scaf8 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following scaf8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the scaf8 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
OXa59319 XM_031903015.1
Latest version!
Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa59319 XM_004914646.4
Latest version!
Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa59320 XM_002931527.5
Latest version!
Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa10655 XM_004914646.3
Latest version!
Xenopus tropicalis SR-related CTD-associated factor 8 (scaf8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa10656 XM_002931527.4
Latest version!
Xenopus tropicalis SR-related CTD-associated factor 8 (scaf8), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

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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 OXa59319
    Clone ID Related Accession (Same CDS sequence) XM_004914646.4 , XM_031903015.1
    Accession Version XM_004914646.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 SR-related and CTD-associated factor 8 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_004914646.3. ##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##

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAG CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    RefSeq XP_004914703.2
    CDS629..4489
    Translation

    Target ORF information:

    RefSeq Version XM_004914646.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004914646.4

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAG CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    CloneID OXa59319
    Clone ID Related Accession (Same CDS sequence) XM_004914646.4 , XM_031903015.1
    Accession Version XM_031903015.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 SR-related and CTD-associated factor 8 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. 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##

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAG CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    RefSeq XP_031758875.1
    CDS629..4489
    Translation

    Target ORF information:

    RefSeq Version XM_031903015.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031903015.1

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAG CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    CloneID OXa59320
    Clone ID Related Accession (Same CDS sequence) XM_002931527.5
    Accession Version XM_002931527.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    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 SR-related and CTD-associated factor 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002931527.4. ##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##

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG CTATATTCAC TGAATGACTA CAGGCCACCT 
    ATTTCTAAAG CCAAAATGAC CCAGATAACT AAGGCTGCTA TCAAAGCTAT TAAGTTTTAC
    AAGCATGTTG TTCAAAGTGT TGAGAAATTC ATCCAGAAGT GCAAGCCAGA ATATAAGGTT
    CCTGGACTAT ATGTCATTGA TTCAATTGTC CGTCAATCCA GACATCAGTT TGGTCAAGAT
    AAGGATCTTT TTGCACCCCG GTTTAGCAAT AACATAATTA ATACTTTCCA GAATCTGTAC
    CGTTGTCCTG CAGATGACAA GAGCAAAATT GTAAGAGTTC TGAATCTCTG GCAGAAGAAT
    AATGTGTTTA AGAGTGAAAT TATTCAGCCA CTTCTTGATA TGGCTGCTGG TATCCCTCCT
    CCAGTTGTCA CTCCGGTGTT ACCCAGTACT ACTGCTGCAG TGAGCAACAC TCCAGGAACA
    CCAGTAACCC CAGTTACACC AGCAAATATT GTTCAGGGAA TACCTGATCC GTGGATTGCA
    CAGATAAACA ATACAGATAC CCTTGCTGCT GTGGCACAGA TTCTGCAAAG CCCTCAAGGG
    CAACAGCTTC AACAGCTTGT ACAGTCTTTG CACATCCAAC AGCAGAAGCC TCAGCCTTCT
    CTCCTACAAG CACTAGATGC TGGCCTTGTA GTTCAATTGC AGGCACTTAC AGCTCAACTT
    ACAGCAGCAG CTGCTTCTAC TAATCCTCTC AACCAATTAG AACAAAGTGT TTCACTCAGC
    AAGAAATTAA TGGATAGGTT TGATTTTGGA GATGACTCGA ACCAGCAAGA AGATCCAAAA
    AAGGAGACCC AACAAATCCC TCTGATTCCA GAATCTGTGA ATAACTCAAT TTTCCATCAA
    CTTGCGGAAC ATTTGCAGCA ACAAAATCTT GAGCATCTTC GACAGCAATT ACTGGAACAG
    CAACATTCTA CAAAGGTAAC AGCTCAGGAA ACTCAGGACT TTATGTCTGA ATCAGAAAAT
    TCTGCAACAC CTTCACAGGA TGACAGTCAA CAGCCATTTC TGGAGTCTGA ATCCCAAATG
    CATGCCTCCA TGAACATGCA ACAAGAAGAT ATGGACATTG AGGAAACGCT AGATGGAAAT
    GAAGAGATAT TTGAAAAAGA GGAAAAGAAA GTAATGAAAG AAGAAGCACC TAGGACACGT
    TCAAAGTCTC ACTCAAGGTC ACCAAGGAAA AGACGATCAC GATCACGGTC TGGCTCCAGG
    AAGCGCAAAC ACAGAAAACG CTCACGTTCG CGGTCAAGAG AAAGAAAACG CAAAACATCC
    CGCTCATATT CAAGTGAAAG AAGAGCAAGA GAGCGAGAGA AGGAACGGCA GAAAAAAGGC
    CTCCCTCCTA TCAGATCCAA AACACTTAGT GTTTGCAGCA CCACGCTTTG GGTTGGTCAA
    GTTGACAAAA AAGCCACACA GCAGGATTTG ACCAATGTAT TTGAAGAGTT TGGACAGATT
    GAATCAATAA ATATGATTCC ACCAAGGGGC TGCGCATATG TCTGCATGGT TCATAGACAA
    GATTCCTACC GGGCTCTTCA GAAGCTTAGT TCTAGCTCAT GTAAGATTGG ATCCAAAATC
    ATCAAGATTG CTTGGGCTTT GAACAAAGGT GTGAAAACAG AATATAAGCA ATTCTGGGAT
    GTTGATCTTG GAGTAACATA TATACCATGG GAAAAAGTCA AAGTTGATGA CTTAGAAGGA
    TTTGCTGAAG GTGGAATGAT TGATCAGGAG AGTGTGAATA ATGACTGGAA AGCGCAGAAA
    AGTTCTGAAG CAGTTGGTGC TAAAGAGTCC ACACCTGATA ATGCAACAGT AGTCCCTACT
    ACCATTGTCA CCTCTGCTCC CATTCCAGTT GTCACTACAG CTGCCCAGGC TTCAGCTGTT
    CAGAAGAATT CTACAGTAAC CTCACAGCCT GAGGCATATA CTCAGCCTGT TGCAGTGCTT
    CAGATACCAG TTGCTCCAGC TGTAAGCCTA GTTCCGCCAG CATTTCCTGT CTCAATGACT
    GTACCTCCAC CAGGCTATTC TGCAATTCCA CCACCTCCTT TCATGAGGGC TTCTTTTAAT
    CCTTCGCAGC CACCACCAGG TTTTATCCCA CCTCCTCTTC CTCCACCTGC CATTCCTCCT
    CCAGCTATTA GCTCTGCACT TCCAGCAGCT ACTCAAAGTA CAGTGAACAG CAACACTGGA
    ATATTAGGTG TGCAACCACC ATCATCAGTT ACAGCAAACT TGCCTCATGT AAACATCACT
    ACTCGAATGA CGGGTATGCC TTTGTTAGAT GTTCGCCAAG GCTTGCTTTC ACAGACTGCA
    TCAACAAGGT TCACTTTGTT ACATCCAGGA ATACCTCCAC TCCCACCACC ACCAAGAAGC
    ATGCTCCCTC CAGGACTGAT TGACCCAAAT ATTCATCCAT TGCCTTTCCC TCTAGGGGAT
    ATGGTGTCTC TTTCTGACAG ATCTTTTGGA GTCCAAGGCA GATTAGATGC CGATACTGTT
    AATGTAAAAG AAAAGAGGCA GCCTTTGCCA AACAGTAATA TTCAGGAGGG AGATCAAGAT
    TATCGTTTTC CTCCAGTTGA AAGTCGCCAA AATACATGTA AACCATCTAC GGAAAAACAT
    GAAAGCGAGG CAATCTCAAG TGCAGGCAAC AAAGAAATGC AAGGAGTAAG AGGTACAGAT
    GAAAGTGTTC AAGCAAGAAA TGCAGATGAT GACCATGAGC CACAGGACAT GGCTGTTGTA
    GATCCTTCTG AAAGTCAAGA AAAATCTATG GATGAGACTG GTGTAGCTCA TTTATCAAGT
    GAGGAGTTAC ATGGGGATGA AAGAAAGCCT GATACAGATG CCTTTGAAGG TTTAAGACGG
    CCTGTCCAAC AAGGATATGA CAATAAGGGA ACAAATATTC TAGATGCTCA TGAAGGCCAA
    GTAAGACAAC CACTAGATGA CAAACAACAT TTTAGAGGCC CAGCAATAGA CATGTTAGCA
    CCATTTCAAA GGTATCCAGG AGAGATTTTT CCTCGCCCAG CTTTAGGGAG AAGGGATCAC
    TTTGGAATGC CGTATTTAGA GACACATGAT CGTTTTGGCA GGCCATCTAT GGAGAGTCCT
    TTTAGACCAC CTCTTTTAGA TGGCAGAAAC CATTATGGGA GGCCACCAAT GGATGGTAGA
    GAGCATTTTG GAAGACCACC TCCAGATATA AGAGAAAATC ATGGAAGAAC ATTTGTGGAT
    AGTGCTGGGA AGCAATTACA TTTCCCAGCA GAAAAGCCAT GGGGACATCA AGAAGATTTT
    GATGAAAGAC CCCACCCTTC TTTCATTGGT TTTCAAGGAC TAAAGGGCTT TCATGATGAA
    AGGCATCATC ATGGAAACTT TAGACAGGAG CATCGAAATA CTCCAAACTG GAACAGAGGG
    TTTGAACAAG CTAAACATAG GGATTTTGAT GACCGTCGTC ACTCATGGGA AAGACAGGTT
    GATAGGGATG AAAGAGATTT TGATTTCCGT AGAGAAGTTA ATGGTGACCC TTTTGGAAGA
    GAGAGACAGT CCGAAAACTG GGCACCTCCA CAGCCTCAGC CACATGCTTT TGAGTATTTC
    CCAGAGGCCA CTTCTGCTCA GAACAGTAGC GACCCTCAAG TTAATGGAGA AAAAGCAGAG
    ACTAGCAATC AAAAAGAAAC TGTAAGCAAA TCTGATGATC TTGAACTCTG TGAACAGAAA
    GAGACTTCAG TTAAAGAGAG CGAAGAGAAT GACACCAAGA AAACTGAGAC AGAAAGTCAA
    ATTGTGGTTG AAAGCACAGA GACTGAAGGG ACATAA

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

    RefSeq XP_002931573.2
    CDS629..4444
    Translation

    Target ORF information:

    RefSeq Version XM_002931527.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SR-related CTD associated factor 8 (scaf8), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002931527.5

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG CTATATTCAC TGAATGACTA CAGGCCACCT 
    ATTTCTAAAG CCAAAATGAC CCAGATAACT AAGGCTGCTA TCAAAGCTAT TAAGTTTTAC
    AAGCATGTTG TTCAAAGTGT TGAGAAATTC ATCCAGAAGT GCAAGCCAGA ATATAAGGTT
    CCTGGACTAT ATGTCATTGA TTCAATTGTC CGTCAATCCA GACATCAGTT TGGTCAAGAT
    AAGGATCTTT TTGCACCCCG GTTTAGCAAT AACATAATTA ATACTTTCCA GAATCTGTAC
    CGTTGTCCTG CAGATGACAA GAGCAAAATT GTAAGAGTTC TGAATCTCTG GCAGAAGAAT
    AATGTGTTTA AGAGTGAAAT TATTCAGCCA CTTCTTGATA TGGCTGCTGG TATCCCTCCT
    CCAGTTGTCA CTCCGGTGTT ACCCAGTACT ACTGCTGCAG TGAGCAACAC TCCAGGAACA
    CCAGTAACCC CAGTTACACC AGCAAATATT GTTCAGGGAA TACCTGATCC GTGGATTGCA
    CAGATAAACA ATACAGATAC CCTTGCTGCT GTGGCACAGA TTCTGCAAAG CCCTCAAGGG
    CAACAGCTTC AACAGCTTGT ACAGTCTTTG CACATCCAAC AGCAGAAGCC TCAGCCTTCT
    CTCCTACAAG CACTAGATGC TGGCCTTGTA GTTCAATTGC AGGCACTTAC AGCTCAACTT
    ACAGCAGCAG CTGCTTCTAC TAATCCTCTC AACCAATTAG AACAAAGTGT TTCACTCAGC
    AAGAAATTAA TGGATAGGTT TGATTTTGGA GATGACTCGA ACCAGCAAGA AGATCCAAAA
    AAGGAGACCC AACAAATCCC TCTGATTCCA GAATCTGTGA ATAACTCAAT TTTCCATCAA
    CTTGCGGAAC ATTTGCAGCA ACAAAATCTT GAGCATCTTC GACAGCAATT ACTGGAACAG
    CAACATTCTA CAAAGGTAAC AGCTCAGGAA ACTCAGGACT TTATGTCTGA ATCAGAAAAT
    TCTGCAACAC CTTCACAGGA TGACAGTCAA CAGCCATTTC TGGAGTCTGA ATCCCAAATG
    CATGCCTCCA TGAACATGCA ACAAGAAGAT ATGGACATTG AGGAAACGCT AGATGGAAAT
    GAAGAGATAT TTGAAAAAGA GGAAAAGAAA GTAATGAAAG AAGAAGCACC TAGGACACGT
    TCAAAGTCTC ACTCAAGGTC ACCAAGGAAA AGACGATCAC GATCACGGTC TGGCTCCAGG
    AAGCGCAAAC ACAGAAAACG CTCACGTTCG CGGTCAAGAG AAAGAAAACG CAAAACATCC
    CGCTCATATT CAAGTGAAAG AAGAGCAAGA GAGCGAGAGA AGGAACGGCA GAAAAAAGGC
    CTCCCTCCTA TCAGATCCAA AACACTTAGT GTTTGCAGCA CCACGCTTTG GGTTGGTCAA
    GTTGACAAAA AAGCCACACA GCAGGATTTG ACCAATGTAT TTGAAGAGTT TGGACAGATT
    GAATCAATAA ATATGATTCC ACCAAGGGGC TGCGCATATG TCTGCATGGT TCATAGACAA
    GATTCCTACC GGGCTCTTCA GAAGCTTAGT TCTAGCTCAT GTAAGATTGG ATCCAAAATC
    ATCAAGATTG CTTGGGCTTT GAACAAAGGT GTGAAAACAG AATATAAGCA ATTCTGGGAT
    GTTGATCTTG GAGTAACATA TATACCATGG GAAAAAGTCA AAGTTGATGA CTTAGAAGGA
    TTTGCTGAAG GTGGAATGAT TGATCAGGAG AGTGTGAATA ATGACTGGAA AGCGCAGAAA
    AGTTCTGAAG CAGTTGGTGC TAAAGAGTCC ACACCTGATA ATGCAACAGT AGTCCCTACT
    ACCATTGTCA CCTCTGCTCC CATTCCAGTT GTCACTACAG CTGCCCAGGC TTCAGCTGTT
    CAGAAGAATT CTACAGTAAC CTCACAGCCT GAGGCATATA CTCAGCCTGT TGCAGTGCTT
    CAGATACCAG TTGCTCCAGC TGTAAGCCTA GTTCCGCCAG CATTTCCTGT CTCAATGACT
    GTACCTCCAC CAGGCTATTC TGCAATTCCA CCACCTCCTT TCATGAGGGC TTCTTTTAAT
    CCTTCGCAGC CACCACCAGG TTTTATCCCA CCTCCTCTTC CTCCACCTGC CATTCCTCCT
    CCAGCTATTA GCTCTGCACT TCCAGCAGCT ACTCAAAGTA CAGTGAACAG CAACACTGGA
    ATATTAGGTG TGCAACCACC ATCATCAGTT ACAGCAAACT TGCCTCATGT AAACATCACT
    ACTCGAATGA CGGGTATGCC TTTGTTAGAT GTTCGCCAAG GCTTGCTTTC ACAGACTGCA
    TCAACAAGGT TCACTTTGTT ACATCCAGGA ATACCTCCAC TCCCACCACC ACCAAGAAGC
    ATGCTCCCTC CAGGACTGAT TGACCCAAAT ATTCATCCAT TGCCTTTCCC TCTAGGGGAT
    ATGGTGTCTC TTTCTGACAG ATCTTTTGGA GTCCAAGGCA GATTAGATGC CGATACTGTT
    AATGTAAAAG AAAAGAGGCA GCCTTTGCCA AACAGTAATA TTCAGGAGGG AGATCAAGAT
    TATCGTTTTC CTCCAGTTGA AAGTCGCCAA AATACATGTA AACCATCTAC GGAAAAACAT
    GAAAGCGAGG CAATCTCAAG TGCAGGCAAC AAAGAAATGC AAGGAGTAAG AGGTACAGAT
    GAAAGTGTTC AAGCAAGAAA TGCAGATGAT GACCATGAGC CACAGGACAT GGCTGTTGTA
    GATCCTTCTG AAAGTCAAGA AAAATCTATG GATGAGACTG GTGTAGCTCA TTTATCAAGT
    GAGGAGTTAC ATGGGGATGA AAGAAAGCCT GATACAGATG CCTTTGAAGG TTTAAGACGG
    CCTGTCCAAC AAGGATATGA CAATAAGGGA ACAAATATTC TAGATGCTCA TGAAGGCCAA
    GTAAGACAAC CACTAGATGA CAAACAACAT TTTAGAGGCC CAGCAATAGA CATGTTAGCA
    CCATTTCAAA GGTATCCAGG AGAGATTTTT CCTCGCCCAG CTTTAGGGAG AAGGGATCAC
    TTTGGAATGC CGTATTTAGA GACACATGAT CGTTTTGGCA GGCCATCTAT GGAGAGTCCT
    TTTAGACCAC CTCTTTTAGA TGGCAGAAAC CATTATGGGA GGCCACCAAT GGATGGTAGA
    GAGCATTTTG GAAGACCACC TCCAGATATA AGAGAAAATC ATGGAAGAAC ATTTGTGGAT
    AGTGCTGGGA AGCAATTACA TTTCCCAGCA GAAAAGCCAT GGGGACATCA AGAAGATTTT
    GATGAAAGAC CCCACCCTTC TTTCATTGGT TTTCAAGGAC TAAAGGGCTT TCATGATGAA
    AGGCATCATC ATGGAAACTT TAGACAGGAG CATCGAAATA CTCCAAACTG GAACAGAGGG
    TTTGAACAAG CTAAACATAG GGATTTTGAT GACCGTCGTC ACTCATGGGA AAGACAGGTT
    GATAGGGATG AAAGAGATTT TGATTTCCGT AGAGAAGTTA ATGGTGACCC TTTTGGAAGA
    GAGAGACAGT CCGAAAACTG GGCACCTCCA CAGCCTCAGC CACATGCTTT TGAGTATTTC
    CCAGAGGCCA CTTCTGCTCA GAACAGTAGC GACCCTCAAG TTAATGGAGA AAAAGCAGAG
    ACTAGCAATC AAAAAGAAAC TGTAAGCAAA TCTGATGATC TTGAACTCTG TGAACAGAAA
    GAGACTTCAG TTAAAGAGAG CGAAGAGAAT GACACCAAGA AAACTGAGAC AGAAAGTCAA
    ATTGTGGTTG AAAGCACAGA GACTGAAGGG ACATAA

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

    CloneID OXa10655
    Clone ID Related Accession (Same CDS sequence) XM_004914646.3
    Accession Version XM_004914646.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 protein SCAF8 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004914646.2. ##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##

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAA CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    RefSeq XP_004914703.1
    CDS630..4490
    Translation

    Target ORF information:

    RefSeq Version XM_004914646.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SR-related CTD-associated factor 8 (scaf8), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004914646.3

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG GGTCGACATC AGGGTATAGA AGTGCCCCTT 
    TATCGTACTA GTCAGCTATA TTCACTGAAT GACTACAGGC CACCTATTTC TAAAGCCAAA
    ATGACCCAGA TAACTAAGGC TGCTATCAAA GCTATTAAGT TTTACAAGCA TGTTGTTCAA
    AGTGTTGAGA AATTCATCCA GAAGTGCAAG CCAGAATATA AGGTTCCTGG ACTATATGTC
    ATTGATTCAA TTGTCCGTCA ATCCAGACAT CAGTTTGGTC AAGATAAGGA TCTTTTTGCA
    CCCCGGTTTA GCAATAACAT AATTAATACT TTCCAGAATC TGTACCGTTG TCCTGCAGAT
    GACAAGAGCA AAATTGTAAG AGTTCTGAAT CTCTGGCAGA AGAATAATGT GTTTAAGAGT
    GAAATTATTC AGCCACTTCT TGATATGGCT GCTGGTATCC CTCCTCCAGT TGTCACTCCG
    GTGTTACCCA GTACTACTGC TGCAGTGAGC AACACTCCAG GAACACCAGT AACCCCAGTT
    ACACCAGCAA ATATTGTTCA GGGAATACCT GATCCGTGGA TTGCACAGAT AAACAATACA
    GATACCCTTG CTGCTGTGGC ACAGATTCTG CAAAGCCCTC AAGGGCAACA GCTTCAACAG
    CTTGTACAGT CTTTGCACAT CCAACAGCAG AAGCCTCAGC CTTCTCTCCT ACAAGCACTA
    GATGCTGGCC TTGTAGTTCA ATTGCAGGCA CTTACAGCTC AACTTACAGC AGCAGCTGCT
    TCTACTAATC CTCTCAACCA ATTAGAACAA AGTGTTTCAC TCAGCAAGAA ATTAATGGAT
    AGGTTTGATT TTGGAGATGA CTCGAACCAG CAAGAAGATC CAAAAAAGGA GACCCAACAA
    ATCCCTCTGA TTCCAGAATC TGTGAATAAC TCAATTTTCC ATCAACTTGC GGAACATTTG
    CAGCAACAAA ATCTTGAGCA TCTTCGACAG CAATTACTGG AACAGCAACA TTCTACAAAG
    GTAACAGCTC AGGAAACTCA GGACTTTATG TCTGAATCAG AAAATTCTGC AACACCTTCA
    CAGGATGACA GTCAACAGCC ATTTCTGGAG TCTGAATCCC AAATGCATGC CTCCATGAAC
    ATGCAACAAG AAGATATGGA CATTGAGGAA ACGCTAGATG GAAATGAAGA GATATTTGAA
    AAAGAGGAAA AGAAAGTAAT GAAAGAAGAA GCACCTAGGA CACGTTCAAA GTCTCACTCA
    AGGTCACCAA GGAAAAGACG ATCACGATCA CGGTCTGGCT CCAGGAAGCG CAAACACAGA
    AAACGCTCAC GTTCGCGGTC AAGAGAAAGA AAACGCAAAA CATCCCGCTC ATATTCAAGT
    GAAAGAAGAG CAAGAGAGCG AGAGAAGGAA CGGCAGAAAA AAGGCCTCCC TCCTATCAGA
    TCCAAAACAC TTAGTGTTTG CAGCACCACG CTTTGGGTTG GTCAAGTTGA CAAAAAAGCC
    ACACAGCAGG ATTTGACCAA TGTATTTGAA GAGTTTGGAC AGATTGAATC AATAAATATG
    ATTCCACCAA GGGGCTGCGC ATATGTCTGC ATGGTTCATA GACAAGATTC CTACCGGGCT
    CTTCAGAAGC TTAGTTCTAG CTCATGTAAG ATTGGATCCA AAATCATCAA GATTGCTTGG
    GCTTTGAACA AAGGTGTGAA AACAGAATAT AAGCAATTCT GGGATGTTGA TCTTGGAGTA
    ACATATATAC CATGGGAAAA AGTCAAAGTT GATGACTTAG AAGGATTTGC TGAAGGTGGA
    ATGATTGATC AGGAGAGTGT GAATAATGAC TGGAAAGCGC AGAAAAGTTC TGAAGCAGTT
    GGTGCTAAAG AGTCCACACC TGATAATGCA ACAGTAGTCC CTACTACCAT TGTCACCTCT
    GCTCCCATTC CAGTTGTCAC TACAGCTGCC CAGGCTTCAG CTGTTCAGAA GAATTCTACA
    GTAACCTCAC AGCCTGAGGC ATATACTCAG CCTGTTGCAG TGCTTCAGAT ACCAGTTGCT
    CCAGCTGTAA GCCTAGTTCC GCCAGCATTT CCTGTCTCAA TGACTGTACC TCCACCAGGC
    TATTCTGCAA TTCCACCACC TCCTTTCATG AGGGCTTCTT TTAATCCTTC GCAGCCACCA
    CCAGGTTTTA TCCCACCTCC TCTTCCTCCA CCTGCCATTC CTCCTCCAGC TATTAGCTCT
    GCACTTCCAG CAGCTACTCA AAGTACAGTG AACAGCAACA CTGGAATATT AGGTGTGCAA
    CCACCATCAT CAGTTACAGC AAACTTGCCT CATGTAAACA TCACTACTCG AATGACGGGT
    ATGCCTTTGT TAGATGTTCG CCAAGGCTTG CTTTCACAGA CTGCATCAAC AAGGTTCACT
    TTGTTACATC CAGGAATACC TCCACTCCCA CCACCACCAA GAAGCATGCT CCCTCCAGGA
    CTGATTGACC CAAATATTCA TCCATTGCCT TTCCCTCTAG GGGATATGGT GTCTCTTTCT
    GACAGATCTT TTGGAGTCCA AGGCAGATTA GATGCCGATA CTGTTAATGT AAAAGAAAAG
    AGGCAGCCTT TGCCAAACAG TAATATTCAG GAGGGAGATC AAGATTATCG TTTTCCTCCA
    GTTGAAAGTC GCCAAAATAC ATGTAAACCA TCTACGGAAA AACATGAAAG CGAGGCAATC
    TCAAGTGCAG GCAACAAAGA AATGCAAGGA GTAAGAGGTA CAGATGAAAG TGTTCAAGCA
    AGAAATGCAG ATGATGACCA TGAGCCACAG GACATGGCTG TTGTAGATCC TTCTGAAAGT
    CAAGAAAAAT CTATGGATGA GACTGGTGTA GCTCATTTAT CAAGTGAGGA GTTACATGGG
    GATGAAAGAA AGCCTGATAC AGATGCCTTT GAAGGTTTAA GACGGCCTGT CCAACAAGGA
    TATGACAATA AGGGAACAAA TATTCTAGAT GCTCATGAAG GCCAAGTAAG ACAACCACTA
    GATGACAAAC AACATTTTAG AGGCCCAGCA ATAGACATGT TAGCACCATT TCAAAGGTAT
    CCAGGAGAGA TTTTTCCTCG CCCAGCTTTA GGGAGAAGGG ATCACTTTGG AATGCCGTAT
    TTAGAGACAC ATGATCGTTT TGGCAGGCCA TCTATGGAGA GTCCTTTTAG ACCACCTCTT
    TTAGATGGCA GAAACCATTA TGGGAGGCCA CCAATGGATG GTAGAGAGCA TTTTGGAAGA
    CCACCTCCAG ATATAAGAGA AAATCATGGA AGAACATTTG TGGATAGTGC TGGGAAGCAA
    TTACATTTCC CAGCAGAAAA GCCATGGGGA CATCAAGAAG ATTTTGATGA AAGACCCCAC
    CCTTCTTTCA TTGGTTTTCA AGGACTAAAG GGCTTTCATG ATGAAAGGCA TCATCATGGA
    AACTTTAGAC AGGAGCATCG AAATACTCCA AACTGGAACA GAGGGTTTGA ACAAGCTAAA
    CATAGGGATT TTGATGACCG TCGTCACTCA TGGGAAAGAC AGGTTGATAG GGATGAAAGA
    GATTTTGATT TCCGTAGAGA AGTTAATGGT GACCCTTTTG GAAGAGAGAG ACAGTCCGAA
    AACTGGGCAC CTCCACAGCC TCAGCCACAT GCTTTTGAGT ATTTCCCAGA GGCCACTTCT
    GCTCAGAACA GTAGCGACCC TCAAGTTAAT GGAGAAAAAA CAGAGACTAG CAATCAAAAA
    GAAACTGTAA GCAAATCTGA TGATCTTGAA CTCTGTGAAC AGAAAGAGAC TTCAGTTAAA
    GAGAGCGAAG AGAATGACAC CAAGAAAACT GAGACAGAAA GTCAAATTGT GGTTGAAAGC
    ACAGAGACTG AAGGGACATA A

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

    CloneID OXa10656
    Clone ID Related Accession (Same CDS sequence) XM_002931527.4
    Accession Version XM_002931527.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    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 protein SCAF8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002931527.3. ##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##

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG CTATATTCAC TGAATGACTA CAGGCCACCT 
    ATTTCTAAAG CCAAAATGAC CCAGATAACT AAGGCTGCTA TCAAAGCTAT TAAGTTTTAC
    AAGCATGTTG TTCAAAGTGT TGAGAAATTC ATCCAGAAGT GCAAGCCAGA ATATAAGGTT
    CCTGGACTAT ATGTCATTGA TTCAATTGTC CGTCAATCCA GACATCAGTT TGGTCAAGAT
    AAGGATCTTT TTGCACCCCG GTTTAGCAAT AACATAATTA ATACTTTCCA GAATCTGTAC
    CGTTGTCCTG CAGATGACAA GAGCAAAATT GTAAGAGTTC TGAATCTCTG GCAGAAGAAT
    AATGTGTTTA AGAGTGAAAT TATTCAGCCA CTTCTTGATA TGGCTGCTGG TATCCCTCCT
    CCAGTTGTCA CTCCGGTGTT ACCCAGTACT ACTGCTGCAG TGAGCAACAC TCCAGGAACA
    CCAGTAACCC CAGTTACACC AGCAAATATT GTTCAGGGAA TACCTGATCC GTGGATTGCA
    CAGATAAACA ATACAGATAC CCTTGCTGCT GTGGCACAGA TTCTGCAAAG CCCTCAAGGG
    CAACAGCTTC AACAGCTTGT ACAGTCTTTG CACATCCAAC AGCAGAAGCC TCAGCCTTCT
    CTCCTACAAG CACTAGATGC TGGCCTTGTA GTTCAATTGC AGGCACTTAC AGCTCAACTT
    ACAGCAGCAG CTGCTTCTAC TAATCCTCTC AACCAATTAG AACAAAGTGT TTCACTCAGC
    AAGAAATTAA TGGATAGGTT TGATTTTGGA GATGACTCGA ACCAGCAAGA AGATCCAAAA
    AAGGAGACCC AACAAATCCC TCTGATTCCA GAATCTGTGA ATAACTCAAT TTTCCATCAA
    CTTGCGGAAC ATTTGCAGCA ACAAAATCTT GAGCATCTTC GACAGCAATT ACTGGAACAG
    CAACATTCTA CAAAGGTAAC AGCTCAGGAA ACTCAGGACT TTATGTCTGA ATCAGAAAAT
    TCTGCAACAC CTTCACAGGA TGACAGTCAA CAGCCATTTC TGGAGTCTGA ATCCCAAATG
    CATGCCTCCA TGAACATGCA ACAAGAAGAT ATGGACATTG AGGAAACGCT AGATGGAAAT
    GAAGAGATAT TTGAAAAAGA GGAAAAGAAA GTAATGAAAG AAGAAGCACC TAGGACACGT
    TCAAAGTCTC ACTCAAGGTC ACCAAGGAAA AGACGATCAC GATCACGGTC TGGCTCCAGG
    AAGCGCAAAC ACAGAAAACG CTCACGTTCG CGGTCAAGAG AAAGAAAACG CAAAACATCC
    CGCTCATATT CAAGTGAAAG AAGAGCAAGA GAGCGAGAGA AGGAACGGCA GAAAAAAGGC
    CTCCCTCCTA TCAGATCCAA AACACTTAGT GTTTGCAGCA CCACGCTTTG GGTTGGTCAA
    GTTGACAAAA AAGCCACACA GCAGGATTTG ACCAATGTAT TTGAAGAGTT TGGACAGATT
    GAATCAATAA ATATGATTCC ACCAAGGGGC TGCGCATATG TCTGCATGGT TCATAGACAA
    GATTCCTACC GGGCTCTTCA GAAGCTTAGT TCTAGCTCAT GTAAGATTGG ATCCAAAATC
    ATCAAGATTG CTTGGGCTTT GAACAAAGGT GTGAAAACAG AATATAAGCA ATTCTGGGAT
    GTTGATCTTG GAGTAACATA TATACCATGG GAAAAAGTCA AAGTTGATGA CTTAGAAGGA
    TTTGCTGAAG GTGGAATGAT TGATCAGGAG AGTGTGAATA ATGACTGGAA AGCGCAGAAA
    AGTTCTGAAG CAGTTGGTGC TAAAGAGTCC ACACCTGATA ATGCAACAGT AGTCCCTACT
    ACCATTGTCA CCTCTGCTCC CATTCCAGTT GTCACTACAG CTGCCCAGGC TTCAGCTGTT
    CAGAAGAATT CTACAGTAAC CTCACAGCCT GAGGCATATA CTCAGCCTGT TGCAGTGCTT
    CAGATACCAG TTGCTCCAGC TGTAAGCCTA GTTCCGCCAG CATTTCCTGT CTCAATGACT
    GTACCTCCAC CAGGCTATTC TGCAATTCCA CCACCTCCTT TCATGAGGGC TTCTTTTAAT
    CCTTCGCAGC CACCACCAGG TTTTATCCCA CCTCCTCTTC CTCCACCTGC CATTCCTCCT
    CCAGCTATTA GCTCTGCACT TCCAGCAGCT ACTCAAAGTA CAGTGAACAG CAACACTGGA
    ATATTAGGTG TGCAACCACC ATCATCAGTT ACAGCAAACT TGCCTCATGT AAACATCACT
    ACTCGAATGA CGGGTATGCC TTTGTTAGAT GTTCGCCAAG GCTTGCTTTC ACAGACTGCA
    TCAACAAGGT TCACTTTGTT ACATCCAGGA ATACCTCCAC TCCCACCACC ACCAAGAAGC
    ATGCTCCCTC CAGGACTGAT TGACCCAAAT ATTCATCCAT TGCCTTTCCC TCTAGGGGAT
    ATGGTGTCTC TTTCTGACAG ATCTTTTGGA GTCCAAGGCA GATTAGATGC CGATACTGTT
    AATGTAAAAG AAAAGAGGCA GCCTTTGCCA AACAGTAATA TTCAGGAGGG AGATCAAGAT
    TATCGTTTTC CTCCAGTTGA AAGTCGCCAA AATACATGTA AACCATCTAC GGAAAAACAT
    GAAAGCGAGG CAATCTCAAG TGCAGGCAAC AAAGAAATGC AAGGAGTAAG AGGTACAGAT
    GAAAGTGTTC AAGCAAGAAA TGCAGATGAT GACCATGAGC CACAGGACAT GGCTGTTGTA
    GATCCTTCTG AAAGTCAAGA AAAATCTATG GATGAGACTG GTGTAGCTCA TTTATCAAGT
    GAGGAGTTAC ATGGGGATGA AAGAAAGCCT GATACAGATG CCTTTGAAGG TTTAAGACGG
    CCTGTCCAAC AAGGATATGA CAATAAGGGA ACAAATATTC TAGATGCTCA TGAAGGCCAA
    GTAAGACAAC CACTAGATGA CAAACAACAT TTTAGAGGCC CAGCAATAGA CATGTTAGCA
    CCATTTCAAA GGTATCCAGG AGAGATTTTT CCTCGCCCAG CTTTAGGGAG AAGGGATCAC
    TTTGGAATGC CGTATTTAGA GACACATGAT CGTTTTGGCA GGCCATCTAT GGAGAGTCCT
    TTTAGACCAC CTCTTTTAGA TGGCAGAAAC CATTATGGGA GGCCACCAAT GGATGGTAGA
    GAGCATTTTG GAAGACCACC TCCAGATATA AGAGAAAATC ATGGAAGAAC ATTTGTGGAT
    AGTGCTGGGA AGCAATTACA TTTCCCAGCA GAAAAGCCAT GGGGACATCA AGAAGATTTT
    GATGAAAGAC CCCACCCTTC TTTCATTGGT TTTCAAGGAC TAAAGGGCTT TCATGATGAA
    AGGCATCATC ATGGAAACTT TAGACAGGAG CATCGAAATA CTCCAAACTG GAACAGAGGG
    TTTGAACAAG CTAAACATAG GGATTTTGAT GACCGTCGTC ACTCATGGGA AAGACAGGTT
    GATAGGGATG AAAGAGATTT TGATTTCCGT AGAGAAGTTA ATGGTGACCC TTTTGGAAGA
    GAGAGACAGT CCGAAAACTG GGCACCTCCA CAGCCTCAGC CACATGCTTT TGAGTATTTC
    CCAGAGGCCA CTTCTGCTCA GAACAGTAGC GACCCTCAAG TTAATGGAGA AAAAACAGAG
    ACTAGCAATC AAAAAGAAAC TGTAAGCAAA TCTGATGATC TTGAACTCTG TGAACAGAAA
    GAGACTTCAG TTAAAGAGAG CGAAGAGAAT GACACCAAGA AAACTGAGAC AGAAAGTCAA
    ATTGTGGTTG AAAGCACAGA GACTGAAGGG ACATAA

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

    RefSeq XP_002931573.1
    CDS630..4445
    Translation

    Target ORF information:

    RefSeq Version XM_002931527.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SR-related CTD-associated factor 8 (scaf8), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002931527.4

    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
    ATGGAGGCCG TCAAAACCTT TAACAGCGAG CTATATTCAC TGAATGACTA CAGGCCACCT 
    ATTTCTAAAG CCAAAATGAC CCAGATAACT AAGGCTGCTA TCAAAGCTAT TAAGTTTTAC
    AAGCATGTTG TTCAAAGTGT TGAGAAATTC ATCCAGAAGT GCAAGCCAGA ATATAAGGTT
    CCTGGACTAT ATGTCATTGA TTCAATTGTC CGTCAATCCA GACATCAGTT TGGTCAAGAT
    AAGGATCTTT TTGCACCCCG GTTTAGCAAT AACATAATTA ATACTTTCCA GAATCTGTAC
    CGTTGTCCTG CAGATGACAA GAGCAAAATT GTAAGAGTTC TGAATCTCTG GCAGAAGAAT
    AATGTGTTTA AGAGTGAAAT TATTCAGCCA CTTCTTGATA TGGCTGCTGG TATCCCTCCT
    CCAGTTGTCA CTCCGGTGTT ACCCAGTACT ACTGCTGCAG TGAGCAACAC TCCAGGAACA
    CCAGTAACCC CAGTTACACC AGCAAATATT GTTCAGGGAA TACCTGATCC GTGGATTGCA
    CAGATAAACA ATACAGATAC CCTTGCTGCT GTGGCACAGA TTCTGCAAAG CCCTCAAGGG
    CAACAGCTTC AACAGCTTGT ACAGTCTTTG CACATCCAAC AGCAGAAGCC TCAGCCTTCT
    CTCCTACAAG CACTAGATGC TGGCCTTGTA GTTCAATTGC AGGCACTTAC AGCTCAACTT
    ACAGCAGCAG CTGCTTCTAC TAATCCTCTC AACCAATTAG AACAAAGTGT TTCACTCAGC
    AAGAAATTAA TGGATAGGTT TGATTTTGGA GATGACTCGA ACCAGCAAGA AGATCCAAAA
    AAGGAGACCC AACAAATCCC TCTGATTCCA GAATCTGTGA ATAACTCAAT TTTCCATCAA
    CTTGCGGAAC ATTTGCAGCA ACAAAATCTT GAGCATCTTC GACAGCAATT ACTGGAACAG
    CAACATTCTA CAAAGGTAAC AGCTCAGGAA ACTCAGGACT TTATGTCTGA ATCAGAAAAT
    TCTGCAACAC CTTCACAGGA TGACAGTCAA CAGCCATTTC TGGAGTCTGA ATCCCAAATG
    CATGCCTCCA TGAACATGCA ACAAGAAGAT ATGGACATTG AGGAAACGCT AGATGGAAAT
    GAAGAGATAT TTGAAAAAGA GGAAAAGAAA GTAATGAAAG AAGAAGCACC TAGGACACGT
    TCAAAGTCTC ACTCAAGGTC ACCAAGGAAA AGACGATCAC GATCACGGTC TGGCTCCAGG
    AAGCGCAAAC ACAGAAAACG CTCACGTTCG CGGTCAAGAG AAAGAAAACG CAAAACATCC
    CGCTCATATT CAAGTGAAAG AAGAGCAAGA GAGCGAGAGA AGGAACGGCA GAAAAAAGGC
    CTCCCTCCTA TCAGATCCAA AACACTTAGT GTTTGCAGCA CCACGCTTTG GGTTGGTCAA
    GTTGACAAAA AAGCCACACA GCAGGATTTG ACCAATGTAT TTGAAGAGTT TGGACAGATT
    GAATCAATAA ATATGATTCC ACCAAGGGGC TGCGCATATG TCTGCATGGT TCATAGACAA
    GATTCCTACC GGGCTCTTCA GAAGCTTAGT TCTAGCTCAT GTAAGATTGG ATCCAAAATC
    ATCAAGATTG CTTGGGCTTT GAACAAAGGT GTGAAAACAG AATATAAGCA ATTCTGGGAT
    GTTGATCTTG GAGTAACATA TATACCATGG GAAAAAGTCA AAGTTGATGA CTTAGAAGGA
    TTTGCTGAAG GTGGAATGAT TGATCAGGAG AGTGTGAATA ATGACTGGAA AGCGCAGAAA
    AGTTCTGAAG CAGTTGGTGC TAAAGAGTCC ACACCTGATA ATGCAACAGT AGTCCCTACT
    ACCATTGTCA CCTCTGCTCC CATTCCAGTT GTCACTACAG CTGCCCAGGC TTCAGCTGTT
    CAGAAGAATT CTACAGTAAC CTCACAGCCT GAGGCATATA CTCAGCCTGT TGCAGTGCTT
    CAGATACCAG TTGCTCCAGC TGTAAGCCTA GTTCCGCCAG CATTTCCTGT CTCAATGACT
    GTACCTCCAC CAGGCTATTC TGCAATTCCA CCACCTCCTT TCATGAGGGC TTCTTTTAAT
    CCTTCGCAGC CACCACCAGG TTTTATCCCA CCTCCTCTTC CTCCACCTGC CATTCCTCCT
    CCAGCTATTA GCTCTGCACT TCCAGCAGCT ACTCAAAGTA CAGTGAACAG CAACACTGGA
    ATATTAGGTG TGCAACCACC ATCATCAGTT ACAGCAAACT TGCCTCATGT AAACATCACT
    ACTCGAATGA CGGGTATGCC TTTGTTAGAT GTTCGCCAAG GCTTGCTTTC ACAGACTGCA
    TCAACAAGGT TCACTTTGTT ACATCCAGGA ATACCTCCAC TCCCACCACC ACCAAGAAGC
    ATGCTCCCTC CAGGACTGAT TGACCCAAAT ATTCATCCAT TGCCTTTCCC TCTAGGGGAT
    ATGGTGTCTC TTTCTGACAG ATCTTTTGGA GTCCAAGGCA GATTAGATGC CGATACTGTT
    AATGTAAAAG AAAAGAGGCA GCCTTTGCCA AACAGTAATA TTCAGGAGGG AGATCAAGAT
    TATCGTTTTC CTCCAGTTGA AAGTCGCCAA AATACATGTA AACCATCTAC GGAAAAACAT
    GAAAGCGAGG CAATCTCAAG TGCAGGCAAC AAAGAAATGC AAGGAGTAAG AGGTACAGAT
    GAAAGTGTTC AAGCAAGAAA TGCAGATGAT GACCATGAGC CACAGGACAT GGCTGTTGTA
    GATCCTTCTG AAAGTCAAGA AAAATCTATG GATGAGACTG GTGTAGCTCA TTTATCAAGT
    GAGGAGTTAC ATGGGGATGA AAGAAAGCCT GATACAGATG CCTTTGAAGG TTTAAGACGG
    CCTGTCCAAC AAGGATATGA CAATAAGGGA ACAAATATTC TAGATGCTCA TGAAGGCCAA
    GTAAGACAAC CACTAGATGA CAAACAACAT TTTAGAGGCC CAGCAATAGA CATGTTAGCA
    CCATTTCAAA GGTATCCAGG AGAGATTTTT CCTCGCCCAG CTTTAGGGAG AAGGGATCAC
    TTTGGAATGC CGTATTTAGA GACACATGAT CGTTTTGGCA GGCCATCTAT GGAGAGTCCT
    TTTAGACCAC CTCTTTTAGA TGGCAGAAAC CATTATGGGA GGCCACCAAT GGATGGTAGA
    GAGCATTTTG GAAGACCACC TCCAGATATA AGAGAAAATC ATGGAAGAAC ATTTGTGGAT
    AGTGCTGGGA AGCAATTACA TTTCCCAGCA GAAAAGCCAT GGGGACATCA AGAAGATTTT
    GATGAAAGAC CCCACCCTTC TTTCATTGGT TTTCAAGGAC TAAAGGGCTT TCATGATGAA
    AGGCATCATC ATGGAAACTT TAGACAGGAG CATCGAAATA CTCCAAACTG GAACAGAGGG
    TTTGAACAAG CTAAACATAG GGATTTTGAT GACCGTCGTC ACTCATGGGA AAGACAGGTT
    GATAGGGATG AAAGAGATTT TGATTTCCGT AGAGAAGTTA ATGGTGACCC TTTTGGAAGA
    GAGAGACAGT CCGAAAACTG GGCACCTCCA CAGCCTCAGC CACATGCTTT TGAGTATTTC
    CCAGAGGCCA CTTCTGCTCA GAACAGTAGC GACCCTCAAG TTAATGGAGA AAAAACAGAG
    ACTAGCAATC AAAAAGAAAC TGTAAGCAAA TCTGATGATC TTGAACTCTG TGAACAGAAA
    GAGACTTCAG TTAAAGAGAG CGAAGAGAAT GACACCAAGA AAACTGAGAC AGAAAGTCAA
    ATTGTGGTTG AAAGCACAGA GACTGAAGGG ACATAA

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