGAGTGGTC TGATGGGACA GAAACGGACT TTACTTACTG GGATCGAAAT 
    GAACCAACTG GTACCTTCAA CTCAATTACT CACTGTGTCT CCTTTGCAGC AAAGTCCGGA 
    CGATGGCACG TTAAATCCTG CAAAGAAGAA TTCAAATATA TCTGTAAGAA AAAGGGTGAA 
    ATTAATGACA CCATAACAGA CAAGGGATGC CAAAACGATA CGAACTCGGT AAGACACGGC 
    AACTCCTGCT ATTGGGTTGA CCCGACAGAA GTGCCCTTCG GAGCCAAATG CAATCTCACA 
    GTGACCAACA AATTTGAACA GGAGTTCCTT AATTACCTAA TGAAAAACCA AAAGAAATTG 
    AATGGGAAAT ATTTCTGGAC CAGTTTAAGA GATTCAAACC ATACAGGAGA CTATTGTTGG 
    GAAACAGCAG ATGGGAAACA GGACATGACC TACTCTAACT GGAACGTTCT TGAGCCAGCC 
    TCACGTGGTG GATGTGTTGC AATGGGAACC GGCCCGCCTC TTGGTAAATG GGAAGTCAAA 
    GATTGTAAAA CCTTTAAAGC TCAATCTATC TGCAAAAGAC AAATTGGATC TCCCAAGCCA 
    GACACTAGGC CCAAACCCAC GGACACGTGC CCAGAGGGCT GGTATTCTGG ATCTGATCTG 
    TTCTGTTACA AACTGTTTCA TGTTGAAAGA ATATTGAGGA AAAGGACCTG GGAGGAGGCT 
    GAAGGATTAT GTGAAGAATT TGGAGGACAC CTTGCCAGCT TTACTCATGA GAAGGAGAAA 
    GAAACATTAA CTGCATTCAT ATTGTCAGCT ACAAGAAGAA ATCCTTGGAT CTGGATTGGG 
    CTAAATAAAA GAAACCCCGC ACTGCATGGA AGCTGGCAGT GGAGTGATGA CCGGCCAGTC 
    TCTGACGTTG TCTTGCCATC AGATTTTAAT GAAGATGATC ATGATCTCAA AGACTGTGTT 
    GCCTTTATGC CATACAGGGA TAGCTGGGAA AACAGGATAG TGAATACAAT GAGAGTAATG 
    CACTGTGACG TCACTTTGGA GTGGGTGTGC CAGGTTCCTA AGGGAACCCC ATTGAAGATA 
    CCTGAATGGT ATATACCAGA CTGGAAGGAT AGCTCTCATC CAACCATTGT AACTGCACAA 
    GCTCATTTCT GGTTCATAAC TGACCCACTC CTTGATTACA AGGAAGCCCA GTTATATTGT 
    TCCAACGCTG GCAGTACATT GGCCTCTGCG CAGTTTCTAC ATGAGCTCGA AAACATCCAA 
    GAACAACTGA AACATCTGGC AGAAGTGAAA AAGATTTTCC CTTTAACACA AAACTGGTGG 
    TTGTCATCTC TTCAGGTAGA AGAATATTCC TGGCGTTTGA GATTCATATT TGGCACCCAT 
    GGTGGAAAGG ATTGCTTGTT TGTGTCGGCG CAGAGTTGGA TCAAAGGCTA CATAGAAGGT 
    ATAGACTGCT ATCAAAAACT GCCGTTTATA TGTGAAAGCC GGAACATGAC ATTATTGGAA 
    AGAAATACTA CAAGAAGGGA CGTATTCAAA GGGGATTGCC CTAAAACCTG GCTGAGCTTT 
    GGTGACAAGT GCTTTATAAA GACAAAACCA AAGTTAATGA CTTATCATAA CGCAGAAGAG 
    GAGTGCAAAG CATTTGGCGC CACCCTTCCC ACTATCACTA GCCAGCGTGA GCAAGATTTC 
    ATTACTTCCC TGCTACCAAA CATGACTACA GCATTTTGGA TTGGCCTGAG GTTTTTTCTA 
    TATGAAAGCG AATCCAAATG GATCGATGAC CAGGAGGTCA ACTACACCAA CTTCAATCCA 
    CTTCTCCACA GCTTGGATCC TTCTTCAGAG TTCCAACTTC GTGAGAGGAA TGAAGTCAGT 
    TATATTCATT GTACCTTCGT TCTCAATGAT CCCAGATCAA CGTTTCCTGG AACATGGGAT 
    ACCACGTATT GTGGGAGTTA TCAGTATTTG TCCCTCTGCC AACAATATAA AGCCAGTCCT 
    GGAAAACCAA CTCCCATGGT CGTGCCTGAA GATGTGGAAT ATCAGGGCCA GAAATACAAA 
    ATGATCCAAA AGAACGTGAC TTGGTATGAG GCCTTGGCGC AATGTAGCCG GCATGATATG 
    AAGCTAGCCA GCCTAACGGA TCAGTACCAC GTTGCCTTTC TTGCTCTCAA GGTTGGTGCC 
    TTAGGCCATG GAATGTGGAT TGGACTATCC AGCAACCAGG ATGGAATCCA CTATCGGTGG 
    CAGGATGGGA AGCCTGTGAC TGTGAGTCGA TGGTCTAAGG ATGAAGAAGA GAATGAGAAG 
    TGCGTTTATA TGGATACTGA TGGTTTCTGG AAGACAAGGA ACTGTAATAA TCAGATACCA 
    GGAGCGTTTT GTTACACTGT ACCAGAGGAT TCAGTCGCAA AGCCAGTGGA AAACCACACA 
    GTGTCTTGTC CTCAAAGAAT TAAGGACACT CAATGGATAC CGTTCCGGAA CAGCTGCTAT 
    TCTTTTATTT CAACCCATAA AAGGTGGCCC TTGAACGACA CACACTCGCG TTTTGTCTGC 
    AGGGACCTCC ACCCAGATGC AGTTGTGTTG AACATCAGAG ATGAAGAGGA AAACAATTTT 
    GTAATGAATG AGCTGCAGCC GTACCGTGAC CTGGTGACAT GGCTGTGGTT GGGAATGTAT 
    TATGACATCA AAGATAAGCG CCTTTTGTGG TTTGATGAGA CGTTTGTGAA GTATTCAAAC 
    TGGAGATACG GAAGGCCTTA TGTTTCCAAT GAGATGTTTT ATGCAGGAAT GAGCTTGGAA 
    GGCTTGTGGG ACACCCACAG TTTCTCCGAT AATGAAGAAG TCATGTCATT TAAATACAAA 
    ACTATCGTTG CTTGTAAAAT TGAAATGGGC TCCAAGGAGC AATACAGCCA GTCCCAGCCA 
    GCAGACATGG TGCATGAAGG TCTCACTTAT CATATAATAC AAAAGAGGCT CACCTGGAAT 
    GAAGCGGCTG AGGAATGCAA TAAAGATGGA AGTCTGCTGG CAAGTGTTCA TAGTGAGGCC 
    CAACAAATAT TTTTGGAAAG CATCGTGAAG CAGGATGGTT TCTCCCTCTG GATTGGATTA 
    TCAAGCTATG GAGCAAACCA TACGGACTTC AAATGGGCTG ATAATTCTCA GTATGACTAT 
    GAGCACATTC ACTTTGCTCA GATAATTTAT GCAAAAAATT GCATTTTGTT GGACACCAAA 
    GGACTCTGGC ACTCCAACAA CTGCACAGAC CAACTGGAAG GCGCCATTTG TTACAAAGCT 
    TCAGTTGCGT CATTAAAAGT AAGAGTGGCC ATAGGAGTAA CAGCTTTTCT TATCATCCTC 
    TTCCTCCTCT TGGGACTGTT TCTCTTTCAC TACAAAGAGC AAATCTCCGG CTTCTCCCCC 
    ACAATTCATT ATCGGCACAT GGGGGACGAC ACAGAACCAT GCCTACCGTT CCCTACAGGA 
    CACACAAGGT CTCTCCCTGC CAGACCACGT GACTCTCAGG ACACTTTTGC TCTTTATCCT 
    TTGGGCACCT CTCCTGGAAT AACAGAGGAA AAACCTGGAG AAGAAAAGCC AATGAGGGCT 
    CTAATACTGC TCTCCCTCTG CAGCGCTGCA TATTGTGCCG CCGGTCTCCC TGGCTCAGCC 
    CCCCAAGAAA ATGGAACAGG ATGTCCATCT CCAGCCTGGG TTTGGTTTAA CAGCAGCTGT 
    TACACTCTCC TCCATACTAC ACCAAAGGAC TTGCTAAATA TTGAGCCTGC TGAAGAGCTT 
    TGCAAAGCCT ATGGTGCCAA CTTGATAAGC ATCAATACCG AAGAGGAAAA CACATTTATA 
    TTAAAGATGT TTCAAGCTGA ATGGAAGGGT CCAGAGAAAA TCTTACTGGG AATGTTCTAC 
    GACAGTGATG ACGATACTAT GAAATGGTTT GACCAGTCTG AAGTGAGCTT CACAAACTGG 
    AGAGGAGGAG AGGAGAAGAA TCACAACAAC CTGATCACGT GCGCCACAAT GAGCACAATC 
    ACGGGGCTGT GGCATCTCGA CAGTTGTGAA AACGTGGCTG AAATGGCAAC TTTGTGTAAA 
    AAACCCACAA ATCCCCAAAG TGAATATAAC TTATCAGATC AAGGGGCTTT AACAATCACC 
    CTGATCATCT TCATTGTATT CCTTGTAATT AGTGTATCGG CCTTACTCTT AGTATTGTAT 
    AGGAGAGGCT CTCCGGGATT TCCATCAAGG AACTACACCT TGGCCAGCAA CGTTCTTCCT 
    TACACTGATC AGGATGTATT GATGGATACA GAGGAAACGG AGGACTCCAA TGCCTAG

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

    RefSeq XP_031749737.1
    CDS91..5607
    Translation

    Target ORF information:

    RefSeq Version XM_031893877.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis CD302 molecule (cd302), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031893877.1

    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
    ATGAAGGTTC TGCTGCTATT TCTGCTCTGC GGAGTTGCCT GCTCTTCAGC AGATCCCTCT 
    AGACACGACA ATGATGCAAA TTTGTTCACC ATACGCCATG AACAACATAA AAAATGCCTT 
    GAGTACGACA ATAATCAAAT CACAATGGCC AGCTGTTCTG CAGAAAACGA GGCCCTGTTA 
    TGGAAATGGG TCTCCAACCA TCGACTCTTC CACTTGCAGT CCCAGATGTG CCTTGGGATT 
    AACCTCACAA TTCCACTGGA TCCTTTAAAA ATGGTTCCAT GCAACTCAGA TTTAATGCTG 
    TGGTGGAGAT GCCACGATGG GTCTATATAT GGGGCGTCAC AATACAAACT AACAGAAAAG 
    AATGGAGCTG TGACTGCAAG CTTCTCGTCC AATGACGAAT GGAGAAGGGA TAACACTTTA 
    GAAAATGTGT GTTATCATCT GTACCGTGAA ATATATACTA ACAGAGGGAA CTCTGCCGGA 
    AAGCCATGTG AATTTCCCTT TCTCAGACAT GGAACCTGGC ACCATGACTG TATCAAGGAA 
    GCGAATGACA CCCAGGAATG GTGCGCCACC ACCTCCAATT ATGATACTGA TGGAAAATGG 
    GGATATTGCT TAAAACCAGG CAATGGCTGT CAGGAAAGCT GGGTACAGAA TGTAAAGCTT 
    CAGAGCTGCT ACCAGTTTAA TATGGAATCC ATCCTGACAT GGAAGGAAGC CTACATTTCC 
    TGCCAAAACC AAGGTGCTGA TTTGCTGAGC ATCTCAACCC CAGAAGAACT GCAGGTTTTC 
    ACTGATAAGG AGGATGTTCC TGATTCGGTA TGGATTGGTC TGAACCATCT AGATACATCT 
    GGGGGCTGGC AGTGGTCTGA CCATACACCT CTGAGGTTTA TTAACTGGGA TAAAGACAGA 
    GCCAGCTTTT CACTGCTGGA TGACAAAGAC TGCGCTATAC TGAACACAGA CACCGGCCGA 
    ATGGAAAATA TTCACTGTGA AAAATCTTTG CCTTATATAT GCAAGAAAAA CCTAAGGAAC 
    ACAGAATCTA AAGGTGACTG GTTCTACTCT GAGACCCAAT GTGAGCCGGG CTGGATTCCA 
    TATAATGGGT TTTGTTATAT GTTGCATCAA CCAAGCAGGT GGAACAACGC TGAGCCTTCC 
    TGCAAGAAGG AAGGAGCGGA TCTTATCAGC ATGCATTCCT TGGCCGATAT AGAAATGGTG 
    GTGACAACAT TTCAGGGAGA GAGTGAAGAT ATTTGGTCAG GGCTTAAAAA TGAAGCTTCC 
    CCGGCCTTCT TTGAGTGGTC TGATGGGACA GAAACGGACT TTACTTACTG GGATCGAAAT 
    GAACCAACTG GTACCTTCAA CTCAATTACT CACTGTGTCT CCTTTGCAGC AAAGTCCGGA 
    CGATGGCACG TTAAATCCTG CAAAGAAGAA TTCAAATATA TCTGTAAGAA AAAGGGTGAA 
    ATTAATGACA CCATAACAGA CAAGGGATGC CAAAACGATA CGAACTCGGT AAGACACGGC 
    AACTCCTGCT ATTGGGTTGA CCCGACAGAA GTGCCCTTCG GAGCCAAATG CAATCTCACA 
    GTGACCAACA AATTTGAACA GGAGTTCCTT AATTACCTAA TGAAAAACCA AAAGAAATTG 
    AATGGGAAAT ATTTCTGGAC CAGTTTAAGA GATTCAAACC ATACAGGAGA CTATTGTTGG 
    GAAACAGCAG ATGGGAAACA GGACATGACC TACTCTAACT GGAACGTTCT TGAGCCAGCC 
    TCACGTGGTG GATGTGTTGC AATGGGAACC GGCCCGCCTC TTGGTAAATG GGAAGTCAAA 
    GATTGTAAAA CCTTTAAAGC TCAATCTATC TGCAAAAGAC AAATTGGATC TCCCAAGCCA 
    GACACTAGGC CCAAACCCAC GGACACGTGC CCAGAGGGCT GGTATTCTGG ATCTGATCTG 
    TTCTGTTACA AACTGTTTCA TGTTGAAAGA ATATTGAGGA AAAGGACCTG GGAGGAGGCT 
    GAAGGATTAT GTGAAGAATT TGGAGGACAC CTTGCCAGCT TTACTCATGA GAAGGAGAAA 
    GAAACATTAA CTGCATTCAT ATTGTCAGCT ACAAGAAGAA ATCCTTGGAT CTGGATTGGG 
    CTAAATAAAA GAAACCCCGC ACTGCATGGA AGCTGGCAGT GGAGTGATGA CCGGCCAGTC 
    TCTGACGTTG TCTTGCCATC AGATTTTAAT GAAGATGATC ATGATCTCAA AGACTGTGTT 
    GCCTTTATGC CATACAGGGA TAGCTGGGAA AACAGGATAG TGAATACAAT GAGAGTAATG 
    CACTGTGACG TCACTTTGGA GTGGGTGTGC CAGGTTCCTA AGGGAACCCC ATTGAAGATA 
    CCTGAATGGT ATATACCAGA CTGGAAGGAT AGCTCTCATC CAACCATTGT AACTGCACAA 
    GCTCATTTCT GGTTCATAAC TGACCCACTC CTTGATTACA AGGAAGCCCA GTTATATTGT 
    TCCAACGCTG GCAGTACATT GGCCTCTGCG CAGTTTCTAC ATGAGCTCGA AAACATCCAA 
    GAACAACTGA AACATCTGGC AGAAGTGAAA AAGATTTTCC CTTTAACACA AAACTGGTGG 
    TTGTCATCTC TTCAGGTAGA AGAATATTCC TGGCGTTTGA GATTCATATT TGGCACCCAT 
    GGTGGAAAGG ATTGCTTGTT TGTGTCGGCG CAGAGTTGGA TCAAAGGCTA CATAGAAGGT 
    ATAGACTGCT ATCAAAAACT GCCGTTTATA TGTGAAAGCC GGAACATGAC ATTATTGGAA 
    AGAAATACTA CAAGAAGGGA CGTATTCAAA GGGGATTGCC CTAAAACCTG GCTGAGCTTT 
    GGTGACAAGT GCTTTATAAA GACAAAACCA AAGTTAATGA CTTATCATAA CGCAGAAGAG 
    GAGTGCAAAG CATTTGGCGC CACCCTTCCC ACTATCACTA GCCAGCGTGA GCAAGATTTC 
    ATTACTTCCC TGCTACCAAA CATGACTACA GCATTTTGGA TTGGCCTGAG GTTTTTTCTA 
    TATGAAAGCG AATCCAAATG GATCGATGAC CAGGAGGTCA ACTACACCAA CTTCAATCCA 
    CTTCTCCACA GCTTGGATCC TTCTTCAGAG TTCCAACTTC GTGAGAGGAA TGAAGTCAGT 
    TATATTCATT GTACCTTCGT TCTCAATGAT CCCAGATCAA CGTTTCCTGG AACATGGGAT 
    ACCACGTATT GTGGGAGTTA TCAGTATTTG TCCCTCTGCC AACAATATAA AGCCAGTCCT 
    GGAAAACCAA CTCCCATGGT CGTGCCTGAA GATGTGGAAT ATCAGGGCCA GAAATACAAA 
    ATGATCCAAA AGAACGTGAC TTGGTATGAG GCCTTGGCGC AATGTAGCCG GCATGATATG 
    AAGCTAGCCA GCCTAACGGA TCAGTACCAC GTTGCCTTTC TTGCTCTCAA GGTTGGTGCC 
    TTAGGCCATG GAATGTGGAT TGGACTATCC AGCAACCAGG ATGGAATCCA CTATCGGTGG 
    CAGGATGGGA AGCCTGTGAC TGTGAGTCGA TGGTCTAAGG ATGAAGAAGA GAATGAGAAG 
    TGCGTTTATA TGGATACTGA TGGTTTCTGG AAGACAAGGA ACTGTAATAA TCAGATACCA 
    GGAGCGTTTT GTTACACTGT ACCAGAGGAT TCAGTCGCAA AGCCAGTGGA AAACCACACA 
    GTGTCTTGTC CTCAAAGAAT TAAGGACACT CAATGGATAC CGTTCCGGAA CAGCTGCTAT 
    TCTTTTATTT CAACCCATAA AAGGTGGCCC TTGAACGACA CACACTCGCG TTTTGTCTGC 
    AGGGACCTCC ACCCAGATGC AGTTGTGTTG AACATCAGAG ATGAAGAGGA AAACAATTTT 
    GTAATGAATG AGCTGCAGCC GTACCGTGAC CTGGTGACAT GGCTGTGGTT GGGAATGTAT 
    TATGACATCA AAGATAAGCG CCTTTTGTGG TTTGATGAGA CGTTTGTGAA GTATTCAAAC 
    TGGAGATACG GAAGGCCTTA TGTTTCCAAT GAGATGTTTT ATGCAGGAAT GAGCTTGGAA 
    GGCTTGTGGG ACACCCACAG TTTCTCCGAT AATGAAGAAG TCATGTCATT TAAATACAAA 
    ACTATCGTTG CTTGTAAAAT TGAAATGGGC TCCAAGGAGC AATACAGCCA GTCCCAGCCA 
    GCAGACATGG TGCATGAAGG TCTCACTTAT CATATAATAC AAAAGAGGCT CACCTGGAAT 
    GAAGCGGCTG AGGAATGCAA TAAAGATGGA AGTCTGCTGG CAAGTGTTCA TAGTGAGGCC 
    CAACAAATAT TTTTGGAAAG CATCGTGAAG CAGGATGGTT TCTCCCTCTG GATTGGATTA 
    TCAAGCTATG GAGCAAACCA TACGGACTTC AAATGGGCTG ATAATTCTCA GTATGACTAT 
    GAGCACATTC ACTTTGCTCA GATAATTTAT GCAAAAAATT GCATTTTGTT GGACACCAAA 
    GGACTCTGGC ACTCCAACAA CTGCACAGAC CAACTGGAAG GCGCCATTTG TTACAAAGCT 
    TCAGTTGCGT CATTAAAAGT AAGAGTGGCC ATAGGAGTAA CAGCTTTTCT TATCATCCTC 
    TTCCTCCTCT TGGGACTGTT TCTCTTTCAC TACAAAGAGC AAATCTCCGG CTTCTCCCCC 
    ACAATTCATT ATCGGCACAT GGGGGACGAC ACAGAACCAT GCCTACCGTT CCCTACAGGA 
    CACACAAGGT CTCTCCCTGC CAGACCACGT GACTCTCAGG ACACTTTTGC TCTTTATCCT 
    TTGGGCACCT CTCCTGGAAT AACAGAGGAA AAACCTGGAG AAGAAAAGCC AATGAGGGCT 
    CTAATACTGC TCTCCCTCTG CAGCGCTGCA TATTGTGCCG CCGGTCTCCC TGGCTCAGCC 
    CCCCAAGAAA ATGGAACAGG ATGTCCATCT CCAGCCTGGG TTTGGTTTAA CAGCAGCTGT 
    TACACTCTCC TCCATACTAC ACCAAAGGAC TTGCTAAATA TTGAGCCTGC TGAAGAGCTT 
    TGCAAAGCCT ATGGTGCCAA CTTGATAAGC ATCAATACCG AAGAGGAAAA CACATTTATA 
    TTAAAGATGT TTCAAGCTGA ATGGAAGGGT CCAGAGAAAA TCTTACTGGG AATGTTCTAC 
    GACAGTGATG ACGATACTAT GAAATGGTTT GACCAGTCTG AAGTGAGCTT CACAAACTGG 
    AGAGGAGGAG AGGAGAAGAA TCACAACAAC CTGATCACGT GCGCCACAAT GAGCACAATC 
    ACGGGGCTGT GGCATCTCGA CAGTTGTGAA AACGTGGCTG AAATGGCAAC TTTGTGTAAA 
    AAACCCACAA ATCCCCAAAG TGAATATAAC TTATCAGATC AAGGGGCTTT AACAATCACC 
    CTGATCATCT TCATTGTATT CCTTGTAATT AGTGTATCGG CCTTACTCTT AGTATTGTAT 
    AGGAGAGGCT CTCCGGGATT TCCATCAAGG AACTACACCT TGGCCAGCAA CGTTCTTCCT 
    TACACTGATC AGGATGTATT GATGGATACA GAGGAAACGG AGGACTCCAA TGCCTAG

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

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