ankrd24 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ankrd24 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ankrd24 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
OXa42342 XM_018090937.1
Latest version!
Xenopus tropicalis ankyrin repeat domain 24 (ankrd24), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OXa48507 XM_031905017.1
Latest version!
Xenopus tropicalis ankyrin repeat domain 24 (ankrd24), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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 OXa42342
    Clone ID Related Accession (Same CDS sequence) XM_018090937.1
    Accession Version XM_018090937.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    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 domain-containing protein 24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 13% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGAGCC TGAAGGCCAA ATTTAAGAGG AGTGAGAGTC CTGAGTGGGG TCGTTTGGAT 
    GACAAGCTGA TGTCTGCTGT GACCTGTAAT GAATCAGACA AAGTTGAATC TCTGCTCACG
    AAGAAGAGGC TAATGCCCCA CAAACTTGGC CCATCAGGCA GATCAGCCCT TCACACAGCT
    GCAGCTCTTG GACATGTGGA ATGTCTTGAT GTCATTTTGG CTCACCAAAC CCAATTGCTT
    GTTCCAGACC AAGAAGGCCA GCCTGCTTTG CATCTTGCTG CACAGAATGG ACATACTGAG
    TGTGTTGTCA GGATCCTACA GAAAGACTGT CCAGTGGATC TATCTGACAG TCATGGCAGA
    ACATCCCTTC ATCATGCAGC TGTCAGTGGA AATCTTACCT GTGCTGAGAT CCTCTGTGAC
    TTTCAGGTTC CCATCAACAA AAAAGATAAA GACGGCTCAT CCGCTCTTTC TTTGGCTGCC
    CAAATGAGCT ATGGGGATAT GTGCCAGCTA CTTTTGCGGA GAGGAGCTGA TGTAAACAGT
    AGGGACCTTC AAGGTCGGAC ACCTCTAATG CTGTGTTGTG AAGGGGGCAG CACTCAAACT
    GCTCAGCTTC TTCTAAGGGC TGGGGCAGAG ATCAACCTTT TGGATTCAAT GGGGCATGAT
    GCTCTGCATT ATAGCAAAGC TAGAGGGACT AGCCATATGC AGAAAATACT ACAAGGTACC
    TTACAGGTCA AAGGGGATGT GAGCCAGGGA CTGAACACTG AACAAATTAA AGGAAACAAA
    AGTAAGAATA AAAATTGCAC TGCTAAGAAG AGACAGGCTC CAGCACCACC TACTGCATCT
    ATGCAGCCTC CAGAGCCTCT TATACAGGAT TCCAAAGAAA AAAAGAGCGA AAGAGGAAGA
    GAGAAAACAC GGGTGAAACC AGAAAGAAAG AGTAAAGAGC CAAAATATTC CTCTACCCAC
    AAAGCAGATA CTCCTGTTTC TCAAGAGCAG AATGTTGCTC TCAATGAACA GCTTAACACA
    AATCACCAAG AGCCTATCAC ACCTTCAGAT GAAGAAAAAT GTGTCCCTGA CTGTGTAGGA
    CAGGACCTAG CAGTCATTTC TGAAGAGCGA GATGAGGATA TCAAAAGGGA AGAAAGTGTT
    ATATCCACCA CTGAGGAAAA CATCAATTGC TCTGTCAACC AGAGCAATAA AGGTTGCCAG
    AATAATGGGT TAAATGTCTC TCAGAAAGAA AACATTTATT GCGATCCAGA ACAGGAGGCA
    GCAGACCAAG ATCTCCAGCA GATAAAAGAT CTTAATAATG AGCAAATTGA TCAACCAGAC
    AAGGAAGATG ACTTCCAGGT CACATCTGAA ACTGATGAAT ACAATGACGA CAAAAATACA
    TCACAGCATG ATCCTTTGCT GCAGGATCCA TGTACAGTAC AGAATACTTC ACCTGTCCAG
    GAAGAGATCA TCTCTGATCA GAGTGAACTT ACGGAAGCAC TGAACTTTCA AGATATTATT
    GCATCTGATA CCAATTGCCT ACAGGAACAT TATATTACCT TGGAACCTGA TTCATACCAA
    GATCAAATAA AGTTTCAACA GGATGTTACA CAGTTAGCAG AGGATGATTC TGCTATACAA
    ACAGATTTTG AAACAGGATC CCTACAGGAA ATAGACACCC TAAAGAAACA AATGCAGAAG
    CTGAGAGCAG AAAATCAGGA GTTAAAAGAT AAAATACAGA TACTTGAAAA TTATGAGCGG
    GATGAAAGTG ATATGGAAAA TTCTTCAGAC TTTATTCCAC TCATCTTGTA TGACTCCCTT
    CAGAGTCAAT ATATGCTTCT GCAAGAGCAG CTTAAAGAAA CCCAGAATGA GCTGCATGGT
    TTGCAAAGTT CCACAGAGCA ACTGTCCTCT CCCTCTTGCA AACTGATCCC TGCTGATGCT
    TATGAACAGC TCCGTATTGA GCATGAAGCT CTGAAACAAT CCTTTAAGAA GCAACAGACC
    GCAAAGGGTC TAGAGCAGAT TAAGAATGAG GAGGAACTGC AAAATATGGT GGAAGCTAGT
    AGGCTGCTAC AGTGTGAGAA AAGATGTAAA GAATTGGAGG AAAAATTAAA GAAGCTGCAA
    GACTATAAGA AGCAATGCAA AGATATGCAG AAAGACCTGA AGAAGCTACA AGACAGTGAA
    GAGAGGTGCA GGCAACTGCA AGAGGAAGTT CAAACACTTG ATGAAAATAA AAAACAGTGC
    AAACAAACTG ATGAGGTTTT GGAGAAACTG CTGGAAAAGG AGGAACACTG TCAAATGTTG
    CAAGAAGAAG TAAGGAGACT TCATGAACAA ATTGAAATGG GAATTCTTAG CACAGAGGAT
    GCAAATAAAG GCATGGTAAA ACAAGATGAA AAACAAAAGT ATAATGAATG TAAAGATAGT
    GCAGAGGAAA AAAGCAGTAA GGACCAACTG AGAGAGGACC AGGAGCAGCA GAAAGAGCTT
    CTGGAGACAT TATCTCAAAG GGATCAACAT ATTCAACAAC TAAAAGAGGA GTTTGAAGAT
    GCAATGGGCT TAGTTCAGAG TGAAATGAAA AGGAGAGAAA CTGTGGAGGC TCTTTGCAAA
    CAAAGAGAGG ATGAACTAAA GAAACTCAGA GACAGACAGG AAGAAGAGAA CAAGAAGATG
    CAATATATTT GTGAACAGAG AGATATTTTG CAGAAAGAAG CACAAGAGTT ACGGGATCAG
    TTAGAAAAAT GTAATTATGC AGATGCTAAG ATGCAAAATA TAGAGACAGG ATCCTTGCAA
    CAAACACAAG AGCAATTGGA ACAGACACAA GAACATCTCT CTGTTGCTCT GCAGGAACTG
    AAAAGCCTTC GTGAGAATGC GGTGCCCATG CAGGTGCATC GCCAAGAGCA AGAATCACTA
    ACTTGTGAAG TGCAGGATCT AAAGATTAAA GTTAGACAAC TAGAGCAAAA ACTACAGAGC
    CGGGAACGGG AAACAGAGAA GCTGCAACAT GAACTGGATG CTGTGCAGGC TGCAGATCAA
    ACAAATGAAG CACTGAAAAA TGAAGTGGCA TCCTTGACAC AAAAACTGAG TGAACTAAGC
    AAACGGCATG AGCGGACAAG TGTGGAAGTC TTCCAGGTTC AGAGGGAGGC CCTTTTTATG
    AAAAGTGAAA AACAAGCAGC CGAGGAACAG CTGGAAAAAG TACAGAAACA GCTGGAAATT
    GTCACAGGGC AGATGCAGCA CATACAGGAG AAAGGCCATG TAAAGTCAGA GCTTCCTGTA
    GAAAAGGAAC AAAGGATCTC AGAATTATCC CAAGAAATTC TTCTACTGAA AGAGGCTTTG
    AACAGTCAAG GAGACCAGAC CAACCTGGAA CAAGAACTGA AGCGACTCAG AGAACAGAGG
    AAGGGTGATC AGCAAGAGCA GCATAGAATG CAAAAGGAAC AAACGAGTTT GCAGCACAAA
    TTGAAAACCA TTGAACAGAA ACACAGAGAA TCTGAGACAC ATCACAAATC AGTCATTGAA
    ACATACAGAA CTCACCTACT TTGTGCAGTG CAGGGTCAGA TGAATGAGGA TGCCCTAAGA
    ATTTTGCAGC AAATCCTAAA AATGAGGCTT AATCACTGA

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

    RefSeq XP_017946426.1
    CDS15..3593
    Translation

    Target ORF information:

    RefSeq Version XM_018090937.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 24 (ankrd24), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018090937.1

    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
    ATGAAGAGCC TGAAGGCCAA ATTTAAGAGG AGTGAGAGTC CTGAGTGGGG TCGTTTGGAT 
    GACAAGCTGA TGTCTGCTGT GACCTGTAAT GAATCAGACA AAGTTGAATC TCTGCTCACG
    AAGAAGAGGC TAATGCCCCA CAAACTTGGC CCATCAGGCA GATCAGCCCT TCACACAGCT
    GCAGCTCTTG GACATGTGGA ATGTCTTGAT GTCATTTTGG CTCACCAAAC CCAATTGCTT
    GTTCCAGACC AAGAAGGCCA GCCTGCTTTG CATCTTGCTG CACAGAATGG ACATACTGAG
    TGTGTTGTCA GGATCCTACA GAAAGACTGT CCAGTGGATC TATCTGACAG TCATGGCAGA
    ACATCCCTTC ATCATGCAGC TGTCAGTGGA AATCTTACCT GTGCTGAGAT CCTCTGTGAC
    TTTCAGGTTC CCATCAACAA AAAAGATAAA GACGGCTCAT CCGCTCTTTC TTTGGCTGCC
    CAAATGAGCT ATGGGGATAT GTGCCAGCTA CTTTTGCGGA GAGGAGCTGA TGTAAACAGT
    AGGGACCTTC AAGGTCGGAC ACCTCTAATG CTGTGTTGTG AAGGGGGCAG CACTCAAACT
    GCTCAGCTTC TTCTAAGGGC TGGGGCAGAG ATCAACCTTT TGGATTCAAT GGGGCATGAT
    GCTCTGCATT ATAGCAAAGC TAGAGGGACT AGCCATATGC AGAAAATACT ACAAGGTACC
    TTACAGGTCA AAGGGGATGT GAGCCAGGGA CTGAACACTG AACAAATTAA AGGAAACAAA
    AGTAAGAATA AAAATTGCAC TGCTAAGAAG AGACAGGCTC CAGCACCACC TACTGCATCT
    ATGCAGCCTC CAGAGCCTCT TATACAGGAT TCCAAAGAAA AAAAGAGCGA AAGAGGAAGA
    GAGAAAACAC GGGTGAAACC AGAAAGAAAG AGTAAAGAGC CAAAATATTC CTCTACCCAC
    AAAGCAGATA CTCCTGTTTC TCAAGAGCAG AATGTTGCTC TCAATGAACA GCTTAACACA
    AATCACCAAG AGCCTATCAC ACCTTCAGAT GAAGAAAAAT GTGTCCCTGA CTGTGTAGGA
    CAGGACCTAG CAGTCATTTC TGAAGAGCGA GATGAGGATA TCAAAAGGGA AGAAAGTGTT
    ATATCCACCA CTGAGGAAAA CATCAATTGC TCTGTCAACC AGAGCAATAA AGGTTGCCAG
    AATAATGGGT TAAATGTCTC TCAGAAAGAA AACATTTATT GCGATCCAGA ACAGGAGGCA
    GCAGACCAAG ATCTCCAGCA GATAAAAGAT CTTAATAATG AGCAAATTGA TCAACCAGAC
    AAGGAAGATG ACTTCCAGGT CACATCTGAA ACTGATGAAT ACAATGACGA CAAAAATACA
    TCACAGCATG ATCCTTTGCT GCAGGATCCA TGTACAGTAC AGAATACTTC ACCTGTCCAG
    GAAGAGATCA TCTCTGATCA GAGTGAACTT ACGGAAGCAC TGAACTTTCA AGATATTATT
    GCATCTGATA CCAATTGCCT ACAGGAACAT TATATTACCT TGGAACCTGA TTCATACCAA
    GATCAAATAA AGTTTCAACA GGATGTTACA CAGTTAGCAG AGGATGATTC TGCTATACAA
    ACAGATTTTG AAACAGGATC CCTACAGGAA ATAGACACCC TAAAGAAACA AATGCAGAAG
    CTGAGAGCAG AAAATCAGGA GTTAAAAGAT AAAATACAGA TACTTGAAAA TTATGAGCGG
    GATGAAAGTG ATATGGAAAA TTCTTCAGAC TTTATTCCAC TCATCTTGTA TGACTCCCTT
    CAGAGTCAAT ATATGCTTCT GCAAGAGCAG CTTAAAGAAA CCCAGAATGA GCTGCATGGT
    TTGCAAAGTT CCACAGAGCA ACTGTCCTCT CCCTCTTGCA AACTGATCCC TGCTGATGCT
    TATGAACAGC TCCGTATTGA GCATGAAGCT CTGAAACAAT CCTTTAAGAA GCAACAGACC
    GCAAAGGGTC TAGAGCAGAT TAAGAATGAG GAGGAACTGC AAAATATGGT GGAAGCTAGT
    AGGCTGCTAC AGTGTGAGAA AAGATGTAAA GAATTGGAGG AAAAATTAAA GAAGCTGCAA
    GACTATAAGA AGCAATGCAA AGATATGCAG AAAGACCTGA AGAAGCTACA AGACAGTGAA
    GAGAGGTGCA GGCAACTGCA AGAGGAAGTT CAAACACTTG ATGAAAATAA AAAACAGTGC
    AAACAAACTG ATGAGGTTTT GGAGAAACTG CTGGAAAAGG AGGAACACTG TCAAATGTTG
    CAAGAAGAAG TAAGGAGACT TCATGAACAA ATTGAAATGG GAATTCTTAG CACAGAGGAT
    GCAAATAAAG GCATGGTAAA ACAAGATGAA AAACAAAAGT ATAATGAATG TAAAGATAGT
    GCAGAGGAAA AAAGCAGTAA GGACCAACTG AGAGAGGACC AGGAGCAGCA GAAAGAGCTT
    CTGGAGACAT TATCTCAAAG GGATCAACAT ATTCAACAAC TAAAAGAGGA GTTTGAAGAT
    GCAATGGGCT TAGTTCAGAG TGAAATGAAA AGGAGAGAAA CTGTGGAGGC TCTTTGCAAA
    CAAAGAGAGG ATGAACTAAA GAAACTCAGA GACAGACAGG AAGAAGAGAA CAAGAAGATG
    CAATATATTT GTGAACAGAG AGATATTTTG CAGAAAGAAG CACAAGAGTT ACGGGATCAG
    TTAGAAAAAT GTAATTATGC AGATGCTAAG ATGCAAAATA TAGAGACAGG ATCCTTGCAA
    CAAACACAAG AGCAATTGGA ACAGACACAA GAACATCTCT CTGTTGCTCT GCAGGAACTG
    AAAAGCCTTC GTGAGAATGC GGTGCCCATG CAGGTGCATC GCCAAGAGCA AGAATCACTA
    ACTTGTGAAG TGCAGGATCT AAAGATTAAA GTTAGACAAC TAGAGCAAAA ACTACAGAGC
    CGGGAACGGG AAACAGAGAA GCTGCAACAT GAACTGGATG CTGTGCAGGC TGCAGATCAA
    ACAAATGAAG CACTGAAAAA TGAAGTGGCA TCCTTGACAC AAAAACTGAG TGAACTAAGC
    AAACGGCATG AGCGGACAAG TGTGGAAGTC TTCCAGGTTC AGAGGGAGGC CCTTTTTATG
    AAAAGTGAAA AACAAGCAGC CGAGGAACAG CTGGAAAAAG TACAGAAACA GCTGGAAATT
    GTCACAGGGC AGATGCAGCA CATACAGGAG AAAGGCCATG TAAAGTCAGA GCTTCCTGTA
    GAAAAGGAAC AAAGGATCTC AGAATTATCC CAAGAAATTC TTCTACTGAA AGAGGCTTTG
    AACAGTCAAG GAGACCAGAC CAACCTGGAA CAAGAACTGA AGCGACTCAG AGAACAGAGG
    AAGGGTGATC AGCAAGAGCA GCATAGAATG CAAAAGGAAC AAACGAGTTT GCAGCACAAA
    TTGAAAACCA TTGAACAGAA ACACAGAGAA TCTGAGACAC ATCACAAATC AGTCATTGAA
    ACATACAGAA CTCACCTACT TTGTGCAGTG CAGGGTCAGA TGAATGAGGA TGCCCTAAGA
    ATTTTGCAGC AAATCCTAAA AATGAGGCTT AATCACTGA

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

    CloneID OXa48507
    Clone ID Related Accession (Same CDS sequence) XM_031905017.1
    Accession Version XM_031905017.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    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 domain-containing protein 24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) 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## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAAGAGCC TGAAGGCCAA ATTTAAGAGG AGTGAGAGTC CTGAGTGGGG TCGTTTGGAT 
    GACAAGCTGA TGTCTGCTGT GACCTGTAAT GAATCAGACA AAGTTGAATC TCTGCTCACG
    AAGAAGAGGC TAATGCCCCA CAAACTTGGC CCATCAGGCA GATCAGCCCT TCACACAGCT
    GCAGCTCTTG GACATGTGGA ATGTCTTGAT GTCATTTTGG CTCACCAAAC CCAATTGCTT
    GTTCCAGACC AAGAAGGCCA GCCTGCTTTG CATCTTGCTG CACAGAATGG ACATACTGAG
    TGTGTTGTCA GGATCCTACA GAAAGACTGT CCAGTGGATC TATCTGACAG TCATGGCAGA
    ACATCCCTTC ATCATGCAGC TGTCAGTGGA AATCTTACCT GTGCTGAGAT CCTCTGTGAC
    TTTCAGGTTC CCATCAACAA AAAAGATAAA GACGGCTCAT CCGCTCTTTC TTTGGCTGCC
    CAAATGAGCT ATGGGGATAT GTGCCAGCTA CTTTTGCGGA GAGGAGCTGA TGTAAACAGT
    AGGGACCTTC AAGGTCGGAC ACCTCTAATG CTGTGTTGTG AAGGGGGCAG CACTCAAACT
    GCTCAGCTTC TTCTAAGGGC TGGGGCAGAG ATCAACCTTT TGGATTCAAT GGGGCATGAT
    GCTCTGCATT ATAGCAAAGC TAGAGGGACT AGCCATATGC AGAAAATACT ACAAGGTACC
    TTACAGGTCA AAGGGGATGT GAGCCAGGGA CTGAACACTG AACAAATTAA AGGAAACAAA
    AGTAAGAATA AAAATTGCAC TGCTAAGAAG AGACAGGCTC CAGCACCACC TACTGCATCT
    ATGCAGCCTC CAGAGCCTCT TATACAGGAT TCCAAAGAAA AAAAGAGCGA AAGAGGAAGA
    GAGAAAACAC GGGTGAAACC AGAAAGAAAG AGTAAAGAGC CAAAATATTC CTCTACCCAC
    AAAGCAGATA CTCCTGTTTC TCAAGAGCAG AATGTTGCTC TCAATGAACA GCTTAACACA
    AATCACCAAG AGCCTATCAC ACCTTCAGAT GAAGAAAAAT GTGTCCCTGA CTGTGTAGGA
    CAGGACCTAG CAGTCATTTC TGAAGAGCGA GATGAGTACC CACAGGTAAT CAAAAGGGAA
    GAAAGTGTTA TATCCACCAC TGAGGAAAAC ATCAATTGCT CTGTCAACCA GAGCAATAAA
    GGTTGCCAGA ATAATGGGTT AAATGTCTCT CAGAAAGAAA ACATTTATTG CGATCCAGAA
    CAGGAGGCAG CAGACCAAGA TCTCCAGCAG ATAAAAGATC TTAATAATGA GCAAATTGAT
    CAACCAGACA AGGAAGATGA CTTCCAGGTC ACATCTGAAA CTGATGAATA CAATGACGAC
    AAAAATACAT CACAGGATCC ATGTACAGTA CAGAATACTT CACCTGTCCA GGAAGAGATC
    ATCTCTGATC AGAGTGAACT TACGGAAGCA CTGAACTTTC AAGATATTAT TGCATCTGAT
    ACCAATTGCC TACAGGAACA TTATATTACC TTGGAACCTG ATTCATACCA AGATCAAATA
    AAGTTTCAAC AGGATGTTAC ACAGTTAGCA GAGGATGATT CTGCTATACA AACAGATTTT
    GAAACAGGAT CCCTACAGGA AATAGACACC CTAAAGAAAC AAATGCAGAA GCTGAGAGCA
    GAAAATCAGG AGTTAAAAGA TAAAATACAG ATACTTGAAA ATTATGAGCG GGATGAAAGT
    GATATGGAAA ATTCTTCAGA CTTTATTCCA CTCATCTTGT ATGACTCCCT TCAGAGTCAA
    TATATGCTTC TGCAAGAGCA GCTTAAAGAA ACCCAGAATG AGCTGCATGG TTTGCAAAGT
    TCCACAGAGC AACTGTCCTC TCCCTCTTGC AAACTGATCC CTGCTGATGC TTATGAACAG
    CTCCGTATTG AGCATGAAGC TCTGAAACAA TCCTTTAAGA AGCAACAGAC CGCAAAGGGT
    CTAGAGCAGA TTAAGAATGA GGAGGAACTG CAAAATATGG TGGAAGCTAG TAGGCTGCTA
    CAGTGTGAGA AAAGATGTAA AGAATTGGAG GAAAAATTAA AGAAGCTGCA AGACTATAAG
    AAGCAATGCA AAGATATGCA GAAAGACCTG AAGAAGCTAC AAGACAGTGA AGAGAGGTGC
    AGGCAACTGC AAGAGGAAGT TCAAACACTT GATGAAAATA AAAAACAGTG CAAACAAACT
    GATGAGGTTT TGGAGAAACT GCTGGAAAAG GAGGAACACT GTCAAATGTT GCAAGAAGAA
    GTAAGGAGAC TTCATGAACA AATTGAAATG GGAATTCTTA GCACAGAGGA TGCAAATAAA
    GGCATGGTAA AACAAGATGA AAAACAAAAG TATAATGAAT GTAAAGATAG TGCAGAGGAA
    AAAAGCAGTA AGGACCAACT GAGAGAGGAC CAGGAGCAGC AGAAAGAGCT TCTGGAGACA
    TTATCTCAAA GGGATCAACA TATTCAACAA CTAAAAGAGG AGTTTGAAGA TGCAATGGGC
    TTAGTTCAGA GTGAAATGAA AAGGAGAGAA ACTGTGGAGG CTCTTTGCAA ACAAAGAGAG
    GATGAACTAA AGAAACTCAG AGACAGACAG GAAGAAGAGA ACAAGAAGAT GCAATATATT
    TGTGAACAGA GAGATATTTT GCAGAAAGAA GCACAAGAGT TACGGGATCA GTTAGAAAAA
    TGTAATTATG CAGATGCTAA GATGCAAAAT ATAGAGACAG GATCCTTGCA ACAAACACAA
    GAGCAATTGG AACAGACACA AGAACATCTC TCTGTTGCTC TGCAGGAACT GAAAAGCCTT
    CGTGAGAATG CGGTGCCCAT GCAGGTGCAT CGCCAAGAGC AAGAATCACT AACTTGTGAA
    GTGCAGGATC TAAAGATTAA AGTTAGACAA CTAGAGCAAA AACTACAGAG CCGGGAACGG
    GAAACAGAGA AGCTGCAACA TGAACTGGAT GCTGTGCAGG CTGCAGATCA AACAAATGAA
    GCACTGAAAA ATGAAGTGGC ATCCTTGACA CAAAAACTGA GTGAACTAAG CAAACGGCAT
    GAGCGGACAA GTGTGGAAGT CTTCCAGGTT CAGAGGGAGG CCCTTTTTAT GAAAAGTGAA
    AAACAAGCAG CCGAGGAACA GCTGGAAAAA GTACAGAAAC AGCTGGAAAT TGTCACAGGG
    CAGATGCAGC ACATACAGGA GAAAGGCCAT GTAAAGTCAG AGCTTCCTGT AGAAAAGGAA
    CAAAGGATCT CAGAATTATC CCAAGAAATT CTTCTACTGA AAGAGGCTTT GAACAGTCAA
    GGAGACCAGA CCAACCTGGA ACAAGAACTG AAGCGACTCA GAGAACAGAG GAAGGGTGAT
    CAGCAAGAGC AGCATAGAAT GCAAAAGGAA CAAACGAGTT TGCAGCACAA ATTGAAAACC
    ATTGAACAGA AACACAGAGA ATCTGAGACA CATCACAAAT CAGTCATTGA AACATACAGA
    ACTCACCTAC TTTGTGCAGT GCAGGGTCAG ATGAATGAGG ATGCCCTAAG AATTTTGCAG
    CAAATCCTAA AAATGAGGCT TAATCACTGA

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

    RefSeq XP_031760877.1
    CDS15..3584
    Translation

    Target ORF information:

    RefSeq Version XM_031905017.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 24 (ankrd24), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031905017.1

    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
    ATGAAGAGCC TGAAGGCCAA ATTTAAGAGG AGTGAGAGTC CTGAGTGGGG TCGTTTGGAT 
    GACAAGCTGA TGTCTGCTGT GACCTGTAAT GAATCAGACA AAGTTGAATC TCTGCTCACG
    AAGAAGAGGC TAATGCCCCA CAAACTTGGC CCATCAGGCA GATCAGCCCT TCACACAGCT
    GCAGCTCTTG GACATGTGGA ATGTCTTGAT GTCATTTTGG CTCACCAAAC CCAATTGCTT
    GTTCCAGACC AAGAAGGCCA GCCTGCTTTG CATCTTGCTG CACAGAATGG ACATACTGAG
    TGTGTTGTCA GGATCCTACA GAAAGACTGT CCAGTGGATC TATCTGACAG TCATGGCAGA
    ACATCCCTTC ATCATGCAGC TGTCAGTGGA AATCTTACCT GTGCTGAGAT CCTCTGTGAC
    TTTCAGGTTC CCATCAACAA AAAAGATAAA GACGGCTCAT CCGCTCTTTC TTTGGCTGCC
    CAAATGAGCT ATGGGGATAT GTGCCAGCTA CTTTTGCGGA GAGGAGCTGA TGTAAACAGT
    AGGGACCTTC AAGGTCGGAC ACCTCTAATG CTGTGTTGTG AAGGGGGCAG CACTCAAACT
    GCTCAGCTTC TTCTAAGGGC TGGGGCAGAG ATCAACCTTT TGGATTCAAT GGGGCATGAT
    GCTCTGCATT ATAGCAAAGC TAGAGGGACT AGCCATATGC AGAAAATACT ACAAGGTACC
    TTACAGGTCA AAGGGGATGT GAGCCAGGGA CTGAACACTG AACAAATTAA AGGAAACAAA
    AGTAAGAATA AAAATTGCAC TGCTAAGAAG AGACAGGCTC CAGCACCACC TACTGCATCT
    ATGCAGCCTC CAGAGCCTCT TATACAGGAT TCCAAAGAAA AAAAGAGCGA AAGAGGAAGA
    GAGAAAACAC GGGTGAAACC AGAAAGAAAG AGTAAAGAGC CAAAATATTC CTCTACCCAC
    AAAGCAGATA CTCCTGTTTC TCAAGAGCAG AATGTTGCTC TCAATGAACA GCTTAACACA
    AATCACCAAG AGCCTATCAC ACCTTCAGAT GAAGAAAAAT GTGTCCCTGA CTGTGTAGGA
    CAGGACCTAG CAGTCATTTC TGAAGAGCGA GATGAGTACC CACAGGTAAT CAAAAGGGAA
    GAAAGTGTTA TATCCACCAC TGAGGAAAAC ATCAATTGCT CTGTCAACCA GAGCAATAAA
    GGTTGCCAGA ATAATGGGTT AAATGTCTCT CAGAAAGAAA ACATTTATTG CGATCCAGAA
    CAGGAGGCAG CAGACCAAGA TCTCCAGCAG ATAAAAGATC TTAATAATGA GCAAATTGAT
    CAACCAGACA AGGAAGATGA CTTCCAGGTC ACATCTGAAA CTGATGAATA CAATGACGAC
    AAAAATACAT CACAGGATCC ATGTACAGTA CAGAATACTT CACCTGTCCA GGAAGAGATC
    ATCTCTGATC AGAGTGAACT TACGGAAGCA CTGAACTTTC AAGATATTAT TGCATCTGAT
    ACCAATTGCC TACAGGAACA TTATATTACC TTGGAACCTG ATTCATACCA AGATCAAATA
    AAGTTTCAAC AGGATGTTAC ACAGTTAGCA GAGGATGATT CTGCTATACA AACAGATTTT
    GAAACAGGAT CCCTACAGGA AATAGACACC CTAAAGAAAC AAATGCAGAA GCTGAGAGCA
    GAAAATCAGG AGTTAAAAGA TAAAATACAG ATACTTGAAA ATTATGAGCG GGATGAAAGT
    GATATGGAAA ATTCTTCAGA CTTTATTCCA CTCATCTTGT ATGACTCCCT TCAGAGTCAA
    TATATGCTTC TGCAAGAGCA GCTTAAAGAA ACCCAGAATG AGCTGCATGG TTTGCAAAGT
    TCCACAGAGC AACTGTCCTC TCCCTCTTGC AAACTGATCC CTGCTGATGC TTATGAACAG
    CTCCGTATTG AGCATGAAGC TCTGAAACAA TCCTTTAAGA AGCAACAGAC CGCAAAGGGT
    CTAGAGCAGA TTAAGAATGA GGAGGAACTG CAAAATATGG TGGAAGCTAG TAGGCTGCTA
    CAGTGTGAGA AAAGATGTAA AGAATTGGAG GAAAAATTAA AGAAGCTGCA AGACTATAAG
    AAGCAATGCA AAGATATGCA GAAAGACCTG AAGAAGCTAC AAGACAGTGA AGAGAGGTGC
    AGGCAACTGC AAGAGGAAGT TCAAACACTT GATGAAAATA AAAAACAGTG CAAACAAACT
    GATGAGGTTT TGGAGAAACT GCTGGAAAAG GAGGAACACT GTCAAATGTT GCAAGAAGAA
    GTAAGGAGAC TTCATGAACA AATTGAAATG GGAATTCTTA GCACAGAGGA TGCAAATAAA
    GGCATGGTAA AACAAGATGA AAAACAAAAG TATAATGAAT GTAAAGATAG TGCAGAGGAA
    AAAAGCAGTA AGGACCAACT GAGAGAGGAC CAGGAGCAGC AGAAAGAGCT TCTGGAGACA
    TTATCTCAAA GGGATCAACA TATTCAACAA CTAAAAGAGG AGTTTGAAGA TGCAATGGGC
    TTAGTTCAGA GTGAAATGAA AAGGAGAGAA ACTGTGGAGG CTCTTTGCAA ACAAAGAGAG
    GATGAACTAA AGAAACTCAG AGACAGACAG GAAGAAGAGA ACAAGAAGAT GCAATATATT
    TGTGAACAGA GAGATATTTT GCAGAAAGAA GCACAAGAGT TACGGGATCA GTTAGAAAAA
    TGTAATTATG CAGATGCTAA GATGCAAAAT ATAGAGACAG GATCCTTGCA ACAAACACAA
    GAGCAATTGG AACAGACACA AGAACATCTC TCTGTTGCTC TGCAGGAACT GAAAAGCCTT
    CGTGAGAATG CGGTGCCCAT GCAGGTGCAT CGCCAAGAGC AAGAATCACT AACTTGTGAA
    GTGCAGGATC TAAAGATTAA AGTTAGACAA CTAGAGCAAA AACTACAGAG CCGGGAACGG
    GAAACAGAGA AGCTGCAACA TGAACTGGAT GCTGTGCAGG CTGCAGATCA AACAAATGAA
    GCACTGAAAA ATGAAGTGGC ATCCTTGACA CAAAAACTGA GTGAACTAAG CAAACGGCAT
    GAGCGGACAA GTGTGGAAGT CTTCCAGGTT CAGAGGGAGG CCCTTTTTAT GAAAAGTGAA
    AAACAAGCAG CCGAGGAACA GCTGGAAAAA GTACAGAAAC AGCTGGAAAT TGTCACAGGG
    CAGATGCAGC ACATACAGGA GAAAGGCCAT GTAAAGTCAG AGCTTCCTGT AGAAAAGGAA
    CAAAGGATCT CAGAATTATC CCAAGAAATT CTTCTACTGA AAGAGGCTTT GAACAGTCAA
    GGAGACCAGA CCAACCTGGA ACAAGAACTG AAGCGACTCA GAGAACAGAG GAAGGGTGAT
    CAGCAAGAGC AGCATAGAAT GCAAAAGGAA CAAACGAGTT TGCAGCACAA ATTGAAAACC
    ATTGAACAGA AACACAGAGA ATCTGAGACA CATCACAAAT CAGTCATTGA AACATACAGA
    ACTCACCTAC TTTGTGCAGT GCAGGGTCAG ATGAATGAGG ATGCCCTAAG AATTTTGCAG
    CAAATCCTAA AAATGAGGCT TAATCACTGA

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