ankfn1l cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ankfn1l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ankfn1l 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
OXa46937 XM_018097586.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa46938 XM_018097587.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OXa46939 XM_018097588.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OXa66834 XM_018097586.2
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa66835 XM_031893332.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa66836 XM_031893333.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa66837 XM_031893334.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa66838 XM_031893335.1
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa66839 XM_002932447.5
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa16387 XM_004917997.3
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa16388 XM_002932447.4
Latest version!
Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00

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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 OXa46937
    Clone ID Related Accession (Same CDS sequence) XM_018097586.1
    Accession Version XM_018097586.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4131bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X1
    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##

    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
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCATAG GCAGCTTTTC GAAGTTTACC AACCGGCTGT CACTGAAGGA GAAGTCGGAG
    AGGAGAAATG ATGCTGAGTT GGCACCCCAG GAACAGCCCC TATTCCGCCA GAGATCACTG
    AGCATTGAAT GGTCCTCTTC ACCGAAGATG ACTCAACAAA TGAGGGACTT ACAGCTATCA
    CAAACCAAGA AGCCTTCGGG CCCCTCCTCG CCAAATGCTG CTAAGAGGCT CTACAGAAAC
    CTATCTGGAA AGTTTCGGGT GAACTACATG TCGTTTGATG AGGGCAGCCT GACAGCACGT
    AATGAGAAGG AACGTCTGCG GAAGCCATGT TTATTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGAGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGACAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCCTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    RefSeq XP_017953075.1
    CDS373..4503
    Translation

    Target ORF information:

    RefSeq Version XM_018097586.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097586.1

    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
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCATAG GCAGCTTTTC GAAGTTTACC AACCGGCTGT CACTGAAGGA GAAGTCGGAG
    AGGAGAAATG ATGCTGAGTT GGCACCCCAG GAACAGCCCC TATTCCGCCA GAGATCACTG
    AGCATTGAAT GGTCCTCTTC ACCGAAGATG ACTCAACAAA TGAGGGACTT ACAGCTATCA
    CAAACCAAGA AGCCTTCGGG CCCCTCCTCG CCAAATGCTG CTAAGAGGCT CTACAGAAAC
    CTATCTGGAA AGTTTCGGGT GAACTACATG TCGTTTGATG AGGGCAGCCT GACAGCACGT
    AATGAGAAGG AACGTCTGCG GAAGCCATGT TTATTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGAGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGACAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCCTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    CloneID OXa46938
    Clone ID Related Accession (Same CDS sequence) XM_018097587.1
    Accession Version XM_018097587.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X2
    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##

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCAT AGGCAGCTTT
    TCGAAGTTTA CCAACCGGCT GTCACTGAAG GAGAAGTCGG AGAGGAGAAA TGATGCTGAG
    TTGGCACCCC AGGAACAGCC CCTATTCCGC CAGAGATCAC TGAGCATTGA ATGGTCCTCT
    TCACCGAAGA TGACTCAACA AATGAGGGAC TTACAGCTAT CACAAACCAA GAAGCCTTCG
    GGCCCCTCCT CGCCAAATGC TGCTAAGAGG CTCTACAGAA ACCTATCTGG AAAGTTTCGG
    GTGAACTACA TGTCGTTTGA TGAGGGCAGC CTGACAGCAC GTAATGAGAA GGAACGTCTG
    CGGAAGCCAT GTTTAGTACG TTACTACTGT TCTTTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGAGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGACAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCCTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    RefSeq XP_017953076.1
    CDS144..4034
    Translation

    Target ORF information:

    RefSeq Version XM_018097587.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097587.1

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCAT AGGCAGCTTT
    TCGAAGTTTA CCAACCGGCT GTCACTGAAG GAGAAGTCGG AGAGGAGAAA TGATGCTGAG
    TTGGCACCCC AGGAACAGCC CCTATTCCGC CAGAGATCAC TGAGCATTGA ATGGTCCTCT
    TCACCGAAGA TGACTCAACA AATGAGGGAC TTACAGCTAT CACAAACCAA GAAGCCTTCG
    GGCCCCTCCT CGCCAAATGC TGCTAAGAGG CTCTACAGAA ACCTATCTGG AAAGTTTCGG
    GTGAACTACA TGTCGTTTGA TGAGGGCAGC CTGACAGCAC GTAATGAGAA GGAACGTCTG
    CGGAAGCCAT GTTTAGTACG TTACTACTGT TCTTTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGAGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGACAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCCTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    CloneID OXa46939
    Clone ID Related Accession (Same CDS sequence) XM_018097588.1
    Accession Version XM_018097588.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X3
    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##

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCTC TTCACCGAAG
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTAGTAC GTTACTACTG TTCTTTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGAGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGACAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCCTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    RefSeq XP_017953077.1
    CDS144..3905
    Translation

    Target ORF information:

    RefSeq Version XM_018097588.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097588.1

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCTC TTCACCGAAG
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTAGTAC GTTACTACTG TTCTTTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGAGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGACAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCCTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    CloneID OXa66834
    Clone ID Related Accession (Same CDS sequence) XM_018097586.2
    Accession Version XM_018097586.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4131bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X1
    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, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018097586.1. ##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
    3901
    3961
    4021
    4081
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCATAG GCAGCTTTTC GAAGTTTACC AACCGGCTGT CACTGAAGGA GAAGTCGGAG
    AGGAGAAATG ATGCTGAGTT GGCACCCCAG GAACAGCCCC TATTCCGCCA GAGATCACTG
    AGCATTGAAT GGTCCTCTTC ACCGAAGATG ACTCAACAAA TGAGGGACTT ACAGCTATCA
    CAAACCAAGA AGCCTTCGGG CCCCTCCTCG CCAAATGCTG CTAAGAGGCT CTACAGAAAC
    CTATCTGGAA AGTTTCGGGT GAACTACATG TCGTTTGATG AGGGCAGCCT GACAGCACGT
    AATGAGAAGG AACGTCTGCG GAAGCCATGT TTATTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGCGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGTCAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCGTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    RefSeq XP_017953075.1
    CDS366..4496
    Translation

    Target ORF information:

    RefSeq Version XM_018097586.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018097586.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCATAG GCAGCTTTTC GAAGTTTACC AACCGGCTGT CACTGAAGGA GAAGTCGGAG
    AGGAGAAATG ATGCTGAGTT GGCACCCCAG GAACAGCCCC TATTCCGCCA GAGATCACTG
    AGCATTGAAT GGTCCTCTTC ACCGAAGATG ACTCAACAAA TGAGGGACTT ACAGCTATCA
    CAAACCAAGA AGCCTTCGGG CCCCTCCTCG CCAAATGCTG CTAAGAGGCT CTACAGAAAC
    CTATCTGGAA AGTTTCGGGT GAACTACATG TCGTTTGATG AGGGCAGCCT GACAGCACGT
    AATGAGAAGG AACGTCTGCG GAAGCCATGT TTATTTCAGG GTAATGCTGC CCTCTTTGAG
    GCTGTGGAGA TGCAGGATCT AGACCGAGTA CAGGAACTTC TCAAGCAGTT CAGTGTCGAG
    GAACTGGATC TTAACACCCC CAACAGTGAG GGACTCCTTC CTCTGGACAT CGCTATAATG
    ACAAATAATG CTCCAATAGC TAAAACACTG CTACAGGCAG GAGCAAAAGA GAGTCCACAC
    TTTATGAGCT TGGAAAGTCG CTCTCTCCAC CTGTCTACAC TAGTGCGAGA GGCAGAGCAA
    AGGGTGAATG ACCTCACGGC TCAAGTGGTA AATGAGGCAC CAAACGCCGA CTGCTCCGAG
    AAAGAGAAAC AACTGAAGTC CTGGGAATGG CGATACCGGC TCTATAAGCG CATGAAAGCT
    GGATTCGAAC ATGCACGTGT GCCAGATCCA CCGACCAACG TGCGTCTGGC AGTAACCAGC
    AGTACCACGC TACAGGTCAC CTTCCAGGAG CCACTCAGTG TTAACTCAGC AGTTGTCACA
    AAATACAAAG TTGAGTGGAG CCTTTCCTCT TCTTTTTCTC CCAACGTGGG AGAGGTGGTC
    ATCGAGAAGC TGAGAAATCT GCATTTTAAC ATAAGAGGCC TCACTTCAGG GACGCAATAT
    TATGTACAGG TGTCGGCCTA CAACATGAAG GGCTGGGGGC CACCACAACC CTCTCTTCCA
    GCTTTTGCCA TCCCCTCGAA CTGGCGTGAG TACGATGGCA GGGCGCCAAG AAGAAGAGGA
    CAGACTGAAG CCCTAGATTT GCTTCTCAGT CAGGTGAAGA CCTACCACCA ACACTGCGTG
    TGTCATGAGC CATTTAAGAA CCAGCCACAA AGCAGAAAGC ATTCTGTATC CAAGAGCCTC
    AAACACCTCT TTCACCCCAG TAGCAAGTTT CTAAAAGGCC TTAAGAGGGG CCTTTACCTG
    GCATCAATAT TTTATAAGGA TGACAACATC CTCGTAACTC ATGAAGATCA AATCCCAGTG
    GTGGAGATAG ACGATTCCTA CTCTTGCTTG CTCATGCAGG ACTTTCTTTG GTTTACAAAG
    GTATCGTGTA TGTGGGATGA CATCTTGTGG TTACGTCAGT GCGTCACCGT GTCACAATCC
    TCCTGTTCTT GCGTCTTGCA AACCCGATTC AAGATGCTGC TGGCTGTGTC CCAGATGCAG
    GGTTTGTTAG GATTTCAGGA CCTGGGTCAG GTATTCTTTG AGCCCATCAA GGACAAGCAG
    GGAAACATTC TGATAGTGAC TCTGAAGGAG GTGAAACTGA GCCAGACGCT GGAGAACGTA
    CGCTGGATGC CGGTGTTCAA ACTGCAGACT CATAGGAAGT CAGTCTCATC CCCGGACGAG
    CCGAGCGCTC TGGACGTCCT GCTGATGACA CTGCATGAAA AAATGGAATA TCACAGAAGA
    AGCAGCCAGG CTCTGGCCCC AGGCCTATAC TTGGGGTATC TCAAGCTGAG CAGCGCAGTG
    GATCAGATTC GGGTCCTGGT ACCTGAGAGG TTACCCAACA TCCTTTGCCA TGTGAAGATT
    CGATCTAATT CCAATGTGTC ACGAGAGGAA TGGGAATGGC TGCAGACCCT GGCCAGTGGT
    GAGGATTCTA TTGCCAATGA GCAGGACACG GAGAGCTGCC AAAACCTATT GCTTGAAGAA
    CTGAGAACGG CTGTGAAGGA ACTCATGAAC CAAGTCAACA TTCCTCATCA TGAGGCTAAA
    GACTTCCGTC TATACAGTCA AGAAGTCCTT GAATTTGGAG GTCAGGTGTC CTTCCTTCTG
    CTGCTGCCTC CATCCGATGA TGTATGTACG GCTCCTGGTC AGAACAATCC CTACACCCCG
    TACTCTGGCT TCCTCACACT GCCTCTGCAG ATTTTTGAGC TCGTTCATTT TTTTACGTAT
    GACCGGGATT TCATTAGTCA GTACTGCCAA GCGTCAGCCT TACTGGAACT GGAGTCCCTT
    CTTTCTCAGC AAAGCCTAAG GGAAGCCTTT TCGGACTCAG AGCTCACTAC AGCAAAGCAG
    CGGCATCAGC AAATTCAGGA CTATATCCAG CAAATGGAGG AGATCTGGAG AGAGATGCGC
    TGGATGATGG ACGCACTGCA GCATGCCAGA TACAAGCAGC CATCATGTAC TGTGCCCCTC
    ACTTGTTTCC TGGACGGGGC TGGAGATGGG TTCCTGAAGG AGAAGCCTCC ATCCACCTCA
    TCGCATTTAG ACTATTTCCC ATCACCAACT CCCTCTCCTG AAAACAGCAG GAAACTCAAC
    TCAGATCTCC TTCCTGCTCC CTATTCTGAC AATTTACTAC TGGATGTGAA ATTTGCAAAT
    CAGTCTTCCC CACTTTTGGA TTCACATGGT GTGTCGGATG AAGAGGGCTC TTCTGAAGTC
    TTCCTGGCCA CTGACAGTGA CTATGATTCC AGCCGAGCGC AGAGCCCCAA AGAGCTGGAT
    CTGGTTTATT CTTCAGGGCA GGAATGTGGC AGGAGAAACC TGCGCAGCTT CAGAGATGGA
    ACTCCCGACG TTCTGCAGAC TCATGACTCC AAAGTTTTGC CTCAGGAAGA TGAGCGGCCA
    CAGCAGCTTT ATGACAGTGA TTTTGTGCTT CCCAGCCGTC AGATTGAGTT ACTGCGAATT
    ACGGAGAAGA GGCAAGCGTA TTGCGTCCGT ACTAGCAGCC TTGATTTCCC CAAACACCCT
    TACAAAGCCT CTCGAAAGTC ATGCCCTGGT TCTGTTGACA GCTCCCCAAC AGAGACAAAA
    GCTGCAGGGT ACCACAGTGT TCGAGGGCTG AGGACAAGCA CTTCTTTTAG CCCAGACCAT
    GAACTGAGAT GTGACAGCTC ACAGCGGATT TACCGCACAC ACTCTGTTGA GTGGACGCAT
    GACTTCCAAG AACCCTTGGA ACCAAAACTT ATAACGGGGC AAGGAAAAAA GAACAATTCT
    GTTACTATTC GGATATTTCC ACAGTATGAG ACTGGTTTGT CTAAAGAGAT GAGTGTTAAG
    TTGCATATAA CAAGCAAAAC CCCTGCCCAG GAGGTGGTCA AGCTGGTGGT TTTACAGATG
    AATGAGATCT CCAGGAGTAT GCAAGGTAAC ACTGAGGCCT ACTGCTACGC TGAAGATCAG
    CTGGACCACT TTGCACTGGT TTTCACTTCA GAAAACAATA AAGAACAGTG GTTGGCTGAT
    GACTTTCTGC CTTTCTCCCT CCACAACAGC TGGAACAAGG GACACTTCTC AGTGCGAATT
    AGAGACACCT CACCTTTGCT TTTCCAGTAC GGACCAGCGA CAACTGTATG A

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

    CloneID OXa66835
    Clone ID Related Accession (Same CDS sequence) XM_031893332.1
    Accession Version XM_031893332.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4116bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X2
    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, supported by 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
    3901
    3961
    4021
    4081
    ATGTGTGAGA AGTCAGCAGC TGAGAAGAGG TTGTCCGTCT TCTCCTTGGG GCTGCAAATA 
    AGTCTGGCTT TATCCACCCG TCGCTGGTCC CGCCAGGATA CCCCAATGTC CCTGGATAGG
    AAGCTGCAGA GACCTGTTCT TGGGAAGTCT TTGACCCTTC CCAGCATTCC CCAGTCCCCA
    GTGCTTACCA GAGTCCCACA GCATCAGGAC AGCGTTCCTC GGCTTCCGGC AGCTGGCTCA
    TCAGACTCTA TGGTAATCTG CAAACTGCCC CCTGCTGTGG ACTCATGGCG CTCAGGAGAC
    TCTCTTATGA ATGCTGGTCC TTTGGCGCCA AGGCTTATGT CCTCCCCAGA GGAGCCTCGA
    CTCCAGCAAC CCTTCCACAT GCGGAAGAGC TTTTCCGTGG ACAACCACCT TAGTTCCTGT
    CATTATCCAC TGCATCCACC TGATCCTCAA GGGCTACGAG TGAAGAATAA GCTCAGGAGA
    CAGTTTAGTC TGGGCTCAGC AGACCGCAAA GAATTCCAGA CACCAAGGTC CATAGGCAGC
    TTTTCGAAGT TTACCAACCG GCTGTCACTG AAGGAGAAGT CGGAGAGGAG AAATGATGCT
    GAGTTGGCAC CCCAGGAACA GCCCCTATTC CGCCAGAGAT CACTGAGCAT TGAATGGTCC
    TCTTCACCGA AGATGACTCA ACAAATGAGG GACTTACAGC TATCACAAAC CAAGAAGCCT
    TCGGGCCCCT CCTCGCCAAA TGCTGCTAAG AGGCTCTACA GAAACCTATC TGGAAAGTTT
    CGGGTGAACT ACATGTCGTT TGATGAGGGC AGCCTGACAG CACGTAATGA GAAGGAACGT
    CTGCGGAAGC CATGTTTATT TCAGGGTAAT GCTGCCCTCT TTGAGGCTGT GGAGATGCAG
    GATCTAGACC GAGTACAGGA ACTTCTCAAG CAGTTCAGTG TCGAGGAACT GGATCTTAAC
    ACCCCCAACA GTGAGGGACT CCTTCCTCTG GACATCGCTA TAATGACAAA TAATGCTCCA
    ATAGCTAAAA CACTGCTACA GGCAGGAGCA AAAGAGAGTC CACACTTTAT GAGCTTGGAA
    AGTCGCTCTC TCCACCTGTC TACACTAGTG CGAGAGGCAG AGCAAAGGGT GAATGACCTC
    ACGGCTCAAG TGGTAAATGA GGCACCAAAC GCCGACTGCT CCGAGAAAGA GAAACAACTG
    AAGTCCTGGG AATGGCGATA CCGGCTCTAT AAGCGCATGA AAGCTGGATT CGAACATGCA
    CGTGTGCCAG ATCCACCGAC CAACGTGCGT CTGGCAGTAA CCAGCAGTAC CACGCTACAG
    GTCACCTTCC AGGAGCCACT CAGTGTTAAC TCAGCAGTTG TCACAAAATA CAAAGTTGAG
    TGGAGCCTTT CCTCTTCTTT TTCTCCCAAC GTGGGAGAGG TGGTCATCGA GAAGCTGAGA
    AATCTGCATT TTAACATAAG AGGCCTCACT TCAGGGACGC AATATTATGT ACAGGTGTCG
    GCCTACAACA TGAAGGGCTG GGGGCCACCA CAACCCTCTC TTCCAGCTTT TGCCATCCCC
    TCGAACTGGC GTGAGTACGA TGGCAGGGCG CCAAGAAGAA GAGGACAGAC TGAAGCCCTA
    GATTTGCTTC TCAGTCAGGT GAAGACCTAC CACCAACACT GCGTGTGTCA TGAGCCATTT
    AAGAACCAGC CACAAAGCAG AAAGCATTCT GTATCCAAGA GCCTCAAACA CCTCTTTCAC
    CCCAGTAGCA AGTTTCTAAA AGGCCTTAAG AGGGGCCTTT ACCTGGCATC AATATTTTAT
    AAGGATGACA ACATCCTCGT AACTCATGAA GATCAAATCC CAGTGGTGGA GATAGACGAT
    TCCTACTCTT GCTTGCTCAT GCAGGACTTT CTTTGGTTTA CAAAGGTATC GTGTATGTGG
    GATGACATCT TGTGGTTACG TCAGTGCGTC ACCGTGTCAC AATCCTCCTG TTCTTGCGTC
    TTGCAAACCC GATTCAAGAT GCTGCTGGCT GTGTCCCAGA TGCAGGGTTT GTTAGGATTT
    CAGGACCTGG GTCAGGTATT CTTTGAGCCC ATCAAGGACA AGCAGGGAAA CATTCTGATA
    GTGACTCTGA AGGAGGTGAA ACTGAGCCAG ACGCTGGAGA ACGTACGCTG GATGCCGGTG
    TTCAAACTGC AGACTCATAG GAAGTCAGTC TCATCCCCGG ACGAGCCGAG CGCTCTGGAC
    GTCCTGCTGA TGACACTGCA TGAAAAAATG GAATATCACA GAAGAAGCAG CCAGGCTCTG
    GCCCCAGGCC TATACTTGGG GTATCTCAAG CTGAGCAGCG CAGTGGATCA GATTCGGGTC
    CTGGTACCTG AGAGGTTACC CAACATCCTT TGCCATGTGA AGATTCGATC TAATTCCAAT
    GTGTCACGAG AGGAATGGGA ATGGCTGCAG ACCCTGGCCA GTGGTGAGGA TTCTATTGCC
    AATGAGCAGG ACACGGAGAG CTGCCAAAAC CTATTGCTTG AAGAACTGAG AACGGCTGTG
    AAGGAACTCA TGAACCAAGT CAACATTCCT CATCATGAGG CTAAAGACTT CCGTCTATAC
    AGTCAAGAAG TCCTTGAATT TGGAGGTCAG GTGTCCTTCC TTCTGCTGCT GCCTCCATCC
    GATGATGTAT GTACGGCTCC TGGTCAGAAC AATCCCTACA CCCCGTACTC TGGCTTCCTC
    ACACTGCCTC TGCAGATTTT TGAGCTCGTT CATTTTTTTA CGTATGACCG GGATTTCATT
    AGTCAGTACT GCCAAGCGTC AGCCTTACTG GAACTGGAGT CCCTTCTTTC TCAGCAAAGC
    CTAAGGGAAG CCTTTTCGGA CTCAGAGCTC ACTACAGCAA AGCAGCGGCA TCAGCAAATT
    CAGGACTATA TCCAGCAAAT GGAGGAGATC TGGAGAGAGA TGCGCTGGAT GATGGACGCA
    CTGCAGCATG CCAGATACAA GCAGCCATCA TGTACTGTGC CCCTCACTTG TTTCCTGGAC
    GGGGCTGGAG ATGGGTTCCT GAAGGAGAAG CCTCCATCCA CCTCATCGCA TTTAGACTAT
    TTCCCATCAC CAACTCCCTC TCCTGAAAAC AGCAGGAAAC TCAACTCAGA TCTCCTTCCT
    GCTCCCTATT CTGACAATTT ACTACTGGAT GTGAAATTTG CAAATCAGTC TTCCCCACTT
    TTGGATTCAC ATGGTGTGTC GGATGAAGAG GGCTCTTCTG AAGTCTTCCT GGCCACTGAC
    AGTGACTATG ATTCCAGCCG AGCGCAGAGC CCCAAAGAGC TGGATCTGGT TTATTCTTCA
    GGGCAGGAAT GTGGCAGGAG AAACCTGCGC AGCTTCAGAG ATGGAACTCC CGACGTTCTG
    CAGACTCATG ACTCCAAAGT TTTGCCTCAG GAAGATGAGC GGCCACAGCA GCTTTATGAC
    AGTGATTTTG TGCTTCCCAG CCGTCAGATT GAGTTACTGC GAATTACGGA GAAGAGGCAA
    GCGTATTGCG TCCGTACTAG CAGCCTTGAT TTCCCCAAAC ACCCTTACAA AGCCTCTCGA
    AAGTCATGCC CTGGTTCTGT TGACAGCTCC CCAACAGAGA CAAAAGCTGC AGGGTACCAC
    AGTGTTCGAG GGCTGAGGAC AAGCACTTCT TTTAGCCCAG ACCATGAACT GAGATGTGAC
    AGCTCACAGC GGATTTACCG CACACACTCT GTTGAGTGGA CGCATGACTT CCAAGAACCC
    TTGGAACCAA AACTTATAAC GGGGCAAGGA AAAAAGAACA ATTCTGTTAC TATTCGGATA
    TTTCCACAGT ATGAGACTGG TTTGTCTAAA GAGATGAGTG TTAAGTTGCA TATAACAAGC
    AAAACCCCTG CCCAGGAGGT GGTCAAGCTG GTGGTTTTAC AGATGAATGA GATCTCCAGG
    AGTATGCAAG GTAACACTGA GGCCTACTGC TACGCTGAAG ATCAGCTGGA CCACTTTGCA
    CTGGTTTTCA CTTCAGAAAA CAATAAAGAA CAGTGGTTGG CTGATGACTT TCTGCCTTTC
    TCCCTCCACA ACAGCTGGAA CAAGGGACAC TTCTCAGTGC GAATTAGAGA CACCTCACCT
    TTGCTTTTCC AGTACGGACC AGCGACAACT GTATGA

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

    RefSeq XP_031749192.1
    CDS76..4191
    Translation

    Target ORF information:

    RefSeq Version XM_031893332.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893332.1

    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
    ATGTGTGAGA AGTCAGCAGC TGAGAAGAGG TTGTCCGTCT TCTCCTTGGG GCTGCAAATA 
    AGTCTGGCTT TATCCACCCG TCGCTGGTCC CGCCAGGATA CCCCAATGTC CCTGGATAGG
    AAGCTGCAGA GACCTGTTCT TGGGAAGTCT TTGACCCTTC CCAGCATTCC CCAGTCCCCA
    GTGCTTACCA GAGTCCCACA GCATCAGGAC AGCGTTCCTC GGCTTCCGGC AGCTGGCTCA
    TCAGACTCTA TGGTAATCTG CAAACTGCCC CCTGCTGTGG ACTCATGGCG CTCAGGAGAC
    TCTCTTATGA ATGCTGGTCC TTTGGCGCCA AGGCTTATGT CCTCCCCAGA GGAGCCTCGA
    CTCCAGCAAC CCTTCCACAT GCGGAAGAGC TTTTCCGTGG ACAACCACCT TAGTTCCTGT
    CATTATCCAC TGCATCCACC TGATCCTCAA GGGCTACGAG TGAAGAATAA GCTCAGGAGA
    CAGTTTAGTC TGGGCTCAGC AGACCGCAAA GAATTCCAGA CACCAAGGTC CATAGGCAGC
    TTTTCGAAGT TTACCAACCG GCTGTCACTG AAGGAGAAGT CGGAGAGGAG AAATGATGCT
    GAGTTGGCAC CCCAGGAACA GCCCCTATTC CGCCAGAGAT CACTGAGCAT TGAATGGTCC
    TCTTCACCGA AGATGACTCA ACAAATGAGG GACTTACAGC TATCACAAAC CAAGAAGCCT
    TCGGGCCCCT CCTCGCCAAA TGCTGCTAAG AGGCTCTACA GAAACCTATC TGGAAAGTTT
    CGGGTGAACT ACATGTCGTT TGATGAGGGC AGCCTGACAG CACGTAATGA GAAGGAACGT
    CTGCGGAAGC CATGTTTATT TCAGGGTAAT GCTGCCCTCT TTGAGGCTGT GGAGATGCAG
    GATCTAGACC GAGTACAGGA ACTTCTCAAG CAGTTCAGTG TCGAGGAACT GGATCTTAAC
    ACCCCCAACA GTGAGGGACT CCTTCCTCTG GACATCGCTA TAATGACAAA TAATGCTCCA
    ATAGCTAAAA CACTGCTACA GGCAGGAGCA AAAGAGAGTC CACACTTTAT GAGCTTGGAA
    AGTCGCTCTC TCCACCTGTC TACACTAGTG CGAGAGGCAG AGCAAAGGGT GAATGACCTC
    ACGGCTCAAG TGGTAAATGA GGCACCAAAC GCCGACTGCT CCGAGAAAGA GAAACAACTG
    AAGTCCTGGG AATGGCGATA CCGGCTCTAT AAGCGCATGA AAGCTGGATT CGAACATGCA
    CGTGTGCCAG ATCCACCGAC CAACGTGCGT CTGGCAGTAA CCAGCAGTAC CACGCTACAG
    GTCACCTTCC AGGAGCCACT CAGTGTTAAC TCAGCAGTTG TCACAAAATA CAAAGTTGAG
    TGGAGCCTTT CCTCTTCTTT TTCTCCCAAC GTGGGAGAGG TGGTCATCGA GAAGCTGAGA
    AATCTGCATT TTAACATAAG AGGCCTCACT TCAGGGACGC AATATTATGT ACAGGTGTCG
    GCCTACAACA TGAAGGGCTG GGGGCCACCA CAACCCTCTC TTCCAGCTTT TGCCATCCCC
    TCGAACTGGC GTGAGTACGA TGGCAGGGCG CCAAGAAGAA GAGGACAGAC TGAAGCCCTA
    GATTTGCTTC TCAGTCAGGT GAAGACCTAC CACCAACACT GCGTGTGTCA TGAGCCATTT
    AAGAACCAGC CACAAAGCAG AAAGCATTCT GTATCCAAGA GCCTCAAACA CCTCTTTCAC
    CCCAGTAGCA AGTTTCTAAA AGGCCTTAAG AGGGGCCTTT ACCTGGCATC AATATTTTAT
    AAGGATGACA ACATCCTCGT AACTCATGAA GATCAAATCC CAGTGGTGGA GATAGACGAT
    TCCTACTCTT GCTTGCTCAT GCAGGACTTT CTTTGGTTTA CAAAGGTATC GTGTATGTGG
    GATGACATCT TGTGGTTACG TCAGTGCGTC ACCGTGTCAC AATCCTCCTG TTCTTGCGTC
    TTGCAAACCC GATTCAAGAT GCTGCTGGCT GTGTCCCAGA TGCAGGGTTT GTTAGGATTT
    CAGGACCTGG GTCAGGTATT CTTTGAGCCC ATCAAGGACA AGCAGGGAAA CATTCTGATA
    GTGACTCTGA AGGAGGTGAA ACTGAGCCAG ACGCTGGAGA ACGTACGCTG GATGCCGGTG
    TTCAAACTGC AGACTCATAG GAAGTCAGTC TCATCCCCGG ACGAGCCGAG CGCTCTGGAC
    GTCCTGCTGA TGACACTGCA TGAAAAAATG GAATATCACA GAAGAAGCAG CCAGGCTCTG
    GCCCCAGGCC TATACTTGGG GTATCTCAAG CTGAGCAGCG CAGTGGATCA GATTCGGGTC
    CTGGTACCTG AGAGGTTACC CAACATCCTT TGCCATGTGA AGATTCGATC TAATTCCAAT
    GTGTCACGAG AGGAATGGGA ATGGCTGCAG ACCCTGGCCA GTGGTGAGGA TTCTATTGCC
    AATGAGCAGG ACACGGAGAG CTGCCAAAAC CTATTGCTTG AAGAACTGAG AACGGCTGTG
    AAGGAACTCA TGAACCAAGT CAACATTCCT CATCATGAGG CTAAAGACTT CCGTCTATAC
    AGTCAAGAAG TCCTTGAATT TGGAGGTCAG GTGTCCTTCC TTCTGCTGCT GCCTCCATCC
    GATGATGTAT GTACGGCTCC TGGTCAGAAC AATCCCTACA CCCCGTACTC TGGCTTCCTC
    ACACTGCCTC TGCAGATTTT TGAGCTCGTT CATTTTTTTA CGTATGACCG GGATTTCATT
    AGTCAGTACT GCCAAGCGTC AGCCTTACTG GAACTGGAGT CCCTTCTTTC TCAGCAAAGC
    CTAAGGGAAG CCTTTTCGGA CTCAGAGCTC ACTACAGCAA AGCAGCGGCA TCAGCAAATT
    CAGGACTATA TCCAGCAAAT GGAGGAGATC TGGAGAGAGA TGCGCTGGAT GATGGACGCA
    CTGCAGCATG CCAGATACAA GCAGCCATCA TGTACTGTGC CCCTCACTTG TTTCCTGGAC
    GGGGCTGGAG ATGGGTTCCT GAAGGAGAAG CCTCCATCCA CCTCATCGCA TTTAGACTAT
    TTCCCATCAC CAACTCCCTC TCCTGAAAAC AGCAGGAAAC TCAACTCAGA TCTCCTTCCT
    GCTCCCTATT CTGACAATTT ACTACTGGAT GTGAAATTTG CAAATCAGTC TTCCCCACTT
    TTGGATTCAC ATGGTGTGTC GGATGAAGAG GGCTCTTCTG AAGTCTTCCT GGCCACTGAC
    AGTGACTATG ATTCCAGCCG AGCGCAGAGC CCCAAAGAGC TGGATCTGGT TTATTCTTCA
    GGGCAGGAAT GTGGCAGGAG AAACCTGCGC AGCTTCAGAG ATGGAACTCC CGACGTTCTG
    CAGACTCATG ACTCCAAAGT TTTGCCTCAG GAAGATGAGC GGCCACAGCA GCTTTATGAC
    AGTGATTTTG TGCTTCCCAG CCGTCAGATT GAGTTACTGC GAATTACGGA GAAGAGGCAA
    GCGTATTGCG TCCGTACTAG CAGCCTTGAT TTCCCCAAAC ACCCTTACAA AGCCTCTCGA
    AAGTCATGCC CTGGTTCTGT TGACAGCTCC CCAACAGAGA CAAAAGCTGC AGGGTACCAC
    AGTGTTCGAG GGCTGAGGAC AAGCACTTCT TTTAGCCCAG ACCATGAACT GAGATGTGAC
    AGCTCACAGC GGATTTACCG CACACACTCT GTTGAGTGGA CGCATGACTT CCAAGAACCC
    TTGGAACCAA AACTTATAAC GGGGCAAGGA AAAAAGAACA ATTCTGTTAC TATTCGGATA
    TTTCCACAGT ATGAGACTGG TTTGTCTAAA GAGATGAGTG TTAAGTTGCA TATAACAAGC
    AAAACCCCTG CCCAGGAGGT GGTCAAGCTG GTGGTTTTAC AGATGAATGA GATCTCCAGG
    AGTATGCAAG GTAACACTGA GGCCTACTGC TACGCTGAAG ATCAGCTGGA CCACTTTGCA
    CTGGTTTTCA CTTCAGAAAA CAATAAAGAA CAGTGGTTGG CTGATGACTT TCTGCCTTTC
    TCCCTCCACA ACAGCTGGAA CAAGGGACAC TTCTCAGTGC GAATTAGAGA CACCTCACCT
    TTGCTTTTCC AGTACGGACC AGCGACAACT GTATGA

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

    CloneID OXa66836
    Clone ID Related Accession (Same CDS sequence) XM_031893333.1
    Accession Version XM_031893333.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4002bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X3
    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, supported by 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
    3901
    3961
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCTCTT CACCGAAGAT GACTCAACAA ATGAGGGACT TACAGCTATC ACAAACCAAG
    AAGCCTTCGG GCCCCTCCTC GCCAAATGCT GCTAAGAGGC TCTACAGAAA CCTATCTGGA
    AAGTTTCGGG TGAACTACAT GTCGTTTGAT GAGGGCAGCC TGACAGCACG TAATGAGAAG
    GAACGTCTGC GGAAGCCATG TTTATTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGCGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGTCAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCGTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    RefSeq XP_031749193.1
    CDS366..4367
    Translation

    Target ORF information:

    RefSeq Version XM_031893333.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893333.1

    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
    ATGTCCTCGT TTGGGAAGCT GACCGAGTAC TTCAGCTTGA GGAAGTCACG GGAGGACATT 
    CGGCCTGGAC GCAGCACTGG CAGAAGGAGT GGGAGCTATT GTTGTACCAT TACACAGTCC
    AGGTCCCTGG ATAGGAAGCT GCAGAGACCT GTTCTTGGGA AGTCTTTGAC CCTTCCCAGC
    ATTCCCCAGT CCCCAGTGCT TACCAGAGTC CCACAGCATC AGGACAGCGT TCCTCGGCTT
    CCGGCAGCTG GCTCATCAGA CTCTATGGTA ATCTGCAAAC TGCCCCCTGC TGTGGACTCA
    TGGCGCTCAG GAGACTCTCT TATGAATGCT GGTCCTTTGG CGCCAAGGCT TATGTCCTCC
    CCAGAGGAGC CTCGACTCCA GCAACCCTTC CACATGCGGA AGAGCTTTTC CGTGGACAAC
    CACCTTAGTT CCTGTCATTA TCCACTGCAT CCACCTGATC CTCAAGGGCT ACGAGTGAAG
    AATAAGCTCA GGAGACAGTT TAGTCTGGGC TCAGCAGACC GCAAAGAATT CCAGACACCA
    AGGTCCTCTT CACCGAAGAT GACTCAACAA ATGAGGGACT TACAGCTATC ACAAACCAAG
    AAGCCTTCGG GCCCCTCCTC GCCAAATGCT GCTAAGAGGC TCTACAGAAA CCTATCTGGA
    AAGTTTCGGG TGAACTACAT GTCGTTTGAT GAGGGCAGCC TGACAGCACG TAATGAGAAG
    GAACGTCTGC GGAAGCCATG TTTATTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGCGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGTCAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCGTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    CloneID OXa66837
    Clone ID Related Accession (Same CDS sequence) XM_031893334.1
    Accession Version XM_031893334.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3873bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X4
    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, supported by 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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCAT AGGCAGCTTT
    TCGAAGTTTA CCAACCGGCT GTCACTGAAG GAGAAGTCGG AGAGGAGAAA TGATGCTGAG
    TTGGCACCCC AGGAACAGCC CCTATTCCGC CAGAGATCAC TGAGCATTGA ATGGTCCTCT
    TCACCGAAGA TGACTCAACA AATGAGGGAC TTACAGCTAT CACAAACCAA GAAGCCTTCG
    GGCCCCTCCT CGCCAAATGC TGCTAAGAGG CTCTACAGAA ACCTATCTGG AAAGTTTCGG
    GTGAACTACA TGTCGTTTGA TGAGGGCAGC CTGACAGCAC GTAATGAGAA GGAACGTCTG
    CGGAAGCCAT GTTTATTTCA GGGTAATGCT GCCCTCTTTG AGGCTGTGGA GATGCAGGAT
    CTAGACCGAG TACAGGAACT TCTCAAGCAG TTCAGTGTCG AGGAACTGGA TCTTAACACC
    CCCAACAGTG AGGGACTCCT TCCTCTGGAC ATCGCTATAA TGACAAATAA TGCTCCAATA
    GCTAAAACAC TGCTACAGGC AGGAGCAAAA GAGAGTCCAC ACTTTATGAG CTTGGAAAGT
    CGCTCTCTCC ACCTGTCTAC ACTAGTGCGA GAGGCAGAGC AAAGGGTGAA TGACCTCACG
    GCTCAAGTGG TAAATGAGGC ACCAAACGCC GACTGCTCCG AGAAAGAGAA ACAACTGAAG
    TCCTGGGAAT GGCGATACCG GCTCTATAAG CGCATGAAAG CTGGATTCGA ACATGCACGT
    GTGCCAGATC CACCGACCAA CGTGCGTCTG GCAGTAACCA GCAGTACCAC GCTACAGGTC
    ACCTTCCAGG AGCCACTCAG TGTTAACTCA GCAGTTGTCA CAAAATACAA AGTTGAGTGG
    AGCCTTTCCT CTTCTTTTTC TCCCAACGTG GGAGAGGTGG TCATCGAGAA GCTGAGAAAT
    CTGCATTTTA ACATAAGAGG CCTCACTTCA GGGACGCAAT ATTATGTACA GGTGTCGGCC
    TACAACATGA AGGGCTGGGG GCCACCACAA CCCTCTCTTC CAGCTTTTGC CATCCCCTCG
    AACTGGCGTG AGTACGATGG CAGGGCGCCA AGAAGAAGAG GACAGACTGA AGCCCTAGAT
    TTGCTTCTCA GTCAGGTGAA GACCTACCAC CAACACTGCG TGTGTCATGA GCCATTTAAG
    AACCAGCCAC AAAGCAGAAA GCATTCTGTA TCCAAGAGCC TCAAACACCT CTTTCACCCC
    AGTAGCAAGT TTCTAAAAGG CCTTAAGAGG GGCCTTTACC TGGCATCAAT ATTTTATAAG
    GATGACAACA TCCTCGTAAC TCATGAAGAT CAAATCCCAG TGGTGGAGAT AGACGATTCC
    TACTCTTGCT TGCTCATGCA GGACTTTCTT TGGTTTACAA AGGTATCGTG TATGTGGGAT
    GACATCTTGT GGTTACGTCA GTGCGTCACC GTGTCACAAT CCTCCTGTTC TTGCGTCTTG
    CAAACCCGAT TCAAGATGCT GCTGGCTGTG TCCCAGATGC AGGGTTTGTT AGGATTTCAG
    GACCTGGGTC AGGTATTCTT TGAGCCCATC AAGGACAAGC AGGGAAACAT TCTGATAGTG
    ACTCTGAAGG AGGTGAAACT GAGCCAGACG CTGGAGAACG TACGCTGGAT GCCGGTGTTC
    AAACTGCAGA CTCATAGGAA GTCAGTCTCA TCCCCGGACG AGCCGAGCGC TCTGGACGTC
    CTGCTGATGA CACTGCATGA AAAAATGGAA TATCACAGAA GAAGCAGCCA GGCTCTGGCC
    CCAGGCCTAT ACTTGGGGTA TCTCAAGCTG AGCAGCGCAG TGGATCAGAT TCGGGTCCTG
    GTACCTGAGA GGTTACCCAA CATCCTTTGC CATGTGAAGA TTCGATCTAA TTCCAATGTG
    TCACGAGAGG AATGGGAATG GCTGCAGACC CTGGCCAGTG GTGAGGATTC TATTGCCAAT
    GAGCAGGACA CGGAGAGCTG CCAAAACCTA TTGCTTGAAG AACTGAGAAC GGCTGTGAAG
    GAACTCATGA ACCAAGTCAA CATTCCTCAT CATGAGGCTA AAGACTTCCG TCTATACAGT
    CAAGAAGTCC TTGAATTTGG AGGTCAGGTG TCCTTCCTTC TGCTGCTGCC TCCATCCGAT
    GATGTATGTA CGGCTCCTGG TCAGAACAAT CCCTACACCC CGTACTCTGG CTTCCTCACA
    CTGCCTCTGC AGATTTTTGA GCTCGTTCAT TTTTTTACGT ATGACCGGGA TTTCATTAGT
    CAGTACTGCC AAGCGTCAGC CTTACTGGAA CTGGAGTCCC TTCTTTCTCA GCAAAGCCTA
    AGGGAAGCCT TTTCGGACTC AGAGCTCACT ACAGCAAAGC AGCGGCATCA GCAAATTCAG
    GACTATATCC AGCAAATGGA GGAGATCTGG AGAGAGATGC GCTGGATGAT GGACGCACTG
    CAGCATGCCA GATACAAGCA GCCATCATGT ACTGTGCCCC TCACTTGTTT CCTGGACGGG
    GCTGGAGATG GGTTCCTGAA GGAGAAGCCT CCATCCACCT CATCGCATTT AGACTATTTC
    CCATCACCAA CTCCCTCTCC TGAAAACAGC AGGAAACTCA ACTCAGATCT CCTTCCTGCT
    CCCTATTCTG ACAATTTACT ACTGGATGTG AAATTTGCAA ATCAGTCTTC CCCACTTTTG
    GATTCACATG GTGTGTCGGA TGAAGAGGGC TCTTCTGAAG TCTTCCTGGC CACTGACAGT
    GACTATGATT CCAGCCGAGC GCAGAGCCCC AAAGAGCTGG ATCTGGTTTA TTCTTCAGGG
    CAGGAATGTG GCAGGAGAAA CCTGCGCAGC TTCAGAGATG GAACTCCCGA CGTTCTGCAG
    ACTCATGACT CCAAAGTTTT GCCTCAGGAA GATGAGCGGC CACAGCAGCT TTATGACAGT
    GATTTTGTGC TTCCCAGCCG TCAGATTGAG TTACTGCGAA TTACGGAGAA GAGGCAAGCG
    TATTGCGTCC GTACTAGCAG CCTTGATTTC CCCAAACACC CTTACAAAGC CTCTCGAAAG
    TCATGCCCTG GTTCTGTTGA CAGCTCCCCA ACAGAGACAA AAGCTGCAGG GTACCACAGT
    GTTCGAGGGC TGAGGACAAG CACTTCTTTT AGCCCAGACC ATGAACTGAG ATGTGACAGC
    TCACAGCGGA TTTACCGCAC ACACTCTGTT GAGTGGACGC ATGACTTCCA AGAACCCTTG
    GAACCAAAAC TTATAACGGG GCAAGGAAAA AAGAACAATT CTGTTACTAT TCGGATATTT
    CCACAGTATG AGACTGGTTT GTCTAAAGAG ATGAGTGTTA AGTTGCATAT AACAAGCAAA
    ACCCCTGCCC AGGAGGTGGT CAAGCTGGTG GTTTTACAGA TGAATGAGAT CTCCAGGAGT
    ATGCAAGGTA ACACTGAGGC CTACTGCTAC GCTGAAGATC AGCTGGACCA CTTTGCACTG
    GTTTTCACTT CAGAAAACAA TAAAGAACAG TGGTTGGCTG ATGACTTTCT GCCTTTCTCC
    CTCCACAACA GCTGGAACAA GGGACACTTC TCAGTGCGAA TTAGAGACAC CTCACCTTTG
    CTTTTCCAGT ACGGACCAGC GACAACTGTA TGA

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

    RefSeq XP_031749194.1
    CDS33..3905
    Translation

    Target ORF information:

    RefSeq Version XM_031893334.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893334.1

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCAT AGGCAGCTTT
    TCGAAGTTTA CCAACCGGCT GTCACTGAAG GAGAAGTCGG AGAGGAGAAA TGATGCTGAG
    TTGGCACCCC AGGAACAGCC CCTATTCCGC CAGAGATCAC TGAGCATTGA ATGGTCCTCT
    TCACCGAAGA TGACTCAACA AATGAGGGAC TTACAGCTAT CACAAACCAA GAAGCCTTCG
    GGCCCCTCCT CGCCAAATGC TGCTAAGAGG CTCTACAGAA ACCTATCTGG AAAGTTTCGG
    GTGAACTACA TGTCGTTTGA TGAGGGCAGC CTGACAGCAC GTAATGAGAA GGAACGTCTG
    CGGAAGCCAT GTTTATTTCA GGGTAATGCT GCCCTCTTTG AGGCTGTGGA GATGCAGGAT
    CTAGACCGAG TACAGGAACT TCTCAAGCAG TTCAGTGTCG AGGAACTGGA TCTTAACACC
    CCCAACAGTG AGGGACTCCT TCCTCTGGAC ATCGCTATAA TGACAAATAA TGCTCCAATA
    GCTAAAACAC TGCTACAGGC AGGAGCAAAA GAGAGTCCAC ACTTTATGAG CTTGGAAAGT
    CGCTCTCTCC ACCTGTCTAC ACTAGTGCGA GAGGCAGAGC AAAGGGTGAA TGACCTCACG
    GCTCAAGTGG TAAATGAGGC ACCAAACGCC GACTGCTCCG AGAAAGAGAA ACAACTGAAG
    TCCTGGGAAT GGCGATACCG GCTCTATAAG CGCATGAAAG CTGGATTCGA ACATGCACGT
    GTGCCAGATC CACCGACCAA CGTGCGTCTG GCAGTAACCA GCAGTACCAC GCTACAGGTC
    ACCTTCCAGG AGCCACTCAG TGTTAACTCA GCAGTTGTCA CAAAATACAA AGTTGAGTGG
    AGCCTTTCCT CTTCTTTTTC TCCCAACGTG GGAGAGGTGG TCATCGAGAA GCTGAGAAAT
    CTGCATTTTA ACATAAGAGG CCTCACTTCA GGGACGCAAT ATTATGTACA GGTGTCGGCC
    TACAACATGA AGGGCTGGGG GCCACCACAA CCCTCTCTTC CAGCTTTTGC CATCCCCTCG
    AACTGGCGTG AGTACGATGG CAGGGCGCCA AGAAGAAGAG GACAGACTGA AGCCCTAGAT
    TTGCTTCTCA GTCAGGTGAA GACCTACCAC CAACACTGCG TGTGTCATGA GCCATTTAAG
    AACCAGCCAC AAAGCAGAAA GCATTCTGTA TCCAAGAGCC TCAAACACCT CTTTCACCCC
    AGTAGCAAGT TTCTAAAAGG CCTTAAGAGG GGCCTTTACC TGGCATCAAT ATTTTATAAG
    GATGACAACA TCCTCGTAAC TCATGAAGAT CAAATCCCAG TGGTGGAGAT AGACGATTCC
    TACTCTTGCT TGCTCATGCA GGACTTTCTT TGGTTTACAA AGGTATCGTG TATGTGGGAT
    GACATCTTGT GGTTACGTCA GTGCGTCACC GTGTCACAAT CCTCCTGTTC TTGCGTCTTG
    CAAACCCGAT TCAAGATGCT GCTGGCTGTG TCCCAGATGC AGGGTTTGTT AGGATTTCAG
    GACCTGGGTC AGGTATTCTT TGAGCCCATC AAGGACAAGC AGGGAAACAT TCTGATAGTG
    ACTCTGAAGG AGGTGAAACT GAGCCAGACG CTGGAGAACG TACGCTGGAT GCCGGTGTTC
    AAACTGCAGA CTCATAGGAA GTCAGTCTCA TCCCCGGACG AGCCGAGCGC TCTGGACGTC
    CTGCTGATGA CACTGCATGA AAAAATGGAA TATCACAGAA GAAGCAGCCA GGCTCTGGCC
    CCAGGCCTAT ACTTGGGGTA TCTCAAGCTG AGCAGCGCAG TGGATCAGAT TCGGGTCCTG
    GTACCTGAGA GGTTACCCAA CATCCTTTGC CATGTGAAGA TTCGATCTAA TTCCAATGTG
    TCACGAGAGG AATGGGAATG GCTGCAGACC CTGGCCAGTG GTGAGGATTC TATTGCCAAT
    GAGCAGGACA CGGAGAGCTG CCAAAACCTA TTGCTTGAAG AACTGAGAAC GGCTGTGAAG
    GAACTCATGA ACCAAGTCAA CATTCCTCAT CATGAGGCTA AAGACTTCCG TCTATACAGT
    CAAGAAGTCC TTGAATTTGG AGGTCAGGTG TCCTTCCTTC TGCTGCTGCC TCCATCCGAT
    GATGTATGTA CGGCTCCTGG TCAGAACAAT CCCTACACCC CGTACTCTGG CTTCCTCACA
    CTGCCTCTGC AGATTTTTGA GCTCGTTCAT TTTTTTACGT ATGACCGGGA TTTCATTAGT
    CAGTACTGCC AAGCGTCAGC CTTACTGGAA CTGGAGTCCC TTCTTTCTCA GCAAAGCCTA
    AGGGAAGCCT TTTCGGACTC AGAGCTCACT ACAGCAAAGC AGCGGCATCA GCAAATTCAG
    GACTATATCC AGCAAATGGA GGAGATCTGG AGAGAGATGC GCTGGATGAT GGACGCACTG
    CAGCATGCCA GATACAAGCA GCCATCATGT ACTGTGCCCC TCACTTGTTT CCTGGACGGG
    GCTGGAGATG GGTTCCTGAA GGAGAAGCCT CCATCCACCT CATCGCATTT AGACTATTTC
    CCATCACCAA CTCCCTCTCC TGAAAACAGC AGGAAACTCA ACTCAGATCT CCTTCCTGCT
    CCCTATTCTG ACAATTTACT ACTGGATGTG AAATTTGCAA ATCAGTCTTC CCCACTTTTG
    GATTCACATG GTGTGTCGGA TGAAGAGGGC TCTTCTGAAG TCTTCCTGGC CACTGACAGT
    GACTATGATT CCAGCCGAGC GCAGAGCCCC AAAGAGCTGG ATCTGGTTTA TTCTTCAGGG
    CAGGAATGTG GCAGGAGAAA CCTGCGCAGC TTCAGAGATG GAACTCCCGA CGTTCTGCAG
    ACTCATGACT CCAAAGTTTT GCCTCAGGAA GATGAGCGGC CACAGCAGCT TTATGACAGT
    GATTTTGTGC TTCCCAGCCG TCAGATTGAG TTACTGCGAA TTACGGAGAA GAGGCAAGCG
    TATTGCGTCC GTACTAGCAG CCTTGATTTC CCCAAACACC CTTACAAAGC CTCTCGAAAG
    TCATGCCCTG GTTCTGTTGA CAGCTCCCCA ACAGAGACAA AAGCTGCAGG GTACCACAGT
    GTTCGAGGGC TGAGGACAAG CACTTCTTTT AGCCCAGACC ATGAACTGAG ATGTGACAGC
    TCACAGCGGA TTTACCGCAC ACACTCTGTT GAGTGGACGC ATGACTTCCA AGAACCCTTG
    GAACCAAAAC TTATAACGGG GCAAGGAAAA AAGAACAATT CTGTTACTAT TCGGATATTT
    CCACAGTATG AGACTGGTTT GTCTAAAGAG ATGAGTGTTA AGTTGCATAT AACAAGCAAA
    ACCCCTGCCC AGGAGGTGGT CAAGCTGGTG GTTTTACAGA TGAATGAGAT CTCCAGGAGT
    ATGCAAGGTA ACACTGAGGC CTACTGCTAC GCTGAAGATC AGCTGGACCA CTTTGCACTG
    GTTTTCACTT CAGAAAACAA TAAAGAACAG TGGTTGGCTG ATGACTTTCT GCCTTTCTCC
    CTCCACAACA GCTGGAACAA GGGACACTTC TCAGTGCGAA TTAGAGACAC CTCACCTTTG
    CTTTTCCAGT ACGGACCAGC GACAACTGTA TGA

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

    CloneID OXa66838
    Clone ID Related Accession (Same CDS sequence) XM_031893335.1
    Accession Version XM_031893335.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3744bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X5
    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, supported by 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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCTC TTCACCGAAG
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGCG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGTC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCGTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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

    RefSeq XP_031749195.1
    CDS33..3776
    Translation

    Target ORF information:

    RefSeq Version XM_031893335.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031893335.1

    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
    ATGCACCCAG CTCTCTCTGA CTCTCACTGG CTGCTCTATA GAAGCTACTT ACAGGACCAC 
    ACATTTCTAT GGGCTGCCCT CCTTGACAAG GAAGGAAGGG CTAAGCCAGG GTGGAAAATC
    CCGGTGACAA ATGGCCCACG GAAGGCTTTG GCCAGATTTT GGGCACTGAA CAGACGAAGG
    AAGGAGGGAA GTGTAAAAAG ACAAGGAGTT TCCCAGTGCA AAACCCCTGA TGCTGCATTG
    AAGAGTCTGG GCTCAGCAGA CCGCAAAGAA TTCCAGACAC CAAGGTCCTC TTCACCGAAG
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGCG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGTC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCGTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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

    CloneID OXa66839
    Clone ID Related Accession (Same CDS sequence) XM_002932447.5
    Accession Version XM_002932447.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3444bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X6
    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, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002932447.4. ##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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGCG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGTC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCGTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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

    RefSeq XP_002932493.2
    CDS366..3809
    Translation

    Target ORF information:

    RefSeq Version XM_002932447.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type III domain containing 1 like (ankfn1l), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932447.5

    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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGCG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGTC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCGTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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

    CloneID OXa16387
    Clone ID Related Accession (Same CDS sequence) XM_004917997.3
    Accession Version XM_004917997.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3462bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X4
    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 On Sep 8, 2016 this sequence version replaced XM_004917997.2. ##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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTAGTAC GTTACTACTG TTCTTTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGAGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGACAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCCTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    RefSeq XP_004918054.1
    CDS383..3844
    Translation

    Target ORF information:

    RefSeq Version XM_004917997.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004917997.3

    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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTAGTAC GTTACTACTG TTCTTTTCAG GGTAATGCTG CCCTCTTTGA GGCTGTGGAG
    ATGCAGGATC TAGACCGAGT ACAGGAACTT CTCAAGCAGT TCAGTGTCGA GGAACTGGAT
    CTTAACACCC CCAACAGTGA GGGACTCCTT CCTCTGGACA TCGCTATAAT GACAAATAAT
    GCTCCAATAG CTAAAACACT GCTACAGGCA GGAGCAAAAG AGAGTCCACA CTTTATGAGC
    TTGGAAAGTC GCTCTCTCCA CCTGTCTACA CTAGTGAGAG AGGCAGAGCA AAGGGTGAAT
    GACCTCACGG CTCAAGTGGT AAATGAGGCA CCAAACGCCG ACTGCTCCGA GAAAGAGAAA
    CAACTGAAGT CCTGGGAATG GCGATACCGG CTCTATAAGC GCATGAAAGC TGGATTCGAA
    CATGCACGTG TGCCAGATCC ACCGACCAAC GTGCGTCTGG CAGTAACCAG CAGTACCACG
    CTACAGGTCA CCTTCCAGGA GCCACTCAGT GTTAACTCAG CAGTTGTCAC AAAATACAAA
    GTTGAGTGGA GCCTTTCCTC TTCTTTTTCT CCCAACGTGG GAGAGGTGGT CATCGAGAAG
    CTGAGAAATC TGCATTTTAA CATAAGAGGC CTCACTTCAG GGACGCAATA TTATGTACAG
    GTGTCGGCCT ACAACATGAA GGGCTGGGGG CCACCACAAC CCTCTCTTCC AGCTTTTGCC
    ATCCCCTCGA ACTGGCGTGA GTACGATGGC AGGGCGCCAA GAAGAAGAGG ACAGACTGAA
    GCCCTAGATT TGCTTCTCAG TCAGGTGAAG ACCTACCACC AACACTGCGT GTGTCATGAG
    CCATTTAAGA ACCAGCCACA AAGCAGAAAG CATTCTGTAT CCAAGAGCCT CAAACACCTC
    TTTCACCCCA GTAGCAAGTT TCTAAAAGGC CTTAAGAGGG GCCTTTACCT GGCATCAATA
    TTTTATAAGG ATGACAACAT CCTCGTAACT CATGAAGATC AAATCCCAGT GGTGGAGATA
    GACGATTCCT ACTCTTGCTT GCTCATGCAG GACTTTCTTT GGTTTACAAA GGTATCGTGT
    ATGTGGGATG ACATCTTGTG GTTACGACAG TGCGTCACCG TGTCACAATC CTCCTGTTCT
    TGCGTCTTGC AAACCCGATT CAAGATGCTG CTGGCTGTGT CCCAGATGCA GGGTTTGTTA
    GGATTTCAGG ACCTGGGTCA GGTATTCTTT GAGCCCATCA AGGACAAGCA GGGAAACATT
    CTGATAGTGA CTCTGAAGGA GGTGAAACTG AGCCAGACGC TGGAGAACGT ACGCTGGATG
    CCGGTGTTCA AACTGCAGAC TCATAGGAAG TCAGTCTCAT CCCCGGACGA GCCGAGCGCT
    CTGGACGTCC TGCTGATGAC ACTGCATGAA AAAATGGAAT ATCACAGAAG AAGCAGCCAG
    GCTCTGGCCC CAGGCCTATA CTTGGGGTAT CTCAAGCTGA GCAGCGCAGT GGATCAGATT
    CGGGTCCTGG TACCTGAGAG GTTACCCAAC ATCCTTTGCC ATGTGAAGAT TCGATCTAAT
    TCCAATGTGT CACGAGAGGA ATGGGAATGG CTGCAGACCC TGGCCAGTGG TGAGGATTCT
    ATTGCCAATG AGCAGGACAC GGAGAGCTGC CAAAACCTAT TGCTTGAAGA ACTGAGAACG
    GCTGTGAAGG AACTCATGAA CCAAGTCAAC ATTCCTCATC ATGAGGCTAA AGACTTCCGT
    CTATACAGTC AAGAAGTCCT TGAATTTGGA GGTCAGGTGT CCTTCCTTCT GCTGCTGCCT
    CCATCCGATG ATGTATGTAC GGCTCCTGGT CAGAACAATC CCTACACCCC GTACTCTGGC
    TTCCTCACAC TGCCTCTGCA GATTTTTGAG CTCGTTCATT TTTTTACGTA TGACCGGGAT
    TTCATTAGTC AGTACTGCCA AGCCTCAGCC TTACTGGAAC TGGAGTCCCT TCTTTCTCAG
    CAAAGCCTAA GGGAAGCCTT TTCGGACTCA GAGCTCACTA CAGCAAAGCA GCGGCATCAG
    CAAATTCAGG ACTATATCCA GCAAATGGAG GAGATCTGGA GAGAGATGCG CTGGATGATG
    GACGCACTGC AGCATGCCAG ATACAAGCAG CCATCATGTA CTGTGCCCCT CACTTGTTTC
    CTGGACGGGG CTGGAGATGG GTTCCTGAAG GAGAAGCCTC CATCCACCTC ATCGCATTTA
    GACTATTTCC CATCACCAAC TCCCTCTCCT GAAAACAGCA GGAAACTCAA CTCAGATCTC
    CTTCCTGCTC CCTATTCTGA CAATTTACTA CTGGATGTGA AATTTGCAAA TCAGTCTTCC
    CCACTTTTGG ATTCACATGG TGTGTCGGAT GAAGAGGGCT CTTCTGAAGT CTTCCTGGCC
    ACTGACAGTG ACTATGATTC CAGCCGAGCG CAGAGCCCCA AAGAGCTGGA TCTGGTTTAT
    TCTTCAGGGC AGGAATGTGG CAGGAGAAAC CTGCGCAGCT TCAGAGATGG AACTCCCGAC
    GTTCTGCAGA CTCATGACTC CAAAGTTTTG CCTCAGGAAG ATGAGCGGCC ACAGCAGCTT
    TATGACAGTG ATTTTGTGCT TCCCAGCCGT CAGATTGAGT TACTGCGAAT TACGGAGAAG
    AGGCAAGCGT ATTGCGTCCG TACTAGCAGC CTTGATTTCC CCAAACACCC TTACAAAGCC
    TCTCGAAAGT CATGCCCTGG TTCTGTTGAC AGCTCCCCAA CAGAGACAAA AGCTGCAGGG
    TACCACAGTG TTCGAGGGCT GAGGACAAGC ACTTCTTTTA GCCCAGACCA TGAACTGAGA
    TGTGACAGCT CACAGCGGAT TTACCGCACA CACTCTGTTG AGTGGACGCA TGACTTCCAA
    GAACCCTTGG AACCAAAACT TATAACGGGG CAAGGAAAAA AGAACAATTC TGTTACTATT
    CGGATATTTC CACAGTATGA GACTGGTTTG TCTAAAGAGA TGAGTGTTAA GTTGCATATA
    ACAAGCAAAA CCCCTGCCCA GGAGGTGGTC AAGCTGGTGG TTTTACAGAT GAATGAGATC
    TCCAGGAGTA TGCAAGGTAA CACTGAGGCC TACTGCTACG CTGAAGATCA GCTGGACCAC
    TTTGCACTGG TTTTCACTTC AGAAAACAAT AAAGAACAGT GGTTGGCTGA TGACTTTCTG
    CCTTTCTCCC TCCACAACAG CTGGAACAAG GGACACTTCT CAGTGCGAAT TAGAGACACC
    TCACCTTTGC TTTTCCAGTA CGGACCAGCG ACAACTGTAT GA

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

    CloneID OXa16388
    Clone ID Related Accession (Same CDS sequence) XM_002932447.4
    Accession Version XM_002932447.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3444bp)
    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 ankyrin repeat and fibronectin type-III domain-containing protein 1 isoform X5
    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 On Sep 8, 2016 this sequence version replaced XM_002932447.3. ##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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGAG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGAC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCCTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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

    RefSeq XP_002932493.2
    CDS382..3825
    Translation

    Target ORF information:

    RefSeq Version XM_002932447.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat and fibronectin type-III domain-containing protein 1 (LOC100490407), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002932447.4

    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
    ATGACTCAAC AAATGAGGGA CTTACAGCTA TCACAAACCA AGAAGCCTTC GGGCCCCTCC 
    TCGCCAAATG CTGCTAAGAG GCTCTACAGA AACCTATCTG GAAAGTTTCG GGTGAACTAC
    ATGTCGTTTG ATGAGGGCAG CCTGACAGCA CGTAATGAGA AGGAACGTCT GCGGAAGCCA
    TGTTTATTTC AGGGTAATGC TGCCCTCTTT GAGGCTGTGG AGATGCAGGA TCTAGACCGA
    GTACAGGAAC TTCTCAAGCA GTTCAGTGTC GAGGAACTGG ATCTTAACAC CCCCAACAGT
    GAGGGACTCC TTCCTCTGGA CATCGCTATA ATGACAAATA ATGCTCCAAT AGCTAAAACA
    CTGCTACAGG CAGGAGCAAA AGAGAGTCCA CACTTTATGA GCTTGGAAAG TCGCTCTCTC
    CACCTGTCTA CACTAGTGAG AGAGGCAGAG CAAAGGGTGA ATGACCTCAC GGCTCAAGTG
    GTAAATGAGG CACCAAACGC CGACTGCTCC GAGAAAGAGA AACAACTGAA GTCCTGGGAA
    TGGCGATACC GGCTCTATAA GCGCATGAAA GCTGGATTCG AACATGCACG TGTGCCAGAT
    CCACCGACCA ACGTGCGTCT GGCAGTAACC AGCAGTACCA CGCTACAGGT CACCTTCCAG
    GAGCCACTCA GTGTTAACTC AGCAGTTGTC ACAAAATACA AAGTTGAGTG GAGCCTTTCC
    TCTTCTTTTT CTCCCAACGT GGGAGAGGTG GTCATCGAGA AGCTGAGAAA TCTGCATTTT
    AACATAAGAG GCCTCACTTC AGGGACGCAA TATTATGTAC AGGTGTCGGC CTACAACATG
    AAGGGCTGGG GGCCACCACA ACCCTCTCTT CCAGCTTTTG CCATCCCCTC GAACTGGCGT
    GAGTACGATG GCAGGGCGCC AAGAAGAAGA GGACAGACTG AAGCCCTAGA TTTGCTTCTC
    AGTCAGGTGA AGACCTACCA CCAACACTGC GTGTGTCATG AGCCATTTAA GAACCAGCCA
    CAAAGCAGAA AGCATTCTGT ATCCAAGAGC CTCAAACACC TCTTTCACCC CAGTAGCAAG
    TTTCTAAAAG GCCTTAAGAG GGGCCTTTAC CTGGCATCAA TATTTTATAA GGATGACAAC
    ATCCTCGTAA CTCATGAAGA TCAAATCCCA GTGGTGGAGA TAGACGATTC CTACTCTTGC
    TTGCTCATGC AGGACTTTCT TTGGTTTACA AAGGTATCGT GTATGTGGGA TGACATCTTG
    TGGTTACGAC AGTGCGTCAC CGTGTCACAA TCCTCCTGTT CTTGCGTCTT GCAAACCCGA
    TTCAAGATGC TGCTGGCTGT GTCCCAGATG CAGGGTTTGT TAGGATTTCA GGACCTGGGT
    CAGGTATTCT TTGAGCCCAT CAAGGACAAG CAGGGAAACA TTCTGATAGT GACTCTGAAG
    GAGGTGAAAC TGAGCCAGAC GCTGGAGAAC GTACGCTGGA TGCCGGTGTT CAAACTGCAG
    ACTCATAGGA AGTCAGTCTC ATCCCCGGAC GAGCCGAGCG CTCTGGACGT CCTGCTGATG
    ACACTGCATG AAAAAATGGA ATATCACAGA AGAAGCAGCC AGGCTCTGGC CCCAGGCCTA
    TACTTGGGGT ATCTCAAGCT GAGCAGCGCA GTGGATCAGA TTCGGGTCCT GGTACCTGAG
    AGGTTACCCA ACATCCTTTG CCATGTGAAG ATTCGATCTA ATTCCAATGT GTCACGAGAG
    GAATGGGAAT GGCTGCAGAC CCTGGCCAGT GGTGAGGATT CTATTGCCAA TGAGCAGGAC
    ACGGAGAGCT GCCAAAACCT ATTGCTTGAA GAACTGAGAA CGGCTGTGAA GGAACTCATG
    AACCAAGTCA ACATTCCTCA TCATGAGGCT AAAGACTTCC GTCTATACAG TCAAGAAGTC
    CTTGAATTTG GAGGTCAGGT GTCCTTCCTT CTGCTGCTGC CTCCATCCGA TGATGTATGT
    ACGGCTCCTG GTCAGAACAA TCCCTACACC CCGTACTCTG GCTTCCTCAC ACTGCCTCTG
    CAGATTTTTG AGCTCGTTCA TTTTTTTACG TATGACCGGG ATTTCATTAG TCAGTACTGC
    CAAGCCTCAG CCTTACTGGA ACTGGAGTCC CTTCTTTCTC AGCAAAGCCT AAGGGAAGCC
    TTTTCGGACT CAGAGCTCAC TACAGCAAAG CAGCGGCATC AGCAAATTCA GGACTATATC
    CAGCAAATGG AGGAGATCTG GAGAGAGATG CGCTGGATGA TGGACGCACT GCAGCATGCC
    AGATACAAGC AGCCATCATG TACTGTGCCC CTCACTTGTT TCCTGGACGG GGCTGGAGAT
    GGGTTCCTGA AGGAGAAGCC TCCATCCACC TCATCGCATT TAGACTATTT CCCATCACCA
    ACTCCCTCTC CTGAAAACAG CAGGAAACTC AACTCAGATC TCCTTCCTGC TCCCTATTCT
    GACAATTTAC TACTGGATGT GAAATTTGCA AATCAGTCTT CCCCACTTTT GGATTCACAT
    GGTGTGTCGG ATGAAGAGGG CTCTTCTGAA GTCTTCCTGG CCACTGACAG TGACTATGAT
    TCCAGCCGAG CGCAGAGCCC CAAAGAGCTG GATCTGGTTT ATTCTTCAGG GCAGGAATGT
    GGCAGGAGAA ACCTGCGCAG CTTCAGAGAT GGAACTCCCG ACGTTCTGCA GACTCATGAC
    TCCAAAGTTT TGCCTCAGGA AGATGAGCGG CCACAGCAGC TTTATGACAG TGATTTTGTG
    CTTCCCAGCC GTCAGATTGA GTTACTGCGA ATTACGGAGA AGAGGCAAGC GTATTGCGTC
    CGTACTAGCA GCCTTGATTT CCCCAAACAC CCTTACAAAG CCTCTCGAAA GTCATGCCCT
    GGTTCTGTTG ACAGCTCCCC AACAGAGACA AAAGCTGCAG GGTACCACAG TGTTCGAGGG
    CTGAGGACAA GCACTTCTTT TAGCCCAGAC CATGAACTGA GATGTGACAG CTCACAGCGG
    ATTTACCGCA CACACTCTGT TGAGTGGACG CATGACTTCC AAGAACCCTT GGAACCAAAA
    CTTATAACGG GGCAAGGAAA AAAGAACAAT TCTGTTACTA TTCGGATATT TCCACAGTAT
    GAGACTGGTT TGTCTAAAGA GATGAGTGTT AAGTTGCATA TAACAAGCAA AACCCCTGCC
    CAGGAGGTGG TCAAGCTGGT GGTTTTACAG ATGAATGAGA TCTCCAGGAG TATGCAAGGT
    AACACTGAGG CCTACTGCTA CGCTGAAGAT CAGCTGGACC ACTTTGCACT GGTTTTCACT
    TCAGAAAACA ATAAAGAACA GTGGTTGGCT GATGACTTTC TGCCTTTCTC CCTCCACAAC
    AGCTGGAACA AGGGACACTT CTCAGTGCGA ATTAGAGACA CCTCACCTTT GCTTTTCCAG
    TACGGACCAG CGACAACTGT ATGA

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