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

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

The following dnmbp gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the dnmbp 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
OXa12724 XM_004915872.4
Latest version!		 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa12723 XM_004915871.4
Latest version!		 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OXa12723 XM_004915871.3 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa12724 XM_004915872.3 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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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)
    dnmbp ( XM_004915872.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004915929.1 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa12724
    Clone ID Related Accession (Same CDS sequence) XM_004915872.3 , XM_004915872.4
    Accession Version XM_004915872.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 dynamin-binding protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.2) 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_004915872.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATGAGCT GGGAATTTGA GGATTATCAA AATTTACGGC AGCGGGACCC GTTTGAATAT 
    CCCAAGTTCT ACAGGGAACA GAGATATGGG GAGAATGTTA GTGCATCGTC TATGAGGGAA 
    GAGCAATATT ACACTGACAG CAGAAAATAT GATAGAAAAA CAAAAGCCTA CAGGCAAGCA 
    GATCCGGGCG ATTATTACAG GATGTCCCAG AATGAAGACT GGATTGGGTA TAGCGACGCA 
    GAAAGATTTT ATGACTACAG GGAGAATATC TGTGACTATC CTAAGAGATA CAGGAATGAA 
    GGTCGGTATG AGGACAGAAA AATAAATTAT GATGATGGGA ATTATTGTTC AGAATATATA 
    AATGCCGACT CTCATTATGC TCCCAGAAGG GAATATGACA TTCCCAATGA CCATCAATAT 
    TATCAGGAAT ATAGTCCTAG AAAGGGTCAA TGTAACGATC GCAACCTGGA GCCATACGGT 
    TATACCACAC ATCGGACTGT TGATAAGAGA TATTCTGCCC CAGATCGGGA AGATTATTAC 
    TATATGGATC GTAAAAGTCG CGAGTTTTAC GAAAAGGACT ATAGGAGGAT GAAGGACTAC 
    CATAGCAGAG AACCCAAACT GGACAAATAT GGAGAAACTT CTCATGGAAA ATCTAAACCC 
    TCTGATTTGG ACTATGAGGA TTACCCAAGG GAGAAAGAAG AAGAAAGGGA ATATATTGAA 
    GTTAAAGAAT CTAGGCAAAA GTATAGTAAT GCAAAGAGAT CTAATGCTCG TCGTTATGAC 
    TTTTTACCTT TGGATTGTGA TGATGTAGAG GGTGACAGTA AGAGAATTCA GACGGAGGAC 
    CGGAGCTTGT CTGATAGATG TTATGATGAC AGAAGGAGAG ACAGAAGCCA TTCCTTTGAG 
    TCAAAATGCC AGAACAATTC TAAACGCGCT GGTTATGATT TTGAATGCAA TCATCCTGAT 
    GGAGTAGACC TGTATTTAAA TTCTCAGAGA CCTTCCAAGG AATACTACAA GGATGAATAC 
    AGGGACAGAA GGCCATTGGA TGAAGATTGG GGGGATTATG ATGGTTTTGA GACTGGGGGG 
    AGAAGTACTA GAGAAAAGGA TAAAAGAGCT TGTTTGGAGG ATATGGCAAC TGATGGCCCT 
    GATAGGTATG CCAGAGAGCA AAAGGATATG TACGGATTGG GATATGAGGA TTGCTATGCT 
    CCTAGAAGTT CTCGTTCATT TGAACGACAG CAAAGCCAAG AACACGAGAC GTGCAACAGG 
    CCTGAAGTTG TTCTCAATAC AGACACCATG AAAAGAAACA GCATTTATCG GAGGACGGCC 
    CCCAGCAGTC TACGACGGTC AGAATTTGTG CAGAACAGGA AAAAGAGGCA AGACATGACC 
    TTGCTTTCGT CTCAGCCAGA AGGTGCAGAA CAGACTCTAT CCACTGGATC TACCACAGAG 
    AACTCAGAAC AGAGAATGCT GGAGAAGAGA TCCAAGGTGA TTGAGGAGCT GTTACAGACG 
    GAGCAAGATT ACCTGAGGGA CCTGGAGACA TGTGTGGAGC ACATCATGGG ACCCTTACAG 
    GCAAAGCAGA TGGCCAGTGT GGATTTTGAT GTTCTCTTTG GAAACATCCA AAGTGTGATT 
    GACATTTCTA AGAAATTCCT AACAGCTCTT GGAAGTTCTG ACTCTGTTGG GACAGTTTTC 
    CTTGACCATG CCTCCGACCT AGAGAACGTC TACAAAGAGT ATTGCCAGAA TCATGAAGAG 
    ACTATTGCAC TGCTGGAAGC TTATGACAAA GATGAGAAAT TCCAGAAGAA CTTGTTGGAA 
    TGCATGGAGA CTGTCAAGAA TCTTTACCAA GAATGGGGCC GAACAAACTA CATTAACCTG 
    GGATCCTTCC TCATCAAACC AGTGCAGAGG ATTATGCGTT ACCCTCTGCT CCTCATGGAG 
    CTTCTTGGCG CAACCCCTGA TTCCCACCCT GACAAAGCCC CTTTGAGAGA AGCAGTGCAG 
    TCAGTGAAGG ATATCAATGG CAATATCAAT GAGTACAAGC GCAGGAAGGA CTTGGTTCTA 
    AAATACCGCA AAGGTGATGA GAATAGTTTG ATTGACAAAA TCTCCAAGCT TAATATTCAC 
    TCAATCATTA AGAAGTCCAA TCGGGTCAGC AGTCATATCA AACAACTCAC AGGATTTGCA 
    CCGCAGATCA AGGATGAAGC ATTTGAGGAG ACTGAGAAAA ACTTCAGAAT GCAGGAACGG 
    CTAATCAAAA GCTTCATTCG GGATCTCTCT GTGTATCTGC AGCATGTCAG GGAATCTGCC 
    TGTGTGAAAG TGCTGGCCGC TATGAGTATG TGGGATCTGT ATTCAGACAA AGGAACCAGT 
    GATCTGGAGA AGTTCCACAA AGCCCATCGT TATATCAGCG AGAAGCTTTT CACTGATTTT 
    AAACAAAGAA CAGAAAAGTT GGTCATTTCA CCCCTGAATC AGCTTCTTAA TATGTTTGCC 
    GGGCCACATA AACTGGTACA GAAGCGCTTT GACAAACTGC TGGACTTTCA CAATTGCACT 
    GAGCGAGCAG AGAAGCTGAA GGACAAGAAG ACGCAGGAAG AGCTCCAGTC TGCCAGGAAT 
    AACTATGAAG CGCTAAACGC TCAGCTCCTG GATGAGCTGC CGAAATTCCA CAACTTTGCC 
    AAGGAACTTT TTGCCAGTTG CATGCGGGGC TATGCCAGTG CACACTGTGA GTTTGTGAAG 
    CTGGCTTTGG AGGAGCTGAA ACCACTATTA ACGCTGCTGG GAGTTGGAGC CACAGAAGGG 
    AACCTGATTG CTGTTTTCCA GGAGGAGCAC AGCAAGGTCC TGCAGCAACT TCAGGTCTTT 
    ACCTTTTTCC CAGAAAACCT TCCACCTTCC AAGAAACCTT TCGAGCGAAA GACCATTGAG 
    CGGCAGTCAG CAAGAAAAAC CATCCCAAGC CCGGCTAAGT ACATCCCACA GCTAGATGAA 
    CACCGGGTTG CAGTTCTGGC CAGGTACCCA CCCGAGAAAC TCTTCCAAGC AGATCGGATC 
    TATAATGCTG CTCAGGATTT GGATGTTTCT TTACAGGAAG GGGATCTTGT TGGGGTCATT 
    AAACAGCAAG ATCCAATGGG TAGTCAGAAC CGCTGGCTCA TTGACAATGG GGTCACCAAA 
    GGTTTTGTCT ACTGCTCATT CCTGAAGCCC TACAACCCTC GGCAGAGTCA TTCTGATGCG 
    TCTGTTGGGA GCCAGTCTTC TACAGAATCG GGGTACGGAG GTTCCTCACC CAACTTTTCA 
    AGGCAGAATA GCAACAACAC CCTGACATTT AACCCAGGCA ATTCAACAGT GGCCTTCACC 
    GCAGGATCCA TTGCAAAACA CAGCATGGAT TCCACATCCA CGAGCAGTGG TCAGGAGGAC 
    TCTCCAGTCT GTCTGCCTGA TGGAAATCTC TCCAAAAAGT CAAGTGAAAC AGAGGTGCCC 
    AGACACCCAC GGACCAGTGA GAAGGTGGCA AAAACTAGTA CAGACCCTGA ATCAAATAAT 
    CACAGGAGGC AGACAGAAAA TGAAAATAGC GTTGGAGACA AAGAACAGAC GTTTGAAAGC 
    CGTAAAGCAA TTAGAAAGAA AACCGCTTCC CCTGCTCATA GCGACTGTGA ACAAGATGTG 
    TGTGAACTAG AAGGGAACCA AGTGTATTAT GCAGTATATA CATTTAAATC CCGCTCTCCA 
    AATGAACTTT CAGTGTCAGC CAATCAAAGA GTTAATATCC TGGAGTTCAG AGACATGAAT 
    GGCAATGGAG AGTGGTGGTT GGCAGAAGTG GAAGGAAGGC GGGGCTACGT GCCATCCAAC 
    TACATCCGTA AAACAGAATA TACGTGA

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

    RefSeq XP_004915929.1
    CDS350..4156
    Translation

    Target ORF information:

    RefSeq Version XM_004915872.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004915872.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATGAGCT GGGAATTTGA GGATTATCAA AATTTACGGC AGCGGGACCC GTTTGAATAT 
    CCCAAGTTCT ACAGGGAACA GAGATATGGG GAGAATGTTA GTGCATCGTC TATGAGGGAA 
    GAGCAATATT ACACTGACAG CAGAAAATAT GATAGAAAAA CAAAAGCCTA CAGGCAAGCA 
    GATCCGGGCG ATTATTACAG GATGTCCCAG AATGAAGACT GGATTGGGTA TAGCGACGCA 
    GAAAGATTTT ATGACTACAG GGAGAATATC TGTGACTATC CTAAGAGATA CAGGAATGAA 
    GGTCGGTATG AGGACAGAAA AATAAATTAT GATGATGGGA ATTATTGTTC AGAATATATA 
    AATGCCGACT CTCATTATGC TCCCAGAAGG GAATATGACA TTCCCAATGA CCATCAATAT 
    TATCAGGAAT ATAGTCCTAG AAAGGGTCAA TGTAACGATC GCAACCTGGA GCCATACGGT 
    TATACCACAC ATCGGACTGT TGATAAGAGA TATTCTGCCC CAGATCGGGA AGATTATTAC 
    TATATGGATC GTAAAAGTCG CGAGTTTTAC GAAAAGGACT ATAGGAGGAT GAAGGACTAC 
    CATAGCAGAG AACCCAAACT GGACAAATAT GGAGAAACTT CTCATGGAAA ATCTAAACCC 
    TCTGATTTGG ACTATGAGGA TTACCCAAGG GAGAAAGAAG AAGAAAGGGA ATATATTGAA 
    GTTAAAGAAT CTAGGCAAAA GTATAGTAAT GCAAAGAGAT CTAATGCTCG TCGTTATGAC 
    TTTTTACCTT TGGATTGTGA TGATGTAGAG GGTGACAGTA AGAGAATTCA GACGGAGGAC 
    CGGAGCTTGT CTGATAGATG TTATGATGAC AGAAGGAGAG ACAGAAGCCA TTCCTTTGAG 
    TCAAAATGCC AGAACAATTC TAAACGCGCT GGTTATGATT TTGAATGCAA TCATCCTGAT 
    GGAGTAGACC TGTATTTAAA TTCTCAGAGA CCTTCCAAGG AATACTACAA GGATGAATAC 
    AGGGACAGAA GGCCATTGGA TGAAGATTGG GGGGATTATG ATGGTTTTGA GACTGGGGGG 
    AGAAGTACTA GAGAAAAGGA TAAAAGAGCT TGTTTGGAGG ATATGGCAAC TGATGGCCCT 
    GATAGGTATG CCAGAGAGCA AAAGGATATG TACGGATTGG GATATGAGGA TTGCTATGCT 
    CCTAGAAGTT CTCGTTCATT TGAACGACAG CAAAGCCAAG AACACGAGAC GTGCAACAGG 
    CCTGAAGTTG TTCTCAATAC AGACACCATG AAAAGAAACA GCATTTATCG GAGGACGGCC 
    CCCAGCAGTC TACGACGGTC AGAATTTGTG CAGAACAGGA AAAAGAGGCA AGACATGACC 
    TTGCTTTCGT CTCAGCCAGA AGGTGCAGAA CAGACTCTAT CCACTGGATC TACCACAGAG 
    AACTCAGAAC AGAGAATGCT GGAGAAGAGA TCCAAGGTGA TTGAGGAGCT GTTACAGACG 
    GAGCAAGATT ACCTGAGGGA CCTGGAGACA TGTGTGGAGC ACATCATGGG ACCCTTACAG 
    GCAAAGCAGA TGGCCAGTGT GGATTTTGAT GTTCTCTTTG GAAACATCCA AAGTGTGATT 
    GACATTTCTA AGAAATTCCT AACAGCTCTT GGAAGTTCTG ACTCTGTTGG GACAGTTTTC 
    CTTGACCATG CCTCCGACCT AGAGAACGTC TACAAAGAGT ATTGCCAGAA TCATGAAGAG 
    ACTATTGCAC TGCTGGAAGC TTATGACAAA GATGAGAAAT TCCAGAAGAA CTTGTTGGAA 
    TGCATGGAGA CTGTCAAGAA TCTTTACCAA GAATGGGGCC GAACAAACTA CATTAACCTG 
    GGATCCTTCC TCATCAAACC AGTGCAGAGG ATTATGCGTT ACCCTCTGCT CCTCATGGAG 
    CTTCTTGGCG CAACCCCTGA TTCCCACCCT GACAAAGCCC CTTTGAGAGA AGCAGTGCAG 
    TCAGTGAAGG ATATCAATGG CAATATCAAT GAGTACAAGC GCAGGAAGGA CTTGGTTCTA 
    AAATACCGCA AAGGTGATGA GAATAGTTTG ATTGACAAAA TCTCCAAGCT TAATATTCAC 
    TCAATCATTA AGAAGTCCAA TCGGGTCAGC AGTCATATCA AACAACTCAC AGGATTTGCA 
    CCGCAGATCA AGGATGAAGC ATTTGAGGAG ACTGAGAAAA ACTTCAGAAT GCAGGAACGG 
    CTAATCAAAA GCTTCATTCG GGATCTCTCT GTGTATCTGC AGCATGTCAG GGAATCTGCC 
    TGTGTGAAAG TGCTGGCCGC TATGAGTATG TGGGATCTGT ATTCAGACAA AGGAACCAGT 
    GATCTGGAGA AGTTCCACAA AGCCCATCGT TATATCAGCG AGAAGCTTTT CACTGATTTT 
    AAACAAAGAA CAGAAAAGTT GGTCATTTCA CCCCTGAATC AGCTTCTTAA TATGTTTGCC 
    GGGCCACATA AACTGGTACA GAAGCGCTTT GACAAACTGC TGGACTTTCA CAATTGCACT 
    GAGCGAGCAG AGAAGCTGAA GGACAAGAAG ACGCAGGAAG AGCTCCAGTC TGCCAGGAAT 
    AACTATGAAG CGCTAAACGC TCAGCTCCTG GATGAGCTGC CGAAATTCCA CAACTTTGCC 
    AAGGAACTTT TTGCCAGTTG CATGCGGGGC TATGCCAGTG CACACTGTGA GTTTGTGAAG 
    CTGGCTTTGG AGGAGCTGAA ACCACTATTA ACGCTGCTGG GAGTTGGAGC CACAGAAGGG 
    AACCTGATTG CTGTTTTCCA GGAGGAGCAC AGCAAGGTCC TGCAGCAACT TCAGGTCTTT 
    ACCTTTTTCC CAGAAAACCT TCCACCTTCC AAGAAACCTT TCGAGCGAAA GACCATTGAG 
    CGGCAGTCAG CAAGAAAAAC CATCCCAAGC CCGGCTAAGT ACATCCCACA GCTAGATGAA 
    CACCGGGTTG CAGTTCTGGC CAGGTACCCA CCCGAGAAAC TCTTCCAAGC AGATCGGATC 
    TATAATGCTG CTCAGGATTT GGATGTTTCT TTACAGGAAG GGGATCTTGT TGGGGTCATT 
    AAACAGCAAG ATCCAATGGG TAGTCAGAAC CGCTGGCTCA TTGACAATGG GGTCACCAAA 
    GGTTTTGTCT ACTGCTCATT CCTGAAGCCC TACAACCCTC GGCAGAGTCA TTCTGATGCG 
    TCTGTTGGGA GCCAGTCTTC TACAGAATCG GGGTACGGAG GTTCCTCACC CAACTTTTCA 
    AGGCAGAATA GCAACAACAC CCTGACATTT AACCCAGGCA ATTCAACAGT GGCCTTCACC 
    GCAGGATCCA TTGCAAAACA CAGCATGGAT TCCACATCCA CGAGCAGTGG TCAGGAGGAC 
    TCTCCAGTCT GTCTGCCTGA TGGAAATCTC TCCAAAAAGT CAAGTGAAAC AGAGGTGCCC 
    AGACACCCAC GGACCAGTGA GAAGGTGGCA AAAACTAGTA CAGACCCTGA ATCAAATAAT 
    CACAGGAGGC AGACAGAAAA TGAAAATAGC GTTGGAGACA AAGAACAGAC GTTTGAAAGC 
    CGTAAAGCAA TTAGAAAGAA AACCGCTTCC CCTGCTCATA GCGACTGTGA ACAAGATGTG 
    TGTGAACTAG AAGGGAACCA AGTGTATTAT GCAGTATATA CATTTAAATC CCGCTCTCCA 
    AATGAACTTT CAGTGTCAGC CAATCAAAGA GTTAATATCC TGGAGTTCAG AGACATGAAT 
    GGCAATGGAG AGTGGTGGTT GGCAGAAGTG GAAGGAAGGC GGGGCTACGT GCCATCCAAC 
    TACATCCGTA AAACAGAATA TACGTGA

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

    dnmbp ( XM_004915872.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004915929.1 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa12724
    Clone ID Related Accession (Same CDS sequence) XM_004915872.3 , XM_004915872.4
    Accession Version XM_004915872.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 dynamin-binding protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.1) 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_004915872.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATGAGCT GGGAATTTGA GGATTATCAA AATTTACGGC AGCGGGACCC GTTTGAATAT 
    CCCAAGTTCT ACAGGGAACA GAGATATGGG GAGAATGTTA GTGCATCGTC TATGAGGGAA 
    GAGCAATATT ACACTGACAG CAGAAAATAT GATAGAAAAA CAAAAGCCTA CAGGCAAGCA 
    GATCCGGGCG ATTATTACAG GATGTCCCAG AATGAAGACT GGATTGGGTA TAGCGACGCA 
    GAAAGATTTT ATGACTACAG GGAGAATATC TGTGACTATC CTAAGAGATA CAGGAATGAA 
    GGTCGGTATG AGGACAGAAA AATAAATTAT GATGATGGGA ATTATTGTTC AGAATATATA 
    AATGCCGACT CTCATTATGC TCCCAGAAGG GAATATGACA TTCCCAATGA CCATCAATAT 
    TATCAGGAAT ATAGTCCTAG AAAGGGTCAA TGTAACGATC GCAACCTGGA GCCATACGGT 
    TATACCACAC ATCGGACTGT TGATAAGAGA TATTCTGCCC CAGATCGGGA AGATTATTAC 
    TATATGGATC GTAAAAGTCG CGAGTTTTAC GAAAAGGACT ATAGGAGGAT GAAGGACTAC 
    CATAGCAGAG AACCCAAACT GGACAAATAT GGAGAAACTT CTCATGGAAA ATCTAAACCC 
    TCTGATTTGG ACTATGAGGA TTACCCAAGG GAGAAAGAAG AAGAAAGGGA ATATATTGAA 
    GTTAAAGAAT CTAGGCAAAA GTATAGTAAT GCAAAGAGAT CTAATGCTCG TCGTTATGAC 
    TTTTTACCTT TGGATTGTGA TGATGTAGAG GGTGACAGTA AGAGAATTCA GACGGAGGAC 
    CGGAGCTTGT CTGATAGATG TTATGATGAC AGAAGGAGAG ACAGAAGCCA TTCCTTTGAG 
    TCAAAATGCC AGAACAATTC TAAACGCGCT GGTTATGATT TTGAATGCAA TCATCCTGAT 
    GGAGTAGACC TGTATTTAAA TTCTCAGAGA CCTTCCAAGG AATACTACAA GGATGAATAC 
    AGGGACAGAA GGCCATTGGA TGAAGATTGG GGGGATTATG ATGGTTTTGA GACTGGGGGG 
    AGAAGTACTA GAGAAAAGGA TAAAAGAGCT TGTTTGGAGG ATATGGCAAC TGATGGCCCT 
    GATAGGTATG CCAGAGAGCA AAAGGATATG TACGGATTGG GATATGAGGA TTGCTATGCT 
    CCTAGAAGTT CTCGTTCATT TGAACGACAG CAAAGCCAAG AACACGAGAC GTGCAACAGG 
    CCTGAAGTTG TTCTCAATAC AGACACCATG AAAAGAAACA GCATTTATCG GAGGACGGCC 
    CCCAGCAGTC TACGACGGTC AGAATTTGTG CAGAACAGGA AAAAGAGGCA AGACATGACC 
    TTGCTTTCGT CTCAGCCAGA AGGTGCAGAA CAGACTCTAT CCACTGGATC TACCACAGAG 
    AACTCAGAAC AGAGAATGCT GGAGAAGAGA TCCAAGGTGA TTGAGGAGCT GTTACAGACG 
    GAGCAAGATT ACCTGAGGGA CCTGGAGACA TGTGTGGAGC ACATCATGGG ACCCTTACAG 
    GCAAAGCAGA TGGCCAGTGT GGATTTTGAT GTTCTCTTTG GAAACATCCA AAGTGTGATT 
    GACATTTCTA AGAAATTCCT AACAGCTCTT GGAAGTTCTG ACTCTGTTGG GACAGTTTTC 
    CTTGACCATG CCTCCGACCT AGAGAACGTC TACAAAGAGT ATTGCCAGAA TCATGAAGAG 
    ACTATTGCAC TGCTGGAAGC TTATGACAAA GATGAGAAAT TCCAGAAGAA CTTGTTGGAA 
    TGCATGGAGA CTGTCAAGAA TCTTTACCAA GAATGGGGCC GAACAAACTA CATTAACCTG 
    GGATCCTTCC TCATCAAACC AGTGCAGAGG ATTATGCGTT ACCCTCTGCT CCTCATGGAG 
    CTTCTTGGCG CAACCCCTGA TTCCCACCCT GACAAAGCCC CTTTGAGAGA AGCAGTGCAG 
    TCAGTGAAGG ATATCAATGG CAATATCAAT GAGTACAAGC GCAGGAAGGA CTTGGTTCTA 
    AAATACCGCA AAGGTGATGA GAATAGTTTG ATTGACAAAA TCTCCAAGCT TAATATTCAC 
    TCAATCATTA AGAAGTCCAA TCGGGTCAGC AGTCATATCA AACAACTCAC AGGATTTGCA 
    CCGCAGATCA AGGATGAAGC ATTTGAGGAG ACTGAGAAAA ACTTCAGAAT GCAGGAACGG 
    CTAATCAAAA GCTTCATTCG GGATCTCTCT GTGTATCTGC AGCATGTCAG GGAATCTGCC 
    TGTGTGAAAG TGCTGGCCGC TATGAGTATG TGGGATCTGT ATTCAGACAA AGGAACCAGT 
    GATCTGGAGA AGTTCCACAA AGCCCATCGT TATATCAGCG AGAAGCTTTT CACTGATTTT 
    AAACAAAGAA CAGAAAAGTT GGTCATTTCA CCCCTGAATC AGCTTCTTAA TATGTTTGCC 
    GGGCCACATA AACTGGTACA GAAGCGCTTT GACAAACTGC TGGACTTTCA CAATTGCACT 
    GAGCGAGCAG AGAAGCTGAA GGACAAGAAG ACGCAGGAAG AGCTCCAGTC TGCCAGGAAT 
    AACTATGAAG CGCTAAACGC TCAGCTCCTG GATGAGCTGC CGAAATTCCA CAACTTTGCC 
    AAGGAACTTT TTGCCAGTTG CATGCGGGGC TATGCCAGTG CACACTGTGA GTTTGTGAAG 
    CTGGCTTTGG AGGAGCTGAA ACCACTATTA ACGCTGCTGG GAGTTGGAGC CACAGAAGGG 
    AACCTGATTG CTGTTTTCCA GGAGGAGCAC AGCAAGGTCC TGCAGCAACT TCAGGTCTTT 
    ACCTTTTTCC CAGAAAACCT TCCACCTTCC AAGAAACCTT TCGAGCGAAA GACCATTGAG 
    CGGCAGTCAG CAAGAAAAAC CATCCCAAGC CCGGCTAAGT ACATCCCACA GCTAGATGAA 
    CACCGGGTTG CAGTTCTGGC CAGGTACCCA CCCGAGAAAC TCTTCCAAGC AGATCGGATC 
    TATAATGCTG CTCAGGATTT GGATGTTTCT TTACAGGAAG GGGATCTTGT TGGGGTCATT 
    AAACAGCAAG ATCCAATGGG TAGTCAGAAC CGCTGGCTCA TTGACAATGG GGTCACCAAA 
    GGTTTTGTCT ACTGCTCATT CCTGAAGCCC TACAACCCTC GGCAGAGTCA TTCTGATGCG 
    TCTGTTGGGA GCCAGTCTTC TACAGAATCG GGGTACGGAG GTTCCTCACC CAACTTTTCA 
    AGGCAGAATA GCAACAACAC CCTGACATTT AACCCAGGCA ATTCAACAGT GGCCTTCACC 
    GCAGGATCCA TTGCAAAACA CAGCATGGAT TCCACATCCA CGAGCAGTGG TCAGGAGGAC 
    TCTCCAGTCT GTCTGCCTGA TGGAAATCTC TCCAAAAAGT CAAGTGAAAC AGAGGTGCCC 
    AGACACCCAC GGACCAGTGA GAAGGTGGCA AAAACTAGTA CAGACCCTGA ATCAAATAAT 
    CACAGGAGGC AGACAGAAAA TGAAAATAGC GTTGGAGACA AAGAACAGAC GTTTGAAAGC 
    CGTAAAGCAA TTAGAAAGAA AACCGCTTCC CCTGCTCATA GCGACTGTGA ACAAGATGTG 
    TGTGAACTAG AAGGGAACCA AGTGTATTAT GCAGTATATA CATTTAAATC CCGCTCTCCA 
    AATGAACTTT CAGTGTCAGC CAATCAAAGA GTTAATATCC TGGAGTTCAG AGACATGAAT 
    GGCAATGGAG AGTGGTGGTT GGCAGAAGTG GAAGGAAGGC GGGGCTACGT GCCATCCAAC 
    TACATCCGTA AAACAGAATA TACGTGA

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

    RefSeq XP_004915929.1
    CDS377..4183
    Translation

    Target ORF information:

    RefSeq Version XM_004915872.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004915872.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATGAGCT GGGAATTTGA GGATTATCAA AATTTACGGC AGCGGGACCC GTTTGAATAT 
    CCCAAGTTCT ACAGGGAACA GAGATATGGG GAGAATGTTA GTGCATCGTC TATGAGGGAA 
    GAGCAATATT ACACTGACAG CAGAAAATAT GATAGAAAAA CAAAAGCCTA CAGGCAAGCA 
    GATCCGGGCG ATTATTACAG GATGTCCCAG AATGAAGACT GGATTGGGTA TAGCGACGCA 
    GAAAGATTTT ATGACTACAG GGAGAATATC TGTGACTATC CTAAGAGATA CAGGAATGAA 
    GGTCGGTATG AGGACAGAAA AATAAATTAT GATGATGGGA ATTATTGTTC AGAATATATA 
    AATGCCGACT CTCATTATGC TCCCAGAAGG GAATATGACA TTCCCAATGA CCATCAATAT 
    TATCAGGAAT ATAGTCCTAG AAAGGGTCAA TGTAACGATC GCAACCTGGA GCCATACGGT 
    TATACCACAC ATCGGACTGT TGATAAGAGA TATTCTGCCC CAGATCGGGA AGATTATTAC 
    TATATGGATC GTAAAAGTCG CGAGTTTTAC GAAAAGGACT ATAGGAGGAT GAAGGACTAC 
    CATAGCAGAG AACCCAAACT GGACAAATAT GGAGAAACTT CTCATGGAAA ATCTAAACCC 
    TCTGATTTGG ACTATGAGGA TTACCCAAGG GAGAAAGAAG AAGAAAGGGA ATATATTGAA 
    GTTAAAGAAT CTAGGCAAAA GTATAGTAAT GCAAAGAGAT CTAATGCTCG TCGTTATGAC 
    TTTTTACCTT TGGATTGTGA TGATGTAGAG GGTGACAGTA AGAGAATTCA GACGGAGGAC 
    CGGAGCTTGT CTGATAGATG TTATGATGAC AGAAGGAGAG ACAGAAGCCA TTCCTTTGAG 
    TCAAAATGCC AGAACAATTC TAAACGCGCT GGTTATGATT TTGAATGCAA TCATCCTGAT 
    GGAGTAGACC TGTATTTAAA TTCTCAGAGA CCTTCCAAGG AATACTACAA GGATGAATAC 
    AGGGACAGAA GGCCATTGGA TGAAGATTGG GGGGATTATG ATGGTTTTGA GACTGGGGGG 
    AGAAGTACTA GAGAAAAGGA TAAAAGAGCT TGTTTGGAGG ATATGGCAAC TGATGGCCCT 
    GATAGGTATG CCAGAGAGCA AAAGGATATG TACGGATTGG GATATGAGGA TTGCTATGCT 
    CCTAGAAGTT CTCGTTCATT TGAACGACAG CAAAGCCAAG AACACGAGAC GTGCAACAGG 
    CCTGAAGTTG TTCTCAATAC AGACACCATG AAAAGAAACA GCATTTATCG GAGGACGGCC 
    CCCAGCAGTC TACGACGGTC AGAATTTGTG CAGAACAGGA AAAAGAGGCA AGACATGACC 
    TTGCTTTCGT CTCAGCCAGA AGGTGCAGAA CAGACTCTAT CCACTGGATC TACCACAGAG 
    AACTCAGAAC AGAGAATGCT GGAGAAGAGA TCCAAGGTGA TTGAGGAGCT GTTACAGACG 
    GAGCAAGATT ACCTGAGGGA CCTGGAGACA TGTGTGGAGC ACATCATGGG ACCCTTACAG 
    GCAAAGCAGA TGGCCAGTGT GGATTTTGAT GTTCTCTTTG GAAACATCCA AAGTGTGATT 
    GACATTTCTA AGAAATTCCT AACAGCTCTT GGAAGTTCTG ACTCTGTTGG GACAGTTTTC 
    CTTGACCATG CCTCCGACCT AGAGAACGTC TACAAAGAGT ATTGCCAGAA TCATGAAGAG 
    ACTATTGCAC TGCTGGAAGC TTATGACAAA GATGAGAAAT TCCAGAAGAA CTTGTTGGAA 
    TGCATGGAGA CTGTCAAGAA TCTTTACCAA GAATGGGGCC GAACAAACTA CATTAACCTG 
    GGATCCTTCC TCATCAAACC AGTGCAGAGG ATTATGCGTT ACCCTCTGCT CCTCATGGAG 
    CTTCTTGGCG CAACCCCTGA TTCCCACCCT GACAAAGCCC CTTTGAGAGA AGCAGTGCAG 
    TCAGTGAAGG ATATCAATGG CAATATCAAT GAGTACAAGC GCAGGAAGGA CTTGGTTCTA 
    AAATACCGCA AAGGTGATGA GAATAGTTTG ATTGACAAAA TCTCCAAGCT TAATATTCAC 
    TCAATCATTA AGAAGTCCAA TCGGGTCAGC AGTCATATCA AACAACTCAC AGGATTTGCA 
    CCGCAGATCA AGGATGAAGC ATTTGAGGAG ACTGAGAAAA ACTTCAGAAT GCAGGAACGG 
    CTAATCAAAA GCTTCATTCG GGATCTCTCT GTGTATCTGC AGCATGTCAG GGAATCTGCC 
    TGTGTGAAAG TGCTGGCCGC TATGAGTATG TGGGATCTGT ATTCAGACAA AGGAACCAGT 
    GATCTGGAGA AGTTCCACAA AGCCCATCGT TATATCAGCG AGAAGCTTTT CACTGATTTT 
    AAACAAAGAA CAGAAAAGTT GGTCATTTCA CCCCTGAATC AGCTTCTTAA TATGTTTGCC 
    GGGCCACATA AACTGGTACA GAAGCGCTTT GACAAACTGC TGGACTTTCA CAATTGCACT 
    GAGCGAGCAG AGAAGCTGAA GGACAAGAAG ACGCAGGAAG AGCTCCAGTC TGCCAGGAAT 
    AACTATGAAG CGCTAAACGC TCAGCTCCTG GATGAGCTGC CGAAATTCCA CAACTTTGCC 
    AAGGAACTTT TTGCCAGTTG CATGCGGGGC TATGCCAGTG CACACTGTGA GTTTGTGAAG 
    CTGGCTTTGG AGGAGCTGAA ACCACTATTA ACGCTGCTGG GAGTTGGAGC CACAGAAGGG 
    AACCTGATTG CTGTTTTCCA GGAGGAGCAC AGCAAGGTCC TGCAGCAACT TCAGGTCTTT 
    ACCTTTTTCC CAGAAAACCT TCCACCTTCC AAGAAACCTT TCGAGCGAAA GACCATTGAG 
    CGGCAGTCAG CAAGAAAAAC CATCCCAAGC CCGGCTAAGT ACATCCCACA GCTAGATGAA 
    CACCGGGTTG CAGTTCTGGC CAGGTACCCA CCCGAGAAAC TCTTCCAAGC AGATCGGATC 
    TATAATGCTG CTCAGGATTT GGATGTTTCT TTACAGGAAG GGGATCTTGT TGGGGTCATT 
    AAACAGCAAG ATCCAATGGG TAGTCAGAAC CGCTGGCTCA TTGACAATGG GGTCACCAAA 
    GGTTTTGTCT ACTGCTCATT CCTGAAGCCC TACAACCCTC GGCAGAGTCA TTCTGATGCG 
    TCTGTTGGGA GCCAGTCTTC TACAGAATCG GGGTACGGAG GTTCCTCACC CAACTTTTCA 
    AGGCAGAATA GCAACAACAC CCTGACATTT AACCCAGGCA ATTCAACAGT GGCCTTCACC 
    GCAGGATCCA TTGCAAAACA CAGCATGGAT TCCACATCCA CGAGCAGTGG TCAGGAGGAC 
    TCTCCAGTCT GTCTGCCTGA TGGAAATCTC TCCAAAAAGT CAAGTGAAAC AGAGGTGCCC 
    AGACACCCAC GGACCAGTGA GAAGGTGGCA AAAACTAGTA CAGACCCTGA ATCAAATAAT 
    CACAGGAGGC AGACAGAAAA TGAAAATAGC GTTGGAGACA AAGAACAGAC GTTTGAAAGC 
    CGTAAAGCAA TTAGAAAGAA AACCGCTTCC CCTGCTCATA GCGACTGTGA ACAAGATGTG 
    TGTGAACTAG AAGGGAACCA AGTGTATTAT GCAGTATATA CATTTAAATC CCGCTCTCCA 
    AATGAACTTT CAGTGTCAGC CAATCAAAGA GTTAATATCC TGGAGTTCAG AGACATGAAT 
    GGCAATGGAG AGTGGTGGTT GGCAGAAGTG GAAGGAAGGC GGGGCTACGT GCCATCCAAC 
    TACATCCGTA AAACAGAATA TACGTGA

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

    dnmbp ( XM_004915871.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004915928.1 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa12723
    Clone ID Related Accession (Same CDS sequence) XM_004915871.3 , XM_004915871.4
    Accession Version XM_004915871.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4638bp)
    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 dynamin-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.2) 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_004915871.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGAGGTGG GATCGGTGGT CCGAGCGATA TTTGATTTCT GCCCCAGTGT TTCTGAGGAA 
    CTAACACTGT TTGCTGGGGA TGTCATTGAA GTTCTAACTG TAATAGATGA GTTCTGGCTT 
    CTGGGCACCA AAGAAGGAAT CACTGGCCAG TTTCCCGTGA GCTTTGTAGA AGAACTGTCC 
    ATCCCGAGTC TCAAGCATGG AGAGAAGCTC TATGTCTGCA CCAGTGAATT TACCTCCCAT 
    GAACCAGGAG CGCTGTGCTT GCAAAGAGGC GATCTACTGG TTCTGGAGGG AACATTGACA 
    TCCAGTTGGT TACAAGGACG CAGTTGTTGG GGGTCCAAAG GATTTTTCCC ATTATCATGT 
    GTACAGGAAT TCTGTCTGTC ATCCAGGAGC CGCCAGCTTT GTCAGAACTC TAATCTTGAG 
    CTCCCAAGTT ATGCTATAGG CCAGGCAAGA GCCATTTTGG GACTTTCTGC TCAGCTGGAA 
    GAGGAGCTGG ATTTTAGAGA AGGAGATATT ATTACAATCA CTGGAGTGCC AGAGTCTGGA 
    TGGTTTGAGG GTGAATTGAA TGGGCGAAGA GGAATCTTTC CAGAAGGCTT TGTAGAATTG 
    CTGAACCCTT TGAGGGTTTC TGATGTTAGA ATTATACATA GTACCTATGA TGACTTTAAA 
    CATGACAAGC TAGCAGAAGT AGCCCAGTTC CCTGTACGTG GAAAATGCAA CAAGGAAAAC 
    CACCGGGAGA CTGAAGATCA AGATGGCACT TTTGCAGTTG CTCTCTATAA ATTTGAGGCT 
    ATGGAACAGA GAGAGCTTGA CTTTGAAGTA GGTGATAGGA TTAGAATAAT TAAGACATTA 
    GAAGATGGCT GGCTTGAAGG GGAGTTGTAT GGAAAGAGGG GTATTTTTCC TCACAGATTT 
    GTCAAATTGG AGAGCCCAGA AAAAAACTCA TTTTACAAGA CACCAGAAGG AACCAAAAAC 
    AGCAACACCT CACGTGATCT TGACTTCTCT TTTACAGACA ACCACAGTGG TTCTGATCCC 
    CATTACTGGG ATGTTCACAT GGAAGATACC TCAAGTGTCT CAACTGCTGA ATCTCAGGTT 
    CAAATAGCAG ATAATGACAT TTCTGTAAAT GAATATGAAA CTATACGTAG CAAATCTCCT 
    AAGCCACAGC TACCTCCTCG TCCGCAGAGT AAGGTATATA GCAGCCCTGC AAATCTTGTT 
    CAAGATGCTA ACAAAGGTAA ATTAATTACT GCACAGTTGC CTAACAGTGG ACAGGGATCT 
    AATGGTTCAC ATGAGAAGTG GTCTTCCAAA AGGACTGTCT CTTTAATCTC ACCCGATGAG 
    GCAGTGCATT CTCAAAAGAG TTCAGATGAG GTCAAGAACA GAAATAACAG AAAAAGTAGC 
    CTTCAGTACC AGGATATAGC GCTTTGGGTA GAGGATCAGC GCCACAAATC TAAGATGCAA 
    TCTAACTCCA AAAATAAGCA GGAAGGTCCT TCTACATATT CATGGTCTTC ACATGCAGAG 
    AGGCCACAAA GTGGAACACG TAGTGTAAAC AGTGGAAGTG AATTAATTGA CCTAGACTCT 
    AAATTATCTG AGCAACTTTC TCAGTTTGAA AAAAGCCTAT CCAGCCCTAC AGCAAATGGC 
    AACAAGCATG TGTCAAGGCA TTTTTCAATA CTGGATTATA GTTCTGAAAC AGACATTATT 
    AGAGGCTCAT CTCAGCTCTC CAAAATCCAA AAATCACCAG AAAAAAGAAA AATATTAAGA 
    CCCCCACCCC CTCGGCCAAC CCTTAGATAT AATTCAGTTT CAAATCCATC AGTTAGAGGT 
    AGGCCACAAA AAAGTGCAGA TACACAGAGC ACATATCCTC CTTTCCCACT CAAACCATCC 
    AGGCCAGCTC CACTGCCTCC ACCAGGCAAC CAAAGAAATA CACCATCTCC TAAACCATTA 
    CCACGAGTGA GCCAACAATC TGAGAACTTA ACTGCACCAG AAAACCATGA CACTTCTTTG 
    GAAGAGCAAT GTGACAAAGC CCGTGCCTCA CCATGCCCAT TCCTGCAACT GAAGATTGAC 
    GATGTGGAAA GAGAGTTGGA TGTGTACAGA AAGACTCGTG AAGAGTTGGC CTTAATGCTT 
    GAAGAAGAGC AGGATGAACT TGTGAGGACA GAAACACTTG AAAACTTGGA ATTTTGTGAC 
    TCAAACATAG AAGGTCTACA AGCAGAACTT CAGCACCTTA AAGACATGAC CTTGCTTTCG 
    TCTCAGCCAG AAGGTGCAGA ACAGACTCTA TCCACTGGAT CTACCACAGA GAACTCAGAA 
    CAGAGAATGC TGGAGAAGAG ATCCAAGGTG ATTGAGGAGC TGTTACAGAC GGAGCAAGAT 
    TACCTGAGGG ACCTGGAGAC ATGTGTGGAG CACATCATGG GACCCTTACA GGCAAAGCAG 
    ATGGCCAGTG TGGATTTTGA TGTTCTCTTT GGAAACATCC AAAGTGTGAT TGACATTTCT 
    AAGAAATTCC TAACAGCTCT TGGAAGTTCT GACTCTGTTG GGACAGTTTT CCTTGACCAT 
    GCCTCCGACC TAGAGAACGT CTACAAAGAG TATTGCCAGA ATCATGAAGA GACTATTGCA 
    CTGCTGGAAG CTTATGACAA AGATGAGAAA TTCCAGAAGA ACTTGTTGGA ATGCATGGAG 
    ACTGTCAAGA ATCTTTACCA AGAATGGGGC CGAACAAACT ACATTAACCT GGGATCCTTC 
    CTCATCAAAC CAGTGCAGAG GATTATGCGT TACCCTCTGC TCCTCATGGA GCTTCTTGGC 
    GCAACCCCTG ATTCCCACCC TGACAAAGCC CCTTTGAGAG AAGCAGTGCA GTCAGTGAAG 
    GATATCAATG GCAATATCAA TGAGTACAAG CGCAGGAAGG ACTTGGTTCT AAAATACCGC 
    AAAGGTGATG AGAATAGTTT GATTGACAAA ATCTCCAAGC TTAATATTCA CTCAATCATT 
    AAGAAGTCCA ATCGGGTCAG CAGTCATATC AAACAACTCA CAGGATTTGC ACCGCAGATC 
    AAGGATGAAG CATTTGAGGA GACTGAGAAA AACTTCAGAA TGCAGGAACG GCTAATCAAA 
    AGCTTCATTC GGGATCTCTC TGTGTATCTG CAGCATGTCA GGGAATCTGC CTGTGTGAAA 
    GTGCTGGCCG CTATGAGTAT GTGGGATCTG TATTCAGACA AAGGAACCAG TGATCTGGAG 
    AAGTTCCACA AAGCCCATCG TTATATCAGC GAGAAGCTTT TCACTGATTT TAAACAAAGA 
    ACAGAAAAGT TGGTCATTTC ACCCCTGAAT CAGCTTCTTA ATATGTTTGC CGGGCCACAT 
    AAACTGGTAC AGAAGCGCTT TGACAAACTG CTGGACTTTC ACAATTGCAC TGAGCGAGCA 
    GAGAAGCTGA AGGACAAGAA GACGCAGGAA GAGCTCCAGT CTGCCAGGAA TAACTATGAA 
    GCGCTAAACG CTCAGCTCCT GGATGAGCTG CCGAAATTCC ACAACTTTGC CAAGGAACTT 
    TTTGCCAGTT GCATGCGGGG CTATGCCAGT GCACACTGTG AGTTTGTGAA GCTGGCTTTG 
    GAGGAGCTGA AACCACTATT AACGCTGCTG GGAGTTGGAG CCACAGAAGG GAACCTGATT 
    GCTGTTTTCC AGGAGGAGCA CAGCAAGGTC CTGCAGCAAC TTCAGGTCTT TACCTTTTTC 
    CCAGAAAACC TTCCACCTTC CAAGAAACCT TTCGAGCGAA AGACCATTGA GCGGCAGTCA 
    GCAAGAAAAA CCATCCCAAG CCCGGCTAAG TACATCCCAC AGCTAGATGA ACACCGGGTT 
    GCAGTTCTGG CCAGGTACCC ACCCGAGAAA CTCTTCCAAG CAGATCGGAT CTATAATGCT 
    GCTCAGGATT TGGATGTTTC TTTACAGGAA GGGGATCTTG TTGGGGTCAT TAAACAGCAA 
    GATCCAATGG GTAGTCAGAA CCGCTGGCTC ATTGACAATG GGGTCACCAA AGGTTTTGTC 
    TACTGCTCAT TCCTGAAGCC CTACAACCCT CGGCAGAGTC ATTCTGATGC GTCTGTTGGG 
    AGCCAGTCTT CTACAGAATC GGGGTACGGA GGTTCCTCAC CCAACTTTTC AAGGCAGAAT 
    AGCAACAACA CCCTGACATT TAACCCAGGC AATTCAACAG TGGCCTTCAC CGCAGGATCC 
    ATTGCAAAAC ACAGCATGGA TTCCACATCC ACGAGCAGTG GTCAGGAGGA CTCTCCAGTC 
    TGTCTGCCTG ATGGAAATCT CTCCAAAAAG TCAAGTGAAA CAGAGGTGCC CAGACACCCA 
    CGGACCAGTG AGAAGGTGGC AAAAACTAGT ACAGACCCTG AATCAAATAA TCACAGGAGG 
    CAGACAGAAA ATGAAAATAG CGTTGGAGAC AAAGAACAGA CGTTTGAAAG CCGTAAAGCA 
    ATTAGAAAGA AAACCGCTTC CCCTGCTCAT AGCGACTGTG AACAAGATGT GTGTGAACTA 
    GAAGGGAACC AAGTGTATTA TGCAGTATAT ACATTTAAAT CCCGCTCTCC AAATGAACTT 
    TCAGTGTCAG CCAATCAAAG AGTTAATATC CTGGAGTTCA GAGACATGAA TGGCAATGGA 
    GAGTGGTGGT TGGCAGAAGT GGAAGGAAGG CGGGGCTACG TGCCATCCAA CTACATCCGT 
    AAAACAGAAT ATACGTGA

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

    RefSeq XP_004915928.1
    CDS108..4745
    Translation

    Target ORF information:

    RefSeq Version XM_004915871.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004915871.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGAGGTGG GATCGGTGGT CCGAGCGATA TTTGATTTCT GCCCCAGTGT TTCTGAGGAA 
    CTAACACTGT TTGCTGGGGA TGTCATTGAA GTTCTAACTG TAATAGATGA GTTCTGGCTT 
    CTGGGCACCA AAGAAGGAAT CACTGGCCAG TTTCCCGTGA GCTTTGTAGA AGAACTGTCC 
    ATCCCGAGTC TCAAGCATGG AGAGAAGCTC TATGTCTGCA CCAGTGAATT TACCTCCCAT 
    GAACCAGGAG CGCTGTGCTT GCAAAGAGGC GATCTACTGG TTCTGGAGGG AACATTGACA 
    TCCAGTTGGT TACAAGGACG CAGTTGTTGG GGGTCCAAAG GATTTTTCCC ATTATCATGT 
    GTACAGGAAT TCTGTCTGTC ATCCAGGAGC CGCCAGCTTT GTCAGAACTC TAATCTTGAG 
    CTCCCAAGTT ATGCTATAGG CCAGGCAAGA GCCATTTTGG GACTTTCTGC TCAGCTGGAA 
    GAGGAGCTGG ATTTTAGAGA AGGAGATATT ATTACAATCA CTGGAGTGCC AGAGTCTGGA 
    TGGTTTGAGG GTGAATTGAA TGGGCGAAGA GGAATCTTTC CAGAAGGCTT TGTAGAATTG 
    CTGAACCCTT TGAGGGTTTC TGATGTTAGA ATTATACATA GTACCTATGA TGACTTTAAA 
    CATGACAAGC TAGCAGAAGT AGCCCAGTTC CCTGTACGTG GAAAATGCAA CAAGGAAAAC 
    CACCGGGAGA CTGAAGATCA AGATGGCACT TTTGCAGTTG CTCTCTATAA ATTTGAGGCT 
    ATGGAACAGA GAGAGCTTGA CTTTGAAGTA GGTGATAGGA TTAGAATAAT TAAGACATTA 
    GAAGATGGCT GGCTTGAAGG GGAGTTGTAT GGAAAGAGGG GTATTTTTCC TCACAGATTT 
    GTCAAATTGG AGAGCCCAGA AAAAAACTCA TTTTACAAGA CACCAGAAGG AACCAAAAAC 
    AGCAACACCT CACGTGATCT TGACTTCTCT TTTACAGACA ACCACAGTGG TTCTGATCCC 
    CATTACTGGG ATGTTCACAT GGAAGATACC TCAAGTGTCT CAACTGCTGA ATCTCAGGTT 
    CAAATAGCAG ATAATGACAT TTCTGTAAAT GAATATGAAA CTATACGTAG CAAATCTCCT 
    AAGCCACAGC TACCTCCTCG TCCGCAGAGT AAGGTATATA GCAGCCCTGC AAATCTTGTT 
    CAAGATGCTA ACAAAGGTAA ATTAATTACT GCACAGTTGC CTAACAGTGG ACAGGGATCT 
    AATGGTTCAC ATGAGAAGTG GTCTTCCAAA AGGACTGTCT CTTTAATCTC ACCCGATGAG 
    GCAGTGCATT CTCAAAAGAG TTCAGATGAG GTCAAGAACA GAAATAACAG AAAAAGTAGC 
    CTTCAGTACC AGGATATAGC GCTTTGGGTA GAGGATCAGC GCCACAAATC TAAGATGCAA 
    TCTAACTCCA AAAATAAGCA GGAAGGTCCT TCTACATATT CATGGTCTTC ACATGCAGAG 
    AGGCCACAAA GTGGAACACG TAGTGTAAAC AGTGGAAGTG AATTAATTGA CCTAGACTCT 
    AAATTATCTG AGCAACTTTC TCAGTTTGAA AAAAGCCTAT CCAGCCCTAC AGCAAATGGC 
    AACAAGCATG TGTCAAGGCA TTTTTCAATA CTGGATTATA GTTCTGAAAC AGACATTATT 
    AGAGGCTCAT CTCAGCTCTC CAAAATCCAA AAATCACCAG AAAAAAGAAA AATATTAAGA 
    CCCCCACCCC CTCGGCCAAC CCTTAGATAT AATTCAGTTT CAAATCCATC AGTTAGAGGT 
    AGGCCACAAA AAAGTGCAGA TACACAGAGC ACATATCCTC CTTTCCCACT CAAACCATCC 
    AGGCCAGCTC CACTGCCTCC ACCAGGCAAC CAAAGAAATA CACCATCTCC TAAACCATTA 
    CCACGAGTGA GCCAACAATC TGAGAACTTA ACTGCACCAG AAAACCATGA CACTTCTTTG 
    GAAGAGCAAT GTGACAAAGC CCGTGCCTCA CCATGCCCAT TCCTGCAACT GAAGATTGAC 
    GATGTGGAAA GAGAGTTGGA TGTGTACAGA AAGACTCGTG AAGAGTTGGC CTTAATGCTT 
    GAAGAAGAGC AGGATGAACT TGTGAGGACA GAAACACTTG AAAACTTGGA ATTTTGTGAC 
    TCAAACATAG AAGGTCTACA AGCAGAACTT CAGCACCTTA AAGACATGAC CTTGCTTTCG 
    TCTCAGCCAG AAGGTGCAGA ACAGACTCTA TCCACTGGAT CTACCACAGA GAACTCAGAA 
    CAGAGAATGC TGGAGAAGAG ATCCAAGGTG ATTGAGGAGC TGTTACAGAC GGAGCAAGAT 
    TACCTGAGGG ACCTGGAGAC ATGTGTGGAG CACATCATGG GACCCTTACA GGCAAAGCAG 
    ATGGCCAGTG TGGATTTTGA TGTTCTCTTT GGAAACATCC AAAGTGTGAT TGACATTTCT 
    AAGAAATTCC TAACAGCTCT TGGAAGTTCT GACTCTGTTG GGACAGTTTT CCTTGACCAT 
    GCCTCCGACC TAGAGAACGT CTACAAAGAG TATTGCCAGA ATCATGAAGA GACTATTGCA 
    CTGCTGGAAG CTTATGACAA AGATGAGAAA TTCCAGAAGA ACTTGTTGGA ATGCATGGAG 
    ACTGTCAAGA ATCTTTACCA AGAATGGGGC CGAACAAACT ACATTAACCT GGGATCCTTC 
    CTCATCAAAC CAGTGCAGAG GATTATGCGT TACCCTCTGC TCCTCATGGA GCTTCTTGGC 
    GCAACCCCTG ATTCCCACCC TGACAAAGCC CCTTTGAGAG AAGCAGTGCA GTCAGTGAAG 
    GATATCAATG GCAATATCAA TGAGTACAAG CGCAGGAAGG ACTTGGTTCT AAAATACCGC 
    AAAGGTGATG AGAATAGTTT GATTGACAAA ATCTCCAAGC TTAATATTCA CTCAATCATT 
    AAGAAGTCCA ATCGGGTCAG CAGTCATATC AAACAACTCA CAGGATTTGC ACCGCAGATC 
    AAGGATGAAG CATTTGAGGA GACTGAGAAA AACTTCAGAA TGCAGGAACG GCTAATCAAA 
    AGCTTCATTC GGGATCTCTC TGTGTATCTG CAGCATGTCA GGGAATCTGC CTGTGTGAAA 
    GTGCTGGCCG CTATGAGTAT GTGGGATCTG TATTCAGACA AAGGAACCAG TGATCTGGAG 
    AAGTTCCACA AAGCCCATCG TTATATCAGC GAGAAGCTTT TCACTGATTT TAAACAAAGA 
    ACAGAAAAGT TGGTCATTTC ACCCCTGAAT CAGCTTCTTA ATATGTTTGC CGGGCCACAT 
    AAACTGGTAC AGAAGCGCTT TGACAAACTG CTGGACTTTC ACAATTGCAC TGAGCGAGCA 
    GAGAAGCTGA AGGACAAGAA GACGCAGGAA GAGCTCCAGT CTGCCAGGAA TAACTATGAA 
    GCGCTAAACG CTCAGCTCCT GGATGAGCTG CCGAAATTCC ACAACTTTGC CAAGGAACTT 
    TTTGCCAGTT GCATGCGGGG CTATGCCAGT GCACACTGTG AGTTTGTGAA GCTGGCTTTG 
    GAGGAGCTGA AACCACTATT AACGCTGCTG GGAGTTGGAG CCACAGAAGG GAACCTGATT 
    GCTGTTTTCC AGGAGGAGCA CAGCAAGGTC CTGCAGCAAC TTCAGGTCTT TACCTTTTTC 
    CCAGAAAACC TTCCACCTTC CAAGAAACCT TTCGAGCGAA AGACCATTGA GCGGCAGTCA 
    GCAAGAAAAA CCATCCCAAG CCCGGCTAAG TACATCCCAC AGCTAGATGA ACACCGGGTT 
    GCAGTTCTGG CCAGGTACCC ACCCGAGAAA CTCTTCCAAG CAGATCGGAT CTATAATGCT 
    GCTCAGGATT TGGATGTTTC TTTACAGGAA GGGGATCTTG TTGGGGTCAT TAAACAGCAA 
    GATCCAATGG GTAGTCAGAA CCGCTGGCTC ATTGACAATG GGGTCACCAA AGGTTTTGTC 
    TACTGCTCAT TCCTGAAGCC CTACAACCCT CGGCAGAGTC ATTCTGATGC GTCTGTTGGG 
    AGCCAGTCTT CTACAGAATC GGGGTACGGA GGTTCCTCAC CCAACTTTTC AAGGCAGAAT 
    AGCAACAACA CCCTGACATT TAACCCAGGC AATTCAACAG TGGCCTTCAC CGCAGGATCC 
    ATTGCAAAAC ACAGCATGGA TTCCACATCC ACGAGCAGTG GTCAGGAGGA CTCTCCAGTC 
    TGTCTGCCTG ATGGAAATCT CTCCAAAAAG TCAAGTGAAA CAGAGGTGCC CAGACACCCA 
    CGGACCAGTG AGAAGGTGGC AAAAACTAGT ACAGACCCTG AATCAAATAA TCACAGGAGG 
    CAGACAGAAA ATGAAAATAG CGTTGGAGAC AAAGAACAGA CGTTTGAAAG CCGTAAAGCA 
    ATTAGAAAGA AAACCGCTTC CCCTGCTCAT AGCGACTGTG AACAAGATGT GTGTGAACTA 
    GAAGGGAACC AAGTGTATTA TGCAGTATAT ACATTTAAAT CCCGCTCTCC AAATGAACTT 
    TCAGTGTCAG CCAATCAAAG AGTTAATATC CTGGAGTTCA GAGACATGAA TGGCAATGGA 
    GAGTGGTGGT TGGCAGAAGT GGAAGGAAGG CGGGGCTACG TGCCATCCAA CTACATCCGT 
    AAAACAGAAT ATACGTGA

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

    dnmbp ( XM_004915871.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004915928.1 Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa12723
    Clone ID Related Accession (Same CDS sequence) XM_004915871.3 , XM_004915871.4
    Accession Version XM_004915871.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4638bp)
    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 dynamin-binding protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.1) 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_004915871.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGAGGTGG GATCGGTGGT CCGAGCGATA TTTGATTTCT GCCCCAGTGT TTCTGAGGAA 
    CTAACACTGT TTGCTGGGGA TGTCATTGAA GTTCTAACTG TAATAGATGA GTTCTGGCTT 
    CTGGGCACCA AAGAAGGAAT CACTGGCCAG TTTCCCGTGA GCTTTGTAGA AGAACTGTCC 
    ATCCCGAGTC TCAAGCATGG AGAGAAGCTC TATGTCTGCA CCAGTGAATT TACCTCCCAT 
    GAACCAGGAG CGCTGTGCTT GCAAAGAGGC GATCTACTGG TTCTGGAGGG AACATTGACA 
    TCCAGTTGGT TACAAGGACG CAGTTGTTGG GGGTCCAAAG GATTTTTCCC ATTATCATGT 
    GTACAGGAAT TCTGTCTGTC ATCCAGGAGC CGCCAGCTTT GTCAGAACTC TAATCTTGAG 
    CTCCCAAGTT ATGCTATAGG CCAGGCAAGA GCCATTTTGG GACTTTCTGC TCAGCTGGAA 
    GAGGAGCTGG ATTTTAGAGA AGGAGATATT ATTACAATCA CTGGAGTGCC AGAGTCTGGA 
    TGGTTTGAGG GTGAATTGAA TGGGCGAAGA GGAATCTTTC CAGAAGGCTT TGTAGAATTG 
    CTGAACCCTT TGAGGGTTTC TGATGTTAGA ATTATACATA GTACCTATGA TGACTTTAAA 
    CATGACAAGC TAGCAGAAGT AGCCCAGTTC CCTGTACGTG GAAAATGCAA CAAGGAAAAC 
    CACCGGGAGA CTGAAGATCA AGATGGCACT TTTGCAGTTG CTCTCTATAA ATTTGAGGCT 
    ATGGAACAGA GAGAGCTTGA CTTTGAAGTA GGTGATAGGA TTAGAATAAT TAAGACATTA 
    GAAGATGGCT GGCTTGAAGG GGAGTTGTAT GGAAAGAGGG GTATTTTTCC TCACAGATTT 
    GTCAAATTGG AGAGCCCAGA AAAAAACTCA TTTTACAAGA CACCAGAAGG AACCAAAAAC 
    AGCAACACCT CACGTGATCT TGACTTCTCT TTTACAGACA ACCACAGTGG TTCTGATCCC 
    CATTACTGGG ATGTTCACAT GGAAGATACC TCAAGTGTCT CAACTGCTGA ATCTCAGGTT 
    CAAATAGCAG ATAATGACAT TTCTGTAAAT GAATATGAAA CTATACGTAG CAAATCTCCT 
    AAGCCACAGC TACCTCCTCG TCCGCAGAGT AAGGTATATA GCAGCCCTGC AAATCTTGTT 
    CAAGATGCTA ACAAAGGTAA ATTAATTACT GCACAGTTGC CTAACAGTGG ACAGGGATCT 
    AATGGTTCAC ATGAGAAGTG GTCTTCCAAA AGGACTGTCT CTTTAATCTC ACCCGATGAG 
    GCAGTGCATT CTCAAAAGAG TTCAGATGAG GTCAAGAACA GAAATAACAG AAAAAGTAGC 
    CTTCAGTACC AGGATATAGC GCTTTGGGTA GAGGATCAGC GCCACAAATC TAAGATGCAA 
    TCTAACTCCA AAAATAAGCA GGAAGGTCCT TCTACATATT CATGGTCTTC ACATGCAGAG 
    AGGCCACAAA GTGGAACACG TAGTGTAAAC AGTGGAAGTG AATTAATTGA CCTAGACTCT 
    AAATTATCTG AGCAACTTTC TCAGTTTGAA AAAAGCCTAT CCAGCCCTAC AGCAAATGGC 
    AACAAGCATG TGTCAAGGCA TTTTTCAATA CTGGATTATA GTTCTGAAAC AGACATTATT 
    AGAGGCTCAT CTCAGCTCTC CAAAATCCAA AAATCACCAG AAAAAAGAAA AATATTAAGA 
    CCCCCACCCC CTCGGCCAAC CCTTAGATAT AATTCAGTTT CAAATCCATC AGTTAGAGGT 
    AGGCCACAAA AAAGTGCAGA TACACAGAGC ACATATCCTC CTTTCCCACT CAAACCATCC 
    AGGCCAGCTC CACTGCCTCC ACCAGGCAAC CAAAGAAATA CACCATCTCC TAAACCATTA 
    CCACGAGTGA GCCAACAATC TGAGAACTTA ACTGCACCAG AAAACCATGA CACTTCTTTG 
    GAAGAGCAAT GTGACAAAGC CCGTGCCTCA CCATGCCCAT TCCTGCAACT GAAGATTGAC 
    GATGTGGAAA GAGAGTTGGA TGTGTACAGA AAGACTCGTG AAGAGTTGGC CTTAATGCTT 
    GAAGAAGAGC AGGATGAACT TGTGAGGACA GAAACACTTG AAAACTTGGA ATTTTGTGAC 
    TCAAACATAG AAGGTCTACA AGCAGAACTT CAGCACCTTA AAGACATGAC CTTGCTTTCG 
    TCTCAGCCAG AAGGTGCAGA ACAGACTCTA TCCACTGGAT CTACCACAGA GAACTCAGAA 
    CAGAGAATGC TGGAGAAGAG ATCCAAGGTG ATTGAGGAGC TGTTACAGAC GGAGCAAGAT 
    TACCTGAGGG ACCTGGAGAC ATGTGTGGAG CACATCATGG GACCCTTACA GGCAAAGCAG 
    ATGGCCAGTG TGGATTTTGA TGTTCTCTTT GGAAACATCC AAAGTGTGAT TGACATTTCT 
    AAGAAATTCC TAACAGCTCT TGGAAGTTCT GACTCTGTTG GGACAGTTTT CCTTGACCAT 
    GCCTCCGACC TAGAGAACGT CTACAAAGAG TATTGCCAGA ATCATGAAGA GACTATTGCA 
    CTGCTGGAAG CTTATGACAA AGATGAGAAA TTCCAGAAGA ACTTGTTGGA ATGCATGGAG 
    ACTGTCAAGA ATCTTTACCA AGAATGGGGC CGAACAAACT ACATTAACCT GGGATCCTTC 
    CTCATCAAAC CAGTGCAGAG GATTATGCGT TACCCTCTGC TCCTCATGGA GCTTCTTGGC 
    GCAACCCCTG ATTCCCACCC TGACAAAGCC CCTTTGAGAG AAGCAGTGCA GTCAGTGAAG 
    GATATCAATG GCAATATCAA TGAGTACAAG CGCAGGAAGG ACTTGGTTCT AAAATACCGC 
    AAAGGTGATG AGAATAGTTT GATTGACAAA ATCTCCAAGC TTAATATTCA CTCAATCATT 
    AAGAAGTCCA ATCGGGTCAG CAGTCATATC AAACAACTCA CAGGATTTGC ACCGCAGATC 
    AAGGATGAAG CATTTGAGGA GACTGAGAAA AACTTCAGAA TGCAGGAACG GCTAATCAAA 
    AGCTTCATTC GGGATCTCTC TGTGTATCTG CAGCATGTCA GGGAATCTGC CTGTGTGAAA 
    GTGCTGGCCG CTATGAGTAT GTGGGATCTG TATTCAGACA AAGGAACCAG TGATCTGGAG 
    AAGTTCCACA AAGCCCATCG TTATATCAGC GAGAAGCTTT TCACTGATTT TAAACAAAGA 
    ACAGAAAAGT TGGTCATTTC ACCCCTGAAT CAGCTTCTTA ATATGTTTGC CGGGCCACAT 
    AAACTGGTAC AGAAGCGCTT TGACAAACTG CTGGACTTTC ACAATTGCAC TGAGCGAGCA 
    GAGAAGCTGA AGGACAAGAA GACGCAGGAA GAGCTCCAGT CTGCCAGGAA TAACTATGAA 
    GCGCTAAACG CTCAGCTCCT GGATGAGCTG CCGAAATTCC ACAACTTTGC CAAGGAACTT 
    TTTGCCAGTT GCATGCGGGG CTATGCCAGT GCACACTGTG AGTTTGTGAA GCTGGCTTTG 
    GAGGAGCTGA AACCACTATT AACGCTGCTG GGAGTTGGAG CCACAGAAGG GAACCTGATT 
    GCTGTTTTCC AGGAGGAGCA CAGCAAGGTC CTGCAGCAAC TTCAGGTCTT TACCTTTTTC 
    CCAGAAAACC TTCCACCTTC CAAGAAACCT TTCGAGCGAA AGACCATTGA GCGGCAGTCA 
    GCAAGAAAAA CCATCCCAAG CCCGGCTAAG TACATCCCAC AGCTAGATGA ACACCGGGTT 
    GCAGTTCTGG CCAGGTACCC ACCCGAGAAA CTCTTCCAAG CAGATCGGAT CTATAATGCT 
    GCTCAGGATT TGGATGTTTC TTTACAGGAA GGGGATCTTG TTGGGGTCAT TAAACAGCAA 
    GATCCAATGG GTAGTCAGAA CCGCTGGCTC ATTGACAATG GGGTCACCAA AGGTTTTGTC 
    TACTGCTCAT TCCTGAAGCC CTACAACCCT CGGCAGAGTC ATTCTGATGC GTCTGTTGGG 
    AGCCAGTCTT CTACAGAATC GGGGTACGGA GGTTCCTCAC CCAACTTTTC AAGGCAGAAT 
    AGCAACAACA CCCTGACATT TAACCCAGGC AATTCAACAG TGGCCTTCAC CGCAGGATCC 
    ATTGCAAAAC ACAGCATGGA TTCCACATCC ACGAGCAGTG GTCAGGAGGA CTCTCCAGTC 
    TGTCTGCCTG ATGGAAATCT CTCCAAAAAG TCAAGTGAAA CAGAGGTGCC CAGACACCCA 
    CGGACCAGTG AGAAGGTGGC AAAAACTAGT ACAGACCCTG AATCAAATAA TCACAGGAGG 
    CAGACAGAAA ATGAAAATAG CGTTGGAGAC AAAGAACAGA CGTTTGAAAG CCGTAAAGCA 
    ATTAGAAAGA AAACCGCTTC CCCTGCTCAT AGCGACTGTG AACAAGATGT GTGTGAACTA 
    GAAGGGAACC AAGTGTATTA TGCAGTATAT ACATTTAAAT CCCGCTCTCC AAATGAACTT 
    TCAGTGTCAG CCAATCAAAG AGTTAATATC CTGGAGTTCA GAGACATGAA TGGCAATGGA 
    GAGTGGTGGT TGGCAGAAGT GGAAGGAAGG CGGGGCTACG TGCCATCCAA CTACATCCGT 
    AAAACAGAAT ATACGTGA

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

    RefSeq XP_004915928.1
    CDS111..4748
    Translation

    Target ORF information:

    RefSeq Version XM_004915871.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dynamin binding protein (dnmbp), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004915871.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGAGGTGG GATCGGTGGT CCGAGCGATA TTTGATTTCT GCCCCAGTGT TTCTGAGGAA 
    CTAACACTGT TTGCTGGGGA TGTCATTGAA GTTCTAACTG TAATAGATGA GTTCTGGCTT 
    CTGGGCACCA AAGAAGGAAT CACTGGCCAG TTTCCCGTGA GCTTTGTAGA AGAACTGTCC 
    ATCCCGAGTC TCAAGCATGG AGAGAAGCTC TATGTCTGCA CCAGTGAATT TACCTCCCAT 
    GAACCAGGAG CGCTGTGCTT GCAAAGAGGC GATCTACTGG TTCTGGAGGG AACATTGACA 
    TCCAGTTGGT TACAAGGACG CAGTTGTTGG GGGTCCAAAG GATTTTTCCC ATTATCATGT 
    GTACAGGAAT TCTGTCTGTC ATCCAGGAGC CGCCAGCTTT GTCAGAACTC TAATCTTGAG 
    CTCCCAAGTT ATGCTATAGG CCAGGCAAGA GCCATTTTGG GACTTTCTGC TCAGCTGGAA 
    GAGGAGCTGG ATTTTAGAGA AGGAGATATT ATTACAATCA CTGGAGTGCC AGAGTCTGGA 
    TGGTTTGAGG GTGAATTGAA TGGGCGAAGA GGAATCTTTC CAGAAGGCTT TGTAGAATTG 
    CTGAACCCTT TGAGGGTTTC TGATGTTAGA ATTATACATA GTACCTATGA TGACTTTAAA 
    CATGACAAGC TAGCAGAAGT AGCCCAGTTC CCTGTACGTG GAAAATGCAA CAAGGAAAAC 
    CACCGGGAGA CTGAAGATCA AGATGGCACT TTTGCAGTTG CTCTCTATAA ATTTGAGGCT 
    ATGGAACAGA GAGAGCTTGA CTTTGAAGTA GGTGATAGGA TTAGAATAAT TAAGACATTA 
    GAAGATGGCT GGCTTGAAGG GGAGTTGTAT GGAAAGAGGG GTATTTTTCC TCACAGATTT 
    GTCAAATTGG AGAGCCCAGA AAAAAACTCA TTTTACAAGA CACCAGAAGG AACCAAAAAC 
    AGCAACACCT CACGTGATCT TGACTTCTCT TTTACAGACA ACCACAGTGG TTCTGATCCC 
    CATTACTGGG ATGTTCACAT GGAAGATACC TCAAGTGTCT CAACTGCTGA ATCTCAGGTT 
    CAAATAGCAG ATAATGACAT TTCTGTAAAT GAATATGAAA CTATACGTAG CAAATCTCCT 
    AAGCCACAGC TACCTCCTCG TCCGCAGAGT AAGGTATATA GCAGCCCTGC AAATCTTGTT 
    CAAGATGCTA ACAAAGGTAA ATTAATTACT GCACAGTTGC CTAACAGTGG ACAGGGATCT 
    AATGGTTCAC ATGAGAAGTG GTCTTCCAAA AGGACTGTCT CTTTAATCTC ACCCGATGAG 
    GCAGTGCATT CTCAAAAGAG TTCAGATGAG GTCAAGAACA GAAATAACAG AAAAAGTAGC 
    CTTCAGTACC AGGATATAGC GCTTTGGGTA GAGGATCAGC GCCACAAATC TAAGATGCAA 
    TCTAACTCCA AAAATAAGCA GGAAGGTCCT TCTACATATT CATGGTCTTC ACATGCAGAG 
    AGGCCACAAA GTGGAACACG TAGTGTAAAC AGTGGAAGTG AATTAATTGA CCTAGACTCT 
    AAATTATCTG AGCAACTTTC TCAGTTTGAA AAAAGCCTAT CCAGCCCTAC AGCAAATGGC 
    AACAAGCATG TGTCAAGGCA TTTTTCAATA CTGGATTATA GTTCTGAAAC AGACATTATT 
    AGAGGCTCAT CTCAGCTCTC CAAAATCCAA AAATCACCAG AAAAAAGAAA AATATTAAGA 
    CCCCCACCCC CTCGGCCAAC CCTTAGATAT AATTCAGTTT CAAATCCATC AGTTAGAGGT 
    AGGCCACAAA AAAGTGCAGA TACACAGAGC ACATATCCTC CTTTCCCACT CAAACCATCC 
    AGGCCAGCTC CACTGCCTCC ACCAGGCAAC CAAAGAAATA CACCATCTCC TAAACCATTA 
    CCACGAGTGA GCCAACAATC TGAGAACTTA ACTGCACCAG AAAACCATGA CACTTCTTTG 
    GAAGAGCAAT GTGACAAAGC CCGTGCCTCA CCATGCCCAT TCCTGCAACT GAAGATTGAC 
    GATGTGGAAA GAGAGTTGGA TGTGTACAGA AAGACTCGTG AAGAGTTGGC CTTAATGCTT 
    GAAGAAGAGC AGGATGAACT TGTGAGGACA GAAACACTTG AAAACTTGGA ATTTTGTGAC 
    TCAAACATAG AAGGTCTACA AGCAGAACTT CAGCACCTTA AAGACATGAC CTTGCTTTCG 
    TCTCAGCCAG AAGGTGCAGA ACAGACTCTA TCCACTGGAT CTACCACAGA GAACTCAGAA 
    CAGAGAATGC TGGAGAAGAG ATCCAAGGTG ATTGAGGAGC TGTTACAGAC GGAGCAAGAT 
    TACCTGAGGG ACCTGGAGAC ATGTGTGGAG CACATCATGG GACCCTTACA GGCAAAGCAG 
    ATGGCCAGTG TGGATTTTGA TGTTCTCTTT GGAAACATCC AAAGTGTGAT TGACATTTCT 
    AAGAAATTCC TAACAGCTCT TGGAAGTTCT GACTCTGTTG GGACAGTTTT CCTTGACCAT 
    GCCTCCGACC TAGAGAACGT CTACAAAGAG TATTGCCAGA ATCATGAAGA GACTATTGCA 
    CTGCTGGAAG CTTATGACAA AGATGAGAAA TTCCAGAAGA ACTTGTTGGA ATGCATGGAG 
    ACTGTCAAGA ATCTTTACCA AGAATGGGGC CGAACAAACT ACATTAACCT GGGATCCTTC 
    CTCATCAAAC CAGTGCAGAG GATTATGCGT TACCCTCTGC TCCTCATGGA GCTTCTTGGC 
    GCAACCCCTG ATTCCCACCC TGACAAAGCC CCTTTGAGAG AAGCAGTGCA GTCAGTGAAG 
    GATATCAATG GCAATATCAA TGAGTACAAG CGCAGGAAGG ACTTGGTTCT AAAATACCGC 
    AAAGGTGATG AGAATAGTTT GATTGACAAA ATCTCCAAGC TTAATATTCA CTCAATCATT 
    AAGAAGTCCA ATCGGGTCAG CAGTCATATC AAACAACTCA CAGGATTTGC ACCGCAGATC 
    AAGGATGAAG CATTTGAGGA GACTGAGAAA AACTTCAGAA TGCAGGAACG GCTAATCAAA 
    AGCTTCATTC GGGATCTCTC TGTGTATCTG CAGCATGTCA GGGAATCTGC CTGTGTGAAA 
    GTGCTGGCCG CTATGAGTAT GTGGGATCTG TATTCAGACA AAGGAACCAG TGATCTGGAG 
    AAGTTCCACA AAGCCCATCG TTATATCAGC GAGAAGCTTT TCACTGATTT TAAACAAAGA 
    ACAGAAAAGT TGGTCATTTC ACCCCTGAAT CAGCTTCTTA ATATGTTTGC CGGGCCACAT 
    AAACTGGTAC AGAAGCGCTT TGACAAACTG CTGGACTTTC ACAATTGCAC TGAGCGAGCA 
    GAGAAGCTGA AGGACAAGAA GACGCAGGAA GAGCTCCAGT CTGCCAGGAA TAACTATGAA 
    GCGCTAAACG CTCAGCTCCT GGATGAGCTG CCGAAATTCC ACAACTTTGC CAAGGAACTT 
    TTTGCCAGTT GCATGCGGGG CTATGCCAGT GCACACTGTG AGTTTGTGAA GCTGGCTTTG 
    GAGGAGCTGA AACCACTATT AACGCTGCTG GGAGTTGGAG CCACAGAAGG GAACCTGATT 
    GCTGTTTTCC AGGAGGAGCA CAGCAAGGTC CTGCAGCAAC TTCAGGTCTT TACCTTTTTC 
    CCAGAAAACC TTCCACCTTC CAAGAAACCT TTCGAGCGAA AGACCATTGA GCGGCAGTCA 
    GCAAGAAAAA CCATCCCAAG CCCGGCTAAG TACATCCCAC AGCTAGATGA ACACCGGGTT 
    GCAGTTCTGG CCAGGTACCC ACCCGAGAAA CTCTTCCAAG CAGATCGGAT CTATAATGCT 
    GCTCAGGATT TGGATGTTTC TTTACAGGAA GGGGATCTTG TTGGGGTCAT TAAACAGCAA 
    GATCCAATGG GTAGTCAGAA CCGCTGGCTC ATTGACAATG GGGTCACCAA AGGTTTTGTC 
    TACTGCTCAT TCCTGAAGCC CTACAACCCT CGGCAGAGTC ATTCTGATGC GTCTGTTGGG 
    AGCCAGTCTT CTACAGAATC GGGGTACGGA GGTTCCTCAC CCAACTTTTC AAGGCAGAAT 
    AGCAACAACA CCCTGACATT TAACCCAGGC AATTCAACAG TGGCCTTCAC CGCAGGATCC 
    ATTGCAAAAC ACAGCATGGA TTCCACATCC ACGAGCAGTG GTCAGGAGGA CTCTCCAGTC 
    TGTCTGCCTG ATGGAAATCT CTCCAAAAAG TCAAGTGAAA CAGAGGTGCC CAGACACCCA 
    CGGACCAGTG AGAAGGTGGC AAAAACTAGT ACAGACCCTG AATCAAATAA TCACAGGAGG 
    CAGACAGAAA ATGAAAATAG CGTTGGAGAC AAAGAACAGA CGTTTGAAAG CCGTAAAGCA 
    ATTAGAAAGA AAACCGCTTC CCCTGCTCAT AGCGACTGTG AACAAGATGT GTGTGAACTA 
    GAAGGGAACC AAGTGTATTA TGCAGTATAT ACATTTAAAT CCCGCTCTCC AAATGAACTT 
    TCAGTGTCAG CCAATCAAAG AGTTAATATC CTGGAGTTCA GAGACATGAA TGGCAATGGA 
    GAGTGGTGGT TGGCAGAAGT GGAAGGAAGG CGGGGCTACG TGCCATCCAA CTACATCCGT 
    AAAACAGAAT ATACGTGA

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

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