ORF » Species Summary » Anolis carolinensis » tbc1d4 cDNA ORF clone

tbc1d4 cDNA ORF clone, Anolis carolinensis(green anole)

The following tbc1d4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tbc1d4 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
OAn31182 XM_008106891.2
Latest version!		 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAn31183 XM_008106892.2
Latest version!		 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAn31184 XM_008106893.2
Latest version!		 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAn31185 XM_008106894.2
Latest version!		 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAn31186 XM_008106895.2
Latest version!		 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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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)
    tbc1d4 ( XM_008106891.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008105098.1 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAn31182
    Clone ID Related Accession (Same CDS sequence) XM_008106891.2
    Accession Version XM_008106891.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
    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 2016-05-30
    Organism Anolis carolinensis(green anole)
    Product TBC1 domain family member 4 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014778.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008106891.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGCAGAATGC TTCCAACAAC 
    ACAATTCCTG AAAATGCAGC TAGTGGTGGC AGATTCAAAC TTGACATTCT GAAAAACAAG 
    GCCAAGAAAT CTTTGACTAG TTCTCTTGAA AACATCTTCT CAAGGGGAGC AAACAGAATG 
    CGCGGCCGTC TGGGGAGCAT GGACAGTTTT GAAAGGTGCA ACAACCTCAC TTCTGACAAA 
    GACTGTTCCT CTGGGGAGTC CCCTCCTCTG ACCCCTCCTG CGTCGCCCAT ATCGTCCGCC 
    TGGCAGCCCT TCCCTGAGGA GGATTCTGAT TCACCCCAGT TCCGACGGCG GGCCCACACC 
    TTCAGCCACC CGCCCTCCAG CTCAAAGAAG AGGATCACTT TCCAAGAAGG GAGGTCCCAA 
    AGTGTCAAGT CTCCCCTCCT GAGGCAGAAT TCTGTGGAAC ATGGCAGGCC AGCAATTTCC 
    CGACGTACTT ACAGTGAGAG TGAATCATCT ACATCATCCA GTCTCCCTTC TTCCTTCTCT 
    GCCCCATCTT TCCTGAAAAG CTTTTACCAG AGCTCAGGAA AGCCATCTCC ACAGTCCGAA 
    AATGAACTCT CCAAGAGTGA TGGAGAAAGA AGAAAAAGGA CCTCCTCTGT ATGCAGTAAT 
    GACTCTCTGA ATGCTGGAGG AATCACTCTT ACTCCTCGCC GAATTTCCTG GCGGCAGAGG 
    ATCTTCCTAA GGGTTGCATC GCCCATAAAG AAATCTCCCT CAGCAATGCA ACTTCAAGAT 
    GGGATGGATG GAAATGAATT GTTACCACTA TCTCCTCTGG CGCCATGCTT TGATGAAGAC 
    CCTCTCATTT CAATATTGCA AAATGATGAC GGCCAAGAAA AGTCCGGGGA GAAAAAGAAC 
    TCTGAAGAGT TGCAGAGTCT GTGGAGAAAA GCCATCCATC AGCAGATACT GCTTCTTCGG 
    ATGGAAAAGG AGAACCAGAA ATTGGAAGCA AGCAGAGATG AGCTCCAATC CAGAAAAGTT 
    AAGATGGACT ATGAGGAAGT TGGGACTTGT CAGAAAGATG TGATCAATAT CTGGGATAAG 
    AAACTATCGA ACTTCAGAGC CAAAATCAAA TGTGACATGG AAGATATTCA TGCAACTTTG 
    AAAGATGGTG TACCAAAAGG TCGCCGAGGT GAAATTTGGC AATTTCTTGC TGTGCAGCAT 
    CGAGTAAGAC ATCGTCTGCC AAATAAGCAG CAACCCCCTG ACATCTCTTA CAAAGAACTT 
    CTCAAACAAC TGACAGTTCA ACAACATGCT ATCCTTGTAG ATCTAGGAAG GACCTTCCCA 
    ACTCACCCCT ACTTTTCTGC TCAGTTAGGA GCCGGGCAAC TGTCACTCTT CAACCTCCTG 
    AAAGCGTACT CCTTGCTGGA CAAGGAGGTG GGTTACTGCC AAGGTATCAG CTTTGTGGCT 
    GGAGTGCTGC TTCTCCACAT GAGCGAAGAG CAAGCCTTTG AAATGCTCAA ATTTCTCATG 
    TACGACCTTG GCTTCCGGAA GCAGTATCGG CCTGACATGA TGTCACTACA AATCCAGATG 
    TACCAGCTGT CAAGACTACT TCATGACTAC CACAGAGACC TCTATAACCA TCTGGAGGAG 
    AATGAAATCA GCCCCAGCCT TTATGCTGCA CCTTGGTTCC TTACTTTATT TGCTTCACAG 
    TTTCCATTGG GTTTTGTTGC CAGAGTGTTT GATATTATTT TTCTTCAGGG AACAGAAGTC 
    ATATTTAAAG TGGCACTAAG TCTGCTTAGT AGCCATGAGG AACCTATCAT GATGTGTGAG 
    ACTTTTGAAA GCATTGTTGA GTTTCTTAAA AATACTCTCC CAGACATGTC AAAGCCCCAG 
    ATGGAGAAGA TTATGACACA GGTATTTGAG ATGGATATTT CCAAACAGCT TCACGCCTAC 
    GAGGTGGAGT ACCATGTCCT GCAGGATGAA CTACAAGAAA ACACAAATCC ATGTGACGAG 
    GGGGAGGTAC CAGAGAAACT TGAAAGGGCA AACAATCAGC TGAAGAGACA GAATATGGAC 
    CTCCTGGAAA AACTACAGGT GGCTCATGCT AAAATCCAGA GTATGGAATC ACACCTGGAA 
    GATGCTTTGG CAAGAGAGAA CAAAATGAAG AGTTTGATCC AGTCACTGGA AAAAGAGAAG 
    GCATTCTATC AGATGACTGT TGAGAAACTG TGTAGATATT TGCCTGATGA AGCACTCTCT 
    GACTGCAGGC AACTGCTAAA GGAGGTGAAC TGTAGCCCAA GCAAAATCCT GAAATAA

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

    RefSeq XP_008105098.1
    CDS179..4015
    Translation

    Target ORF information:

    RefSeq Version XM_008106891.2
    Organism Anolis carolinensis(green anole)
    Definition Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008106891.2

    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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGCAGAATGC TTCCAACAAC 
    ACAATTCCTG AAAATGCAGC TAGTGGTGGC AGATTCAAAC TTGACATTCT GAAAAACAAG 
    GCCAAGAAAT CTTTGACTAG TTCTCTTGAA AACATCTTCT CAAGGGGAGC AAACAGAATG 
    CGCGGCCGTC TGGGGAGCAT GGACAGTTTT GAAAGGTGCA ACAACCTCAC TTCTGACAAA 
    GACTGTTCCT CTGGGGAGTC CCCTCCTCTG ACCCCTCCTG CGTCGCCCAT ATCGTCCGCC 
    TGGCAGCCCT TCCCTGAGGA GGATTCTGAT TCACCCCAGT TCCGACGGCG GGCCCACACC 
    TTCAGCCACC CGCCCTCCAG CTCAAAGAAG AGGATCACTT TCCAAGAAGG GAGGTCCCAA 
    AGTGTCAAGT CTCCCCTCCT GAGGCAGAAT TCTGTGGAAC ATGGCAGGCC AGCAATTTCC 
    CGACGTACTT ACAGTGAGAG TGAATCATCT ACATCATCCA GTCTCCCTTC TTCCTTCTCT 
    GCCCCATCTT TCCTGAAAAG CTTTTACCAG AGCTCAGGAA AGCCATCTCC ACAGTCCGAA 
    AATGAACTCT CCAAGAGTGA TGGAGAAAGA AGAAAAAGGA CCTCCTCTGT ATGCAGTAAT 
    GACTCTCTGA ATGCTGGAGG AATCACTCTT ACTCCTCGCC GAATTTCCTG GCGGCAGAGG 
    ATCTTCCTAA GGGTTGCATC GCCCATAAAG AAATCTCCCT CAGCAATGCA ACTTCAAGAT 
    GGGATGGATG GAAATGAATT GTTACCACTA TCTCCTCTGG CGCCATGCTT TGATGAAGAC 
    CCTCTCATTT CAATATTGCA AAATGATGAC GGCCAAGAAA AGTCCGGGGA GAAAAAGAAC 
    TCTGAAGAGT TGCAGAGTCT GTGGAGAAAA GCCATCCATC AGCAGATACT GCTTCTTCGG 
    ATGGAAAAGG AGAACCAGAA ATTGGAAGCA AGCAGAGATG AGCTCCAATC CAGAAAAGTT 
    AAGATGGACT ATGAGGAAGT TGGGACTTGT CAGAAAGATG TGATCAATAT CTGGGATAAG 
    AAACTATCGA ACTTCAGAGC CAAAATCAAA TGTGACATGG AAGATATTCA TGCAACTTTG 
    AAAGATGGTG TACCAAAAGG TCGCCGAGGT GAAATTTGGC AATTTCTTGC TGTGCAGCAT 
    CGAGTAAGAC ATCGTCTGCC AAATAAGCAG CAACCCCCTG ACATCTCTTA CAAAGAACTT 
    CTCAAACAAC TGACAGTTCA ACAACATGCT ATCCTTGTAG ATCTAGGAAG GACCTTCCCA 
    ACTCACCCCT ACTTTTCTGC TCAGTTAGGA GCCGGGCAAC TGTCACTCTT CAACCTCCTG 
    AAAGCGTACT CCTTGCTGGA CAAGGAGGTG GGTTACTGCC AAGGTATCAG CTTTGTGGCT 
    GGAGTGCTGC TTCTCCACAT GAGCGAAGAG CAAGCCTTTG AAATGCTCAA ATTTCTCATG 
    TACGACCTTG GCTTCCGGAA GCAGTATCGG CCTGACATGA TGTCACTACA AATCCAGATG 
    TACCAGCTGT CAAGACTACT TCATGACTAC CACAGAGACC TCTATAACCA TCTGGAGGAG 
    AATGAAATCA GCCCCAGCCT TTATGCTGCA CCTTGGTTCC TTACTTTATT TGCTTCACAG 
    TTTCCATTGG GTTTTGTTGC CAGAGTGTTT GATATTATTT TTCTTCAGGG AACAGAAGTC 
    ATATTTAAAG TGGCACTAAG TCTGCTTAGT AGCCATGAGG AACCTATCAT GATGTGTGAG 
    ACTTTTGAAA GCATTGTTGA GTTTCTTAAA AATACTCTCC CAGACATGTC AAAGCCCCAG 
    ATGGAGAAGA TTATGACACA GGTATTTGAG ATGGATATTT CCAAACAGCT TCACGCCTAC 
    GAGGTGGAGT ACCATGTCCT GCAGGATGAA CTACAAGAAA ACACAAATCC ATGTGACGAG 
    GGGGAGGTAC CAGAGAAACT TGAAAGGGCA AACAATCAGC TGAAGAGACA GAATATGGAC 
    CTCCTGGAAA AACTACAGGT GGCTCATGCT AAAATCCAGA GTATGGAATC ACACCTGGAA 
    GATGCTTTGG CAAGAGAGAA CAAAATGAAG AGTTTGATCC AGTCACTGGA AAAAGAGAAG 
    GCATTCTATC AGATGACTGT TGAGAAACTG TGTAGATATT TGCCTGATGA AGCACTCTCT 
    GACTGCAGGC AACTGCTAAA GGAGGTGAAC TGTAGCCCAA GCAAAATCCT GAAATAA

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

    tbc1d4 ( XM_008106892.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008105099.1 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAn31183
    Clone ID Related Accession (Same CDS sequence) XM_008106892.2
    Accession Version XM_008106892.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3834bp)
    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 2016-05-30
    Organism Anolis carolinensis(green anole)
    Product TBC1 domain family member 4 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014778.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008106892.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGAATGCTTC CAACAACACA 
    ATTCCTGAAA ATGCAGCTAG TGGTGGCAGA TTCAAACTTG ACATTCTGAA AAACAAGGCC 
    AAGAAATCTT TGACTAGTTC TCTTGAAAAC ATCTTCTCAA GGGGAGCAAA CAGAATGCGC 
    GGCCGTCTGG GGAGCATGGA CAGTTTTGAA AGGTGCAACA ACCTCACTTC TGACAAAGAC 
    TGTTCCTCTG GGGAGTCCCC TCCTCTGACC CCTCCTGCGT CGCCCATATC GTCCGCCTGG 
    CAGCCCTTCC CTGAGGAGGA TTCTGATTCA CCCCAGTTCC GACGGCGGGC CCACACCTTC 
    AGCCACCCGC CCTCCAGCTC AAAGAAGAGG ATCACTTTCC AAGAAGGGAG GTCCCAAAGT 
    GTCAAGTCTC CCCTCCTGAG GCAGAATTCT GTGGAACATG GCAGGCCAGC AATTTCCCGA 
    CGTACTTACA GTGAGAGTGA ATCATCTACA TCATCCAGTC TCCCTTCTTC CTTCTCTGCC 
    CCATCTTTCC TGAAAAGCTT TTACCAGAGC TCAGGAAAGC CATCTCCACA GTCCGAAAAT 
    GAACTCTCCA AGAGTGATGG AGAAAGAAGA AAAAGGACCT CCTCTGTATG CAGTAATGAC 
    TCTCTGAATG CTGGAGGAAT CACTCTTACT CCTCGCCGAA TTTCCTGGCG GCAGAGGATC 
    TTCCTAAGGG TTGCATCGCC CATAAAGAAA TCTCCCTCAG CAATGCAACT TCAAGATGGG 
    ATGGATGGAA ATGAATTGTT ACCACTATCT CCTCTGGCGC CATGCTTTGA TGAAGACCCT 
    CTCATTTCAA TATTGCAAAA TGATGACGGC CAAGAAAAGT CCGGGGAGAA AAAGAACTCT 
    GAAGAGTTGC AGAGTCTGTG GAGAAAAGCC ATCCATCAGC AGATACTGCT TCTTCGGATG 
    GAAAAGGAGA ACCAGAAATT GGAAGCAAGC AGAGATGAGC TCCAATCCAG AAAAGTTAAG 
    ATGGACTATG AGGAAGTTGG GACTTGTCAG AAAGATGTGA TCAATATCTG GGATAAGAAA 
    CTATCGAACT TCAGAGCCAA AATCAAATGT GACATGGAAG ATATTCATGC AACTTTGAAA 
    GATGGTGTAC CAAAAGGTCG CCGAGGTGAA ATTTGGCAAT TTCTTGCTGT GCAGCATCGA 
    GTAAGACATC GTCTGCCAAA TAAGCAGCAA CCCCCTGACA TCTCTTACAA AGAACTTCTC 
    AAACAACTGA CAGTTCAACA ACATGCTATC CTTGTAGATC TAGGAAGGAC CTTCCCAACT 
    CACCCCTACT TTTCTGCTCA GTTAGGAGCC GGGCAACTGT CACTCTTCAA CCTCCTGAAA 
    GCGTACTCCT TGCTGGACAA GGAGGTGGGT TACTGCCAAG GTATCAGCTT TGTGGCTGGA 
    GTGCTGCTTC TCCACATGAG CGAAGAGCAA GCCTTTGAAA TGCTCAAATT TCTCATGTAC 
    GACCTTGGCT TCCGGAAGCA GTATCGGCCT GACATGATGT CACTACAAAT CCAGATGTAC 
    CAGCTGTCAA GACTACTTCA TGACTACCAC AGAGACCTCT ATAACCATCT GGAGGAGAAT 
    GAAATCAGCC CCAGCCTTTA TGCTGCACCT TGGTTCCTTA CTTTATTTGC TTCACAGTTT 
    CCATTGGGTT TTGTTGCCAG AGTGTTTGAT ATTATTTTTC TTCAGGGAAC AGAAGTCATA 
    TTTAAAGTGG CACTAAGTCT GCTTAGTAGC CATGAGGAAC CTATCATGAT GTGTGAGACT 
    TTTGAAAGCA TTGTTGAGTT TCTTAAAAAT ACTCTCCCAG ACATGTCAAA GCCCCAGATG 
    GAGAAGATTA TGACACAGGT ATTTGAGATG GATATTTCCA AACAGCTTCA CGCCTACGAG 
    GTGGAGTACC ATGTCCTGCA GGATGAACTA CAAGAAAACA CAAATCCATG TGACGAGGGG 
    GAGGTACCAG AGAAACTTGA AAGGGCAAAC AATCAGCTGA AGAGACAGAA TATGGACCTC 
    CTGGAAAAAC TACAGGTGGC TCATGCTAAA ATCCAGAGTA TGGAATCACA CCTGGAAGAT 
    GCTTTGGCAA GAGAGAACAA AATGAAGAGT TTGATCCAGT CACTGGAAAA AGAGAAGGCA 
    TTCTATCAGA TGACTGTTGA GAAACTGTGT AGATATTTGC CTGATGAAGC ACTCTCTGAC 
    TGCAGGCAAC TGCTAAAGGA GGTGAACTGT AGCCCAAGCA AAATCCTGAA ATAA

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

    RefSeq XP_008105099.1
    CDS179..4012
    Translation

    Target ORF information:

    RefSeq Version XM_008106892.2
    Organism Anolis carolinensis(green anole)
    Definition Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008106892.2

    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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGAATGCTTC CAACAACACA 
    ATTCCTGAAA ATGCAGCTAG TGGTGGCAGA TTCAAACTTG ACATTCTGAA AAACAAGGCC 
    AAGAAATCTT TGACTAGTTC TCTTGAAAAC ATCTTCTCAA GGGGAGCAAA CAGAATGCGC 
    GGCCGTCTGG GGAGCATGGA CAGTTTTGAA AGGTGCAACA ACCTCACTTC TGACAAAGAC 
    TGTTCCTCTG GGGAGTCCCC TCCTCTGACC CCTCCTGCGT CGCCCATATC GTCCGCCTGG 
    CAGCCCTTCC CTGAGGAGGA TTCTGATTCA CCCCAGTTCC GACGGCGGGC CCACACCTTC 
    AGCCACCCGC CCTCCAGCTC AAAGAAGAGG ATCACTTTCC AAGAAGGGAG GTCCCAAAGT 
    GTCAAGTCTC CCCTCCTGAG GCAGAATTCT GTGGAACATG GCAGGCCAGC AATTTCCCGA 
    CGTACTTACA GTGAGAGTGA ATCATCTACA TCATCCAGTC TCCCTTCTTC CTTCTCTGCC 
    CCATCTTTCC TGAAAAGCTT TTACCAGAGC TCAGGAAAGC CATCTCCACA GTCCGAAAAT 
    GAACTCTCCA AGAGTGATGG AGAAAGAAGA AAAAGGACCT CCTCTGTATG CAGTAATGAC 
    TCTCTGAATG CTGGAGGAAT CACTCTTACT CCTCGCCGAA TTTCCTGGCG GCAGAGGATC 
    TTCCTAAGGG TTGCATCGCC CATAAAGAAA TCTCCCTCAG CAATGCAACT TCAAGATGGG 
    ATGGATGGAA ATGAATTGTT ACCACTATCT CCTCTGGCGC CATGCTTTGA TGAAGACCCT 
    CTCATTTCAA TATTGCAAAA TGATGACGGC CAAGAAAAGT CCGGGGAGAA AAAGAACTCT 
    GAAGAGTTGC AGAGTCTGTG GAGAAAAGCC ATCCATCAGC AGATACTGCT TCTTCGGATG 
    GAAAAGGAGA ACCAGAAATT GGAAGCAAGC AGAGATGAGC TCCAATCCAG AAAAGTTAAG 
    ATGGACTATG AGGAAGTTGG GACTTGTCAG AAAGATGTGA TCAATATCTG GGATAAGAAA 
    CTATCGAACT TCAGAGCCAA AATCAAATGT GACATGGAAG ATATTCATGC AACTTTGAAA 
    GATGGTGTAC CAAAAGGTCG CCGAGGTGAA ATTTGGCAAT TTCTTGCTGT GCAGCATCGA 
    GTAAGACATC GTCTGCCAAA TAAGCAGCAA CCCCCTGACA TCTCTTACAA AGAACTTCTC 
    AAACAACTGA CAGTTCAACA ACATGCTATC CTTGTAGATC TAGGAAGGAC CTTCCCAACT 
    CACCCCTACT TTTCTGCTCA GTTAGGAGCC GGGCAACTGT CACTCTTCAA CCTCCTGAAA 
    GCGTACTCCT TGCTGGACAA GGAGGTGGGT TACTGCCAAG GTATCAGCTT TGTGGCTGGA 
    GTGCTGCTTC TCCACATGAG CGAAGAGCAA GCCTTTGAAA TGCTCAAATT TCTCATGTAC 
    GACCTTGGCT TCCGGAAGCA GTATCGGCCT GACATGATGT CACTACAAAT CCAGATGTAC 
    CAGCTGTCAA GACTACTTCA TGACTACCAC AGAGACCTCT ATAACCATCT GGAGGAGAAT 
    GAAATCAGCC CCAGCCTTTA TGCTGCACCT TGGTTCCTTA CTTTATTTGC TTCACAGTTT 
    CCATTGGGTT TTGTTGCCAG AGTGTTTGAT ATTATTTTTC TTCAGGGAAC AGAAGTCATA 
    TTTAAAGTGG CACTAAGTCT GCTTAGTAGC CATGAGGAAC CTATCATGAT GTGTGAGACT 
    TTTGAAAGCA TTGTTGAGTT TCTTAAAAAT ACTCTCCCAG ACATGTCAAA GCCCCAGATG 
    GAGAAGATTA TGACACAGGT ATTTGAGATG GATATTTCCA AACAGCTTCA CGCCTACGAG 
    GTGGAGTACC ATGTCCTGCA GGATGAACTA CAAGAAAACA CAAATCCATG TGACGAGGGG 
    GAGGTACCAG AGAAACTTGA AAGGGCAAAC AATCAGCTGA AGAGACAGAA TATGGACCTC 
    CTGGAAAAAC TACAGGTGGC TCATGCTAAA ATCCAGAGTA TGGAATCACA CCTGGAAGAT 
    GCTTTGGCAA GAGAGAACAA AATGAAGAGT TTGATCCAGT CACTGGAAAA AGAGAAGGCA 
    TTCTATCAGA TGACTGTTGA GAAACTGTGT AGATATTTGC CTGATGAAGC ACTCTCTGAC 
    TGCAGGCAAC TGCTAAAGGA GGTGAACTGT AGCCCAAGCA AAATCCTGAA ATAA

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

    tbc1d4 ( XM_008106893.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008105100.1 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAn31184
    Clone ID Related Accession (Same CDS sequence) XM_008106893.2
    Accession Version XM_008106893.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3687bp)
    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 2016-05-30
    Organism Anolis carolinensis(green anole)
    Product TBC1 domain family member 4 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014778.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008106893.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGCAGAATGC TTCCAACAAC 
    ACAATTCCTG AAAATGCAGC TAGTGGTGGC AGATTCAAAC TTGACATTCT GAAAAACAAG 
    GCCAAGAAAT CTTTGACTAG TTCTCTTGAA AACATCTTCT CAAGGGGAGC AAACAGAATG 
    CGCGGCCGTC TGGGGAGCAT GGACAGTTTT GAAAGGTGCA ACAACCTCAC TTCTGACAAA 
    GACTGTTCCT CTGGGGAGTC CCCTCCTCTG ACCCCTCCTG CGTCGCCCAT ATCGTCCGCC 
    TGGCAGCCCT TCCCTGAGGA GGATTCTGAT TCACCCCAGT TCCGACGGCG GGCCCACACC 
    TTCAGCCACC CGCCCTCCAG CTCAAAGAAG AGGATCACTT TCCAAGAAGG GAGGTCCCAA 
    AGTGTCAAGT CTCCCCTCCT GAGGCAGAAT TCTGTGGAAC ATGGCAGTGA TGGAGAAAGA 
    AGAAAAAGGA CCTCCTCTGT ATGCAGTAAT GACTCTCTGA ATGCTGGAGG AATCACTCTT 
    ACTCCTCGCC GAATTTCCTG GCGGCAGAGG ATCTTCCTAA GGGTTGCATC GCCCATAAAG 
    AAATCTCCCT CAGCAATGCA ACTTCAAGAT GGGATGGATG GAAATGAATT GTTACCACTA 
    TCTCCTCTGG CGCCATGCTT TGATGAAGAC CCTCTCATTT CAATATTGCA AAATGATGAC 
    GGCCAAGAAA AGTCCGGGGA GAAAAAGAAC TCTGAAGAGT TGCAGAGTCT GTGGAGAAAA 
    GCCATCCATC AGCAGATACT GCTTCTTCGG ATGGAAAAGG AGAACCAGAA ATTGGAAGCA 
    AGCAGAGATG AGCTCCAATC CAGAAAAGTT AAGATGGACT ATGAGGAAGT TGGGACTTGT 
    CAGAAAGATG TGATCAATAT CTGGGATAAG AAACTATCGA ACTTCAGAGC CAAAATCAAA 
    TGTGACATGG AAGATATTCA TGCAACTTTG AAAGATGGTG TACCAAAAGG TCGCCGAGGT 
    GAAATTTGGC AATTTCTTGC TGTGCAGCAT CGAGTAAGAC ATCGTCTGCC AAATAAGCAG 
    CAACCCCCTG ACATCTCTTA CAAAGAACTT CTCAAACAAC TGACAGTTCA ACAACATGCT 
    ATCCTTGTAG ATCTAGGAAG GACCTTCCCA ACTCACCCCT ACTTTTCTGC TCAGTTAGGA 
    GCCGGGCAAC TGTCACTCTT CAACCTCCTG AAAGCGTACT CCTTGCTGGA CAAGGAGGTG 
    GGTTACTGCC AAGGTATCAG CTTTGTGGCT GGAGTGCTGC TTCTCCACAT GAGCGAAGAG 
    CAAGCCTTTG AAATGCTCAA ATTTCTCATG TACGACCTTG GCTTCCGGAA GCAGTATCGG 
    CCTGACATGA TGTCACTACA AATCCAGATG TACCAGCTGT CAAGACTACT TCATGACTAC 
    CACAGAGACC TCTATAACCA TCTGGAGGAG AATGAAATCA GCCCCAGCCT TTATGCTGCA 
    CCTTGGTTCC TTACTTTATT TGCTTCACAG TTTCCATTGG GTTTTGTTGC CAGAGTGTTT 
    GATATTATTT TTCTTCAGGG AACAGAAGTC ATATTTAAAG TGGCACTAAG TCTGCTTAGT 
    AGCCATGAGG AACCTATCAT GATGTGTGAG ACTTTTGAAA GCATTGTTGA GTTTCTTAAA 
    AATACTCTCC CAGACATGTC AAAGCCCCAG ATGGAGAAGA TTATGACACA GGTATTTGAG 
    ATGGATATTT CCAAACAGCT TCACGCCTAC GAGGTGGAGT ACCATGTCCT GCAGGATGAA 
    CTACAAGAAA ACACAAATCC ATGTGACGAG GGGGAGGTAC CAGAGAAACT TGAAAGGGCA 
    AACAATCAGC TGAAGAGACA GAATATGGAC CTCCTGGAAA AACTACAGGT GGCTCATGCT 
    AAAATCCAGA GTATGGAATC ACACCTGGAA GATGCTTTGG CAAGAGAGAA CAAAATGAAG 
    AGTTTGATCC AGTCACTGGA AAAAGAGAAG GCATTCTATC AGATGACTGT TGAGAAACTG 
    TGTAGATATT TGCCTGATGA AGCACTCTCT GACTGCAGGC AACTGCTAAA GGAGGTGAAC 
    TGTAGCCCAA GCAAAATCCT GAAATAA

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

    RefSeq XP_008105100.1
    CDS178..3864
    Translation

    Target ORF information:

    RefSeq Version XM_008106893.2
    Organism Anolis carolinensis(green anole)
    Definition Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008106893.2

    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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGCAGAATGC TTCCAACAAC 
    ACAATTCCTG AAAATGCAGC TAGTGGTGGC AGATTCAAAC TTGACATTCT GAAAAACAAG 
    GCCAAGAAAT CTTTGACTAG TTCTCTTGAA AACATCTTCT CAAGGGGAGC AAACAGAATG 
    CGCGGCCGTC TGGGGAGCAT GGACAGTTTT GAAAGGTGCA ACAACCTCAC TTCTGACAAA 
    GACTGTTCCT CTGGGGAGTC CCCTCCTCTG ACCCCTCCTG CGTCGCCCAT ATCGTCCGCC 
    TGGCAGCCCT TCCCTGAGGA GGATTCTGAT TCACCCCAGT TCCGACGGCG GGCCCACACC 
    TTCAGCCACC CGCCCTCCAG CTCAAAGAAG AGGATCACTT TCCAAGAAGG GAGGTCCCAA 
    AGTGTCAAGT CTCCCCTCCT GAGGCAGAAT TCTGTGGAAC ATGGCAGTGA TGGAGAAAGA 
    AGAAAAAGGA CCTCCTCTGT ATGCAGTAAT GACTCTCTGA ATGCTGGAGG AATCACTCTT 
    ACTCCTCGCC GAATTTCCTG GCGGCAGAGG ATCTTCCTAA GGGTTGCATC GCCCATAAAG 
    AAATCTCCCT CAGCAATGCA ACTTCAAGAT GGGATGGATG GAAATGAATT GTTACCACTA 
    TCTCCTCTGG CGCCATGCTT TGATGAAGAC CCTCTCATTT CAATATTGCA AAATGATGAC 
    GGCCAAGAAA AGTCCGGGGA GAAAAAGAAC TCTGAAGAGT TGCAGAGTCT GTGGAGAAAA 
    GCCATCCATC AGCAGATACT GCTTCTTCGG ATGGAAAAGG AGAACCAGAA ATTGGAAGCA 
    AGCAGAGATG AGCTCCAATC CAGAAAAGTT AAGATGGACT ATGAGGAAGT TGGGACTTGT 
    CAGAAAGATG TGATCAATAT CTGGGATAAG AAACTATCGA ACTTCAGAGC CAAAATCAAA 
    TGTGACATGG AAGATATTCA TGCAACTTTG AAAGATGGTG TACCAAAAGG TCGCCGAGGT 
    GAAATTTGGC AATTTCTTGC TGTGCAGCAT CGAGTAAGAC ATCGTCTGCC AAATAAGCAG 
    CAACCCCCTG ACATCTCTTA CAAAGAACTT CTCAAACAAC TGACAGTTCA ACAACATGCT 
    ATCCTTGTAG ATCTAGGAAG GACCTTCCCA ACTCACCCCT ACTTTTCTGC TCAGTTAGGA 
    GCCGGGCAAC TGTCACTCTT CAACCTCCTG AAAGCGTACT CCTTGCTGGA CAAGGAGGTG 
    GGTTACTGCC AAGGTATCAG CTTTGTGGCT GGAGTGCTGC TTCTCCACAT GAGCGAAGAG 
    CAAGCCTTTG AAATGCTCAA ATTTCTCATG TACGACCTTG GCTTCCGGAA GCAGTATCGG 
    CCTGACATGA TGTCACTACA AATCCAGATG TACCAGCTGT CAAGACTACT TCATGACTAC 
    CACAGAGACC TCTATAACCA TCTGGAGGAG AATGAAATCA GCCCCAGCCT TTATGCTGCA 
    CCTTGGTTCC TTACTTTATT TGCTTCACAG TTTCCATTGG GTTTTGTTGC CAGAGTGTTT 
    GATATTATTT TTCTTCAGGG AACAGAAGTC ATATTTAAAG TGGCACTAAG TCTGCTTAGT 
    AGCCATGAGG AACCTATCAT GATGTGTGAG ACTTTTGAAA GCATTGTTGA GTTTCTTAAA 
    AATACTCTCC CAGACATGTC AAAGCCCCAG ATGGAGAAGA TTATGACACA GGTATTTGAG 
    ATGGATATTT CCAAACAGCT TCACGCCTAC GAGGTGGAGT ACCATGTCCT GCAGGATGAA 
    CTACAAGAAA ACACAAATCC ATGTGACGAG GGGGAGGTAC CAGAGAAACT TGAAAGGGCA 
    AACAATCAGC TGAAGAGACA GAATATGGAC CTCCTGGAAA AACTACAGGT GGCTCATGCT 
    AAAATCCAGA GTATGGAATC ACACCTGGAA GATGCTTTGG CAAGAGAGAA CAAAATGAAG 
    AGTTTGATCC AGTCACTGGA AAAAGAGAAG GCATTCTATC AGATGACTGT TGAGAAACTG 
    TGTAGATATT TGCCTGATGA AGCACTCTCT GACTGCAGGC AACTGCTAAA GGAGGTGAAC 
    TGTAGCCCAA GCAAAATCCT GAAATAA

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

    tbc1d4 ( XM_008106894.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008105101.1 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAn31185
    Clone ID Related Accession (Same CDS sequence) XM_008106894.2
    Accession Version XM_008106894.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
    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 2016-05-30
    Organism Anolis carolinensis(green anole)
    Product TBC1 domain family member 4 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014778.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008106894.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGAATGCTTC CAACAACACA 
    ATTCCTGAAA ATGCAGCTAG TGGTGGCAGA TTCAAACTTG ACATTCTGAA AAACAAGGCC 
    AAGAAATCTT TGACTAGTTC TCTTGAAAAC ATCTTCTCAA GGGGAGCAAA CAGAATGCGC 
    GGCCGTCTGG GGAGCATGGA CAGTTTTGAA AGGTGCAACA ACCTCACTTC TGACAAAGAC 
    TGTTCCTCTG GGGAGTCCCC TCCTCTGACC CCTCCTGCGT CGCCCATATC GTCCGCCTGG 
    CAGCCCTTCC CTGAGGAGGA TTCTGATTCA CCCCAGTTCC GACGGCGGGC CCACACCTTC 
    AGCCACCCGC CCTCCAGCTC AAAGAAGAGG ATCACTTTCC AAGAAGGGAG GTCCCAAAGT 
    GTCAAGTCTC CCCTCCTGAG GCAGAATTCT GTGGAACATG GCAGTGATGG AGAAAGAAGA 
    AAAAGGACCT CCTCTGTATG CAGTAATGAC TCTCTGAATG CTGGAGGAAT CACTCTTACT 
    CCTCGCCGAA TTTCCTGGCG GCAGAGGATC TTCCTAAGGG TTGCATCGCC CATAAAGAAA 
    TCTCCCTCAG CAATGCAACT TCAAGATGGG ATGGATGGAA ATGAATTGTT ACCACTATCT 
    CCTCTGGCGC CATGCTTTGA TGAAGACCCT CTCATTTCAA TATTGCAAAA TGATGACGGC 
    CAAGAAAAGT CCGGGGAGAA AAAGAACTCT GAAGAGTTGC AGAGTCTGTG GAGAAAAGCC 
    ATCCATCAGC AGATACTGCT TCTTCGGATG GAAAAGGAGA ACCAGAAATT GGAAGCAAGC 
    AGAGATGAGC TCCAATCCAG AAAAGTTAAG ATGGACTATG AGGAAGTTGG GACTTGTCAG 
    AAAGATGTGA TCAATATCTG GGATAAGAAA CTATCGAACT TCAGAGCCAA AATCAAATGT 
    GACATGGAAG ATATTCATGC AACTTTGAAA GATGGTGTAC CAAAAGGTCG CCGAGGTGAA 
    ATTTGGCAAT TTCTTGCTGT GCAGCATCGA GTAAGACATC GTCTGCCAAA TAAGCAGCAA 
    CCCCCTGACA TCTCTTACAA AGAACTTCTC AAACAACTGA CAGTTCAACA ACATGCTATC 
    CTTGTAGATC TAGGAAGGAC CTTCCCAACT CACCCCTACT TTTCTGCTCA GTTAGGAGCC 
    GGGCAACTGT CACTCTTCAA CCTCCTGAAA GCGTACTCCT TGCTGGACAA GGAGGTGGGT 
    TACTGCCAAG GTATCAGCTT TGTGGCTGGA GTGCTGCTTC TCCACATGAG CGAAGAGCAA 
    GCCTTTGAAA TGCTCAAATT TCTCATGTAC GACCTTGGCT TCCGGAAGCA GTATCGGCCT 
    GACATGATGT CACTACAAAT CCAGATGTAC CAGCTGTCAA GACTACTTCA TGACTACCAC 
    AGAGACCTCT ATAACCATCT GGAGGAGAAT GAAATCAGCC CCAGCCTTTA TGCTGCACCT 
    TGGTTCCTTA CTTTATTTGC TTCACAGTTT CCATTGGGTT TTGTTGCCAG AGTGTTTGAT 
    ATTATTTTTC TTCAGGGAAC AGAAGTCATA TTTAAAGTGG CACTAAGTCT GCTTAGTAGC 
    CATGAGGAAC CTATCATGAT GTGTGAGACT TTTGAAAGCA TTGTTGAGTT TCTTAAAAAT 
    ACTCTCCCAG ACATGTCAAA GCCCCAGATG GAGAAGATTA TGACACAGGT ATTTGAGATG 
    GATATTTCCA AACAGCTTCA CGCCTACGAG GTGGAGTACC ATGTCCTGCA GGATGAACTA 
    CAAGAAAACA CAAATCCATG TGACGAGGGG GAGGTACCAG AGAAACTTGA AAGGGCAAAC 
    AATCAGCTGA AGAGACAGAA TATGGACCTC CTGGAAAAAC TACAGGTGGC TCATGCTAAA 
    ATCCAGAGTA TGGAATCACA CCTGGAAGAT GCTTTGGCAA GAGAGAACAA AATGAAGAGT 
    TTGATCCAGT CACTGGAAAA AGAGAAGGCA TTCTATCAGA TGACTGTTGA GAAACTGTGT 
    AGATATTTGC CTGATGAAGC ACTCTCTGAC TGCAGGCAAC TGCTAAAGGA GGTGAACTGT 
    AGCCCAAGCA AAATCCTGAA ATAA

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

    RefSeq XP_008105101.1
    CDS178..3861
    Translation

    Target ORF information:

    RefSeq Version XM_008106894.2
    Organism Anolis carolinensis(green anole)
    Definition Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008106894.2

    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
    ATGGAGAAGC CGCAGCCCCG CGCGGAGCCC TTCTCGCACC CCTTGGAGGG CTCTCCCCCG 
    CCGCCGCCGC CGCCTCTCCC TCCTCCTCCG GGGGAGAAGC GCTTCAGGCT GTGGTACGTG 
    GGCTGCTCCT GCCTGGACCG CCGCACCACG CTGCCCATGC TGCCCTGGCT GATGGCCGAG 
    ATCCGGCGCC GCAGCCAGAA GCCCGAGCCC AGCGCCGTGC CGCCCCGCGA GGTGCTCCTG 
    CTCCTGGGCT CGCCCACCCT GCGCTGCGTG CCTTCCTCCT CCTCCTCGGC CGCTGCCTCG 
    GCTTCCAACC CGGCCGTCTT CATCTTCGAG CACAAGGCGC AGCACATCGC CCGCTTCGTG 
    CACAACAGCC ACGACCTCAC CTACTTCGCC TACCTGATCA AGGCGCAGCC CGAGGACCCC 
    GACTCACGCA TGGCCTGCCA CGTCTTCAGG GCCGCCGAGC CCGGGCAGGT TCCTGATGTC 
    ATTAGTAGCA TAAGGCAAGC TTCAAAAGCA GCTCTCAAAG AGGATGTCAA GCCCAATAAA 
    GACAGTGAAG ATGCTTTCTA CAACTCCCAA AAATTTGAGG TCCTCTACTG CGGAAAAGTG 
    ACTGTGGCTC ACAAAAAAGC CCCTTCCACT CTGATTGATG ACTGCATTGA GAAGTTCAGT 
    CTGCATGAGC GTCAGCGCCT GAAGCTGCTG AGTGAGCACC GGAATTCAGA ATCCAGCACA 
    GACCTTGCTG GGGGTGATGG GGACATACCG ACATCTCCTT TTGACAGTCC GTTTGAGGAG 
    GAGGAGGAGG CAGATAGCCC AGATGGGGGT AAAACGGGGA TGTTCATAGT GGGAAGCCAG 
    ACCAATCTGG CCAGCCTGGC GAGTTGTCGT GTCTCCTTCC CTGAACGGAT TTTGGAGGAT 
    TCTGGGTTTG ATGACCAGCA GGAGTTTCGC TCCCGGTGCA GCAGCGTCAC AGGTGTTATG 
    CAAAGGAAGA CACACGATAA TTCAAAAACA CAGTCGCGGC GGCGACATGC AAGTGCCCCC 
    AGCCACGTCC AGCCTTCAGA CTCTGAAAAG AACAGGACGA TGCTGTTTCA GGTTGGACGA 
    TTTGAAATTA ATCTTATCAG TCCAGACACT AAATCCGTTG TGTTTGAAAA GAACTTTAAA 
    GATATTTCCT CATGTTCTCA GGGCATAAAA CATATTGATC ATTTTGGTTT CATTTGTCGG 
    GAATCTATTG AAACGGGAAT TAGCCAGTAC GTTTGCTACG TATTCCAGTG TGCAAGTGAG 
    TCTTTGGTTG ATGAGGTCAT GCTCACGTTG AAGCAAGCTT TTAGCACTGC TGCAGCACTA 
    CAGAATGCCA AGACTCAGAT TAAGCTTTGT GAAGCCTGCC CAATGCATTC ATTGCATAAA 
    CTCTGTGAAA GGATTGAAGG GCTTTATCCA CCAAGAGCTA AACTTGTCAT TCAGAGACAT 
    CTGTCATCCC TCAGTGACAA TGAACAAGCG GACATCTTTG AGCGTGTTCA GAAAATGAAA 
    CCTATTAGTG ACCAGGAAGA AAATGAGCTT GTGATTCTAC ATTTGCGACA ACTATGTGAA 
    GCTAAACAAA AGACACATGT TCATATTGGA GAAGCACCAG TGAATGCTTC CAACAACACA 
    ATTCCTGAAA ATGCAGCTAG TGGTGGCAGA TTCAAACTTG ACATTCTGAA AAACAAGGCC 
    AAGAAATCTT TGACTAGTTC TCTTGAAAAC ATCTTCTCAA GGGGAGCAAA CAGAATGCGC 
    GGCCGTCTGG GGAGCATGGA CAGTTTTGAA AGGTGCAACA ACCTCACTTC TGACAAAGAC 
    TGTTCCTCTG GGGAGTCCCC TCCTCTGACC CCTCCTGCGT CGCCCATATC GTCCGCCTGG 
    CAGCCCTTCC CTGAGGAGGA TTCTGATTCA CCCCAGTTCC GACGGCGGGC CCACACCTTC 
    AGCCACCCGC CCTCCAGCTC AAAGAAGAGG ATCACTTTCC AAGAAGGGAG GTCCCAAAGT 
    GTCAAGTCTC CCCTCCTGAG GCAGAATTCT GTGGAACATG GCAGTGATGG AGAAAGAAGA 
    AAAAGGACCT CCTCTGTATG CAGTAATGAC TCTCTGAATG CTGGAGGAAT CACTCTTACT 
    CCTCGCCGAA TTTCCTGGCG GCAGAGGATC TTCCTAAGGG TTGCATCGCC CATAAAGAAA 
    TCTCCCTCAG CAATGCAACT TCAAGATGGG ATGGATGGAA ATGAATTGTT ACCACTATCT 
    CCTCTGGCGC CATGCTTTGA TGAAGACCCT CTCATTTCAA TATTGCAAAA TGATGACGGC 
    CAAGAAAAGT CCGGGGAGAA AAAGAACTCT GAAGAGTTGC AGAGTCTGTG GAGAAAAGCC 
    ATCCATCAGC AGATACTGCT TCTTCGGATG GAAAAGGAGA ACCAGAAATT GGAAGCAAGC 
    AGAGATGAGC TCCAATCCAG AAAAGTTAAG ATGGACTATG AGGAAGTTGG GACTTGTCAG 
    AAAGATGTGA TCAATATCTG GGATAAGAAA CTATCGAACT TCAGAGCCAA AATCAAATGT 
    GACATGGAAG ATATTCATGC AACTTTGAAA GATGGTGTAC CAAAAGGTCG CCGAGGTGAA 
    ATTTGGCAAT TTCTTGCTGT GCAGCATCGA GTAAGACATC GTCTGCCAAA TAAGCAGCAA 
    CCCCCTGACA TCTCTTACAA AGAACTTCTC AAACAACTGA CAGTTCAACA ACATGCTATC 
    CTTGTAGATC TAGGAAGGAC CTTCCCAACT CACCCCTACT TTTCTGCTCA GTTAGGAGCC 
    GGGCAACTGT CACTCTTCAA CCTCCTGAAA GCGTACTCCT TGCTGGACAA GGAGGTGGGT 
    TACTGCCAAG GTATCAGCTT TGTGGCTGGA GTGCTGCTTC TCCACATGAG CGAAGAGCAA 
    GCCTTTGAAA TGCTCAAATT TCTCATGTAC GACCTTGGCT TCCGGAAGCA GTATCGGCCT 
    GACATGATGT CACTACAAAT CCAGATGTAC CAGCTGTCAA GACTACTTCA TGACTACCAC 
    AGAGACCTCT ATAACCATCT GGAGGAGAAT GAAATCAGCC CCAGCCTTTA TGCTGCACCT 
    TGGTTCCTTA CTTTATTTGC TTCACAGTTT CCATTGGGTT TTGTTGCCAG AGTGTTTGAT 
    ATTATTTTTC TTCAGGGAAC AGAAGTCATA TTTAAAGTGG CACTAAGTCT GCTTAGTAGC 
    CATGAGGAAC CTATCATGAT GTGTGAGACT TTTGAAAGCA TTGTTGAGTT TCTTAAAAAT 
    ACTCTCCCAG ACATGTCAAA GCCCCAGATG GAGAAGATTA TGACACAGGT ATTTGAGATG 
    GATATTTCCA AACAGCTTCA CGCCTACGAG GTGGAGTACC ATGTCCTGCA GGATGAACTA 
    CAAGAAAACA CAAATCCATG TGACGAGGGG GAGGTACCAG AGAAACTTGA AAGGGCAAAC 
    AATCAGCTGA AGAGACAGAA TATGGACCTC CTGGAAAAAC TACAGGTGGC TCATGCTAAA 
    ATCCAGAGTA TGGAATCACA CCTGGAAGAT GCTTTGGCAA GAGAGAACAA AATGAAGAGT 
    TTGATCCAGT CACTGGAAAA AGAGAAGGCA TTCTATCAGA TGACTGTTGA GAAACTGTGT 
    AGATATTTGC CTGATGAAGC ACTCTCTGAC TGCAGGCAAC TGCTAAAGGA GGTGAACTGT 
    AGCCCAAGCA AAATCCTGAA ATAA

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

    tbc1d4 ( XM_008106895.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008105102.1 Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAn31186
    Clone ID Related Accession (Same CDS sequence) XM_008106895.2
    Accession Version XM_008106895.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3429bp)
    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 2016-05-30
    Organism Anolis carolinensis(green anole)
    Product TBC1 domain family member 4 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_014778.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008106895.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGGAGGCCT ATGCCATATT TCAGTTTATA GCCAGATTCA GAAGAAGACG TTTGTCTAAA 
    GTTCCTGATG TCATTAGTAG CATAAGGCAA GCTTCAAAAG CAGCTCTCAA AGAGGATGTC 
    AAGCCCAATA AAGACAGTGA AGATGCTTTC TACAACTCCC AAAAATTTGA GGTCCTCTAC 
    TGCGGAAAAG TGACTGTGGC TCACAAAAAA GCCCCTTCCA CTCTGATTGA TGACTGCATT 
    GAGAAGTTCA GTCTGCATGA GCGTCAGCGC CTGAAGCTGC TGAGTGAGCA CCGGAATTCA 
    GAATCCAGCA CAGACCTTGC TGGGGGTGAT GGGGACATAC CGACATCTCC TTTTGACAGT 
    CCGTTTGAGG AGGAGGAGGA GGCAGATAGC CCAGATGGGG GTAAAACGGG GATGTTCATA 
    GTGGGAAGCC AGACCAATCT GGCCAGCCTG GCGAGTTGTC GTGTCTCCTT CCCTGAACGG 
    ATTTTGGAGG ATTCTGGGTT TGATGACCAG CAGGAGTTTC GCTCCCGGTG CAGCAGCGTC 
    ACAGGTGTTA TGCAAAGGAA GACACACGAT AATTCAAAAA CACAGTCGCG GCGGCGACAT 
    GCAAGTGCCC CCAGCCACGT CCAGCCTTCA GACTCTGAAA AGAACAGGAC GATGCTGTTT 
    CAGGTTGGAC GATTTGAAAT TAATCTTATC AGTCCAGACA CTAAATCCGT TGTGTTTGAA 
    AAGAACTTTA AAGATATTTC CTCATGTTCT CAGGGCATAA AACATATTGA TCATTTTGGT 
    TTCATTTGTC GGGAATCTAT TGAAACGGGA ATTAGCCAGT ACGTTTGCTA CGTATTCCAG 
    TGTGCAAGTG AGTCTTTGGT TGATGAGGTC ATGCTCACGT TGAAGCAAGC TTTTAGCACT 
    GCTGCAGCAC TACAGAATGC CAAGACTCAG ATTAAGCTTT GTGAAGCCTG CCCAATGCAT 
    TCATTGCATA AACTCTGTGA AAGGATTGAA GGGCTTTATC CACCAAGAGC TAAACTTGTC 
    ATTCAGAGAC ATCTGTCATC CCTCAGTGAC AATGAACAAG CGGACATCTT TGAGCGTGTT 
    CAGAAAATGA AACCTATTAG TGACCAGGAA GAAAATGAGC TTGTGATTCT ACATTTGCGA 
    CAACTATGTG AAGCTAAACA AAAGACACAT GTTCATATTG GAGAAGCACC AGTGCAGAAT 
    GCTTCCAACA ACACAATTCC TGAAAATGCA GCTAGTGGTG GCAGATTCAA ACTTGACATT 
    CTGAAAAACA AGGCCAAGAA ATCTTTGACT AGTTCTCTTG AAAACATCTT CTCAAGGGGA 
    GCAAACAGAA TGCGCGGCCG TCTGGGGAGC ATGGACAGTT TTGAAAGGTG CAACAACCTC 
    ACTTCTGACA AAGACTGTTC CTCTGGGGAG TCCCCTCCTC TGACCCCTCC TGCGTCGCCC 
    ATATCGTCCG CCTGGCAGCC CTTCCCTGAG GAGGATTCTG ATTCACCCCA GTTCCGACGG 
    CGGGCCCACA CCTTCAGCCA CCCGCCCTCC AGCTCAAAGA AGAGGATCAC TTTCCAAGAA 
    GGGAGGTCCC AAAGTGTCAA GTCTCCCCTC CTGAGGCAGA ATTCTGTGGA ACATGGCAGG 
    CCAGCAATTT CCCGACGTAC TTACAGTGAG AGTGAATCAT CTACATCATC CAGTCTCCCT 
    TCTTCCTTCT CTGCCCCATC TTTCCTGAAA AGCTTTTACC AGAGCTCAGG AAAGCCATCT 
    CCACAGTCCG AAAATGAACT CTCCAAGAGT GATGGAGAAA GAAGAAAAAG GACCTCCTCT 
    GTATGCAGTA ATGACTCTCT GAATGCTGGA GGAATCACTC TTACTCCTCG CCGAATTTCC 
    TGGCGGCAGA GGATCTTCCT AAGGGTTGCA TCGCCCATAA AGAAATCTCC CTCAGCAATG 
    CAACTTCAAG ATGGGATGGA TGGAAATGAA TTGTTACCAC TATCTCCTCT GGCGCCATGC 
    TTTGATGAAG ACCCTCTCAT TTCAATATTG CAAAATGATG ACGGCCAAGA AAAGTCCGGG 
    GAGAAAAAGA ACTCTGAAGA GTTGCAGAGT CTGTGGAGAA AAGCCATCCA TCAGCAGATA 
    CTGCTTCTTC GGATGGAAAA GGAGAACCAG AAATTGGAAG CAAGCAGAGA TGAGCTCCAA 
    TCCAGAAAAG TTAAGATGGA CTATGAGGAA GTTGGGACTT GTCAGAAAGA TGTGATCAAT 
    ATCTGGGATA AGAAACTATC GAACTTCAGA GCCAAAATCA AATGTGACAT GGAAGATATT 
    CATGCAACTT TGAAAGATGG TGTACCAAAA GGTCGCCGAG GTGAAATTTG GCAATTTCTT 
    GCTGTGCAGC ATCGAGTAAG ACATCGTCTG CCAAATAAGC AGCAACCCCC TGACATCTCT 
    TACAAAGAAC TTCTCAAACA ACTGACAGTT CAACAACATG CTATCCTTGT AGATCTAGGA 
    AGGACCTTCC CAACTCACCC CTACTTTTCT GCTCAGTTAG GAGCCGGGCA ACTGTCACTC 
    TTCAACCTCC TGAAAGCGTA CTCCTTGCTG GACAAGGAGG TGGGTTACTG CCAAGGTATC 
    AGCTTTGTGG CTGGAGTGCT GCTTCTCCAC ATGAGCGAAG AGCAAGCCTT TGAAATGCTC 
    AAATTTCTCA TGTACGACCT TGGCTTCCGG AAGCAGTATC GGCCTGACAT GATGTCACTA 
    CAAATCCAGA TGTACCAGCT GTCAAGACTA CTTCATGACT ACCACAGAGA CCTCTATAAC 
    CATCTGGAGG AGAATGAAAT CAGCCCCAGC CTTTATGCTG CACCTTGGTT CCTTACTTTA 
    TTTGCTTCAC AGTTTCCATT GGGTTTTGTT GCCAGAGTGT TTGATATTAT TTTTCTTCAG 
    GGAACAGAAG TCATATTTAA AGTGGCACTA AGTCTGCTTA GTAGCCATGA GGAACCTATC 
    ATGATGTGTG AGACTTTTGA AAGCATTGTT GAGTTTCTTA AAAATACTCT CCCAGACATG 
    TCAAAGCCCC AGATGGAGAA GATTATGACA CAGGTATTTG AGATGGATAT TTCCAAACAG 
    CTTCACGCCT ACGAGGTGGA GTACCATGTC CTGCAGGATG AACTACAAGA AAACACAAAT 
    CCATGTGACG AGGGGGAGGT ACCAGAGAAA CTTGAAAGGG CAAACAATCA GCTGAAGAGA 
    CAGAATATGG ACCTCCTGGA AAAACTACAG GTGGCTCATG CTAAAATCCA GAGTATGGAA 
    TCACACCTGG AAGATGCTTT GGCAAGAGAG AACAAAATGA AGAGTTTGAT CCAGTCACTG 
    GAAAAAGAGA AGGCATTCTA TCAGATGACT GTTGAGAAAC TGTGTAGATA TTTGCCTGAT 
    GAAGCACTCT CTGACTGCAG GCAACTGCTA AAGGAGGTGA ACTGTAGCCC AAGCAAAATC 
    CTGAAATAA

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

    RefSeq XP_008105102.1
    CDS918..4346
    Translation

    Target ORF information:

    RefSeq Version XM_008106895.2
    Organism Anolis carolinensis(green anole)
    Definition Anolis carolinensis TBC1 domain family member 4 (tbc1d4), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008106895.2

    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
    ATGGAGGCCT ATGCCATATT TCAGTTTATA GCCAGATTCA GAAGAAGACG TTTGTCTAAA 
    GTTCCTGATG TCATTAGTAG CATAAGGCAA GCTTCAAAAG CAGCTCTCAA AGAGGATGTC 
    AAGCCCAATA AAGACAGTGA AGATGCTTTC TACAACTCCC AAAAATTTGA GGTCCTCTAC 
    TGCGGAAAAG TGACTGTGGC TCACAAAAAA GCCCCTTCCA CTCTGATTGA TGACTGCATT 
    GAGAAGTTCA GTCTGCATGA GCGTCAGCGC CTGAAGCTGC TGAGTGAGCA CCGGAATTCA 
    GAATCCAGCA CAGACCTTGC TGGGGGTGAT GGGGACATAC CGACATCTCC TTTTGACAGT 
    CCGTTTGAGG AGGAGGAGGA GGCAGATAGC CCAGATGGGG GTAAAACGGG GATGTTCATA 
    GTGGGAAGCC AGACCAATCT GGCCAGCCTG GCGAGTTGTC GTGTCTCCTT CCCTGAACGG 
    ATTTTGGAGG ATTCTGGGTT TGATGACCAG CAGGAGTTTC GCTCCCGGTG CAGCAGCGTC 
    ACAGGTGTTA TGCAAAGGAA GACACACGAT AATTCAAAAA CACAGTCGCG GCGGCGACAT 
    GCAAGTGCCC CCAGCCACGT CCAGCCTTCA GACTCTGAAA AGAACAGGAC GATGCTGTTT 
    CAGGTTGGAC GATTTGAAAT TAATCTTATC AGTCCAGACA CTAAATCCGT TGTGTTTGAA 
    AAGAACTTTA AAGATATTTC CTCATGTTCT CAGGGCATAA AACATATTGA TCATTTTGGT 
    TTCATTTGTC GGGAATCTAT TGAAACGGGA ATTAGCCAGT ACGTTTGCTA CGTATTCCAG 
    TGTGCAAGTG AGTCTTTGGT TGATGAGGTC ATGCTCACGT TGAAGCAAGC TTTTAGCACT 
    GCTGCAGCAC TACAGAATGC CAAGACTCAG ATTAAGCTTT GTGAAGCCTG CCCAATGCAT 
    TCATTGCATA AACTCTGTGA AAGGATTGAA GGGCTTTATC CACCAAGAGC TAAACTTGTC 
    ATTCAGAGAC ATCTGTCATC CCTCAGTGAC AATGAACAAG CGGACATCTT TGAGCGTGTT 
    CAGAAAATGA AACCTATTAG TGACCAGGAA GAAAATGAGC TTGTGATTCT ACATTTGCGA 
    CAACTATGTG AAGCTAAACA AAAGACACAT GTTCATATTG GAGAAGCACC AGTGCAGAAT 
    GCTTCCAACA ACACAATTCC TGAAAATGCA GCTAGTGGTG GCAGATTCAA ACTTGACATT 
    CTGAAAAACA AGGCCAAGAA ATCTTTGACT AGTTCTCTTG AAAACATCTT CTCAAGGGGA 
    GCAAACAGAA TGCGCGGCCG TCTGGGGAGC ATGGACAGTT TTGAAAGGTG CAACAACCTC 
    ACTTCTGACA AAGACTGTTC CTCTGGGGAG TCCCCTCCTC TGACCCCTCC TGCGTCGCCC 
    ATATCGTCCG CCTGGCAGCC CTTCCCTGAG GAGGATTCTG ATTCACCCCA GTTCCGACGG 
    CGGGCCCACA CCTTCAGCCA CCCGCCCTCC AGCTCAAAGA AGAGGATCAC TTTCCAAGAA 
    GGGAGGTCCC AAAGTGTCAA GTCTCCCCTC CTGAGGCAGA ATTCTGTGGA ACATGGCAGG 
    CCAGCAATTT CCCGACGTAC TTACAGTGAG AGTGAATCAT CTACATCATC CAGTCTCCCT 
    TCTTCCTTCT CTGCCCCATC TTTCCTGAAA AGCTTTTACC AGAGCTCAGG AAAGCCATCT 
    CCACAGTCCG AAAATGAACT CTCCAAGAGT GATGGAGAAA GAAGAAAAAG GACCTCCTCT 
    GTATGCAGTA ATGACTCTCT GAATGCTGGA GGAATCACTC TTACTCCTCG CCGAATTTCC 
    TGGCGGCAGA GGATCTTCCT AAGGGTTGCA TCGCCCATAA AGAAATCTCC CTCAGCAATG 
    CAACTTCAAG ATGGGATGGA TGGAAATGAA TTGTTACCAC TATCTCCTCT GGCGCCATGC 
    TTTGATGAAG ACCCTCTCAT TTCAATATTG CAAAATGATG ACGGCCAAGA AAAGTCCGGG 
    GAGAAAAAGA ACTCTGAAGA GTTGCAGAGT CTGTGGAGAA AAGCCATCCA TCAGCAGATA 
    CTGCTTCTTC GGATGGAAAA GGAGAACCAG AAATTGGAAG CAAGCAGAGA TGAGCTCCAA 
    TCCAGAAAAG TTAAGATGGA CTATGAGGAA GTTGGGACTT GTCAGAAAGA TGTGATCAAT 
    ATCTGGGATA AGAAACTATC GAACTTCAGA GCCAAAATCA AATGTGACAT GGAAGATATT 
    CATGCAACTT TGAAAGATGG TGTACCAAAA GGTCGCCGAG GTGAAATTTG GCAATTTCTT 
    GCTGTGCAGC ATCGAGTAAG ACATCGTCTG CCAAATAAGC AGCAACCCCC TGACATCTCT 
    TACAAAGAAC TTCTCAAACA ACTGACAGTT CAACAACATG CTATCCTTGT AGATCTAGGA 
    AGGACCTTCC CAACTCACCC CTACTTTTCT GCTCAGTTAG GAGCCGGGCA ACTGTCACTC 
    TTCAACCTCC TGAAAGCGTA CTCCTTGCTG GACAAGGAGG TGGGTTACTG CCAAGGTATC 
    AGCTTTGTGG CTGGAGTGCT GCTTCTCCAC ATGAGCGAAG AGCAAGCCTT TGAAATGCTC 
    AAATTTCTCA TGTACGACCT TGGCTTCCGG AAGCAGTATC GGCCTGACAT GATGTCACTA 
    CAAATCCAGA TGTACCAGCT GTCAAGACTA CTTCATGACT ACCACAGAGA CCTCTATAAC 
    CATCTGGAGG AGAATGAAAT CAGCCCCAGC CTTTATGCTG CACCTTGGTT CCTTACTTTA 
    TTTGCTTCAC AGTTTCCATT GGGTTTTGTT GCCAGAGTGT TTGATATTAT TTTTCTTCAG 
    GGAACAGAAG TCATATTTAA AGTGGCACTA AGTCTGCTTA GTAGCCATGA GGAACCTATC 
    ATGATGTGTG AGACTTTTGA AAGCATTGTT GAGTTTCTTA AAAATACTCT CCCAGACATG 
    TCAAAGCCCC AGATGGAGAA GATTATGACA CAGGTATTTG AGATGGATAT TTCCAAACAG 
    CTTCACGCCT ACGAGGTGGA GTACCATGTC CTGCAGGATG AACTACAAGA AAACACAAAT 
    CCATGTGACG AGGGGGAGGT ACCAGAGAAA CTTGAAAGGG CAAACAATCA GCTGAAGAGA 
    CAGAATATGG ACCTCCTGGA AAAACTACAG GTGGCTCATG CTAAAATCCA GAGTATGGAA 
    TCACACCTGG AAGATGCTTT GGCAAGAGAG AACAAAATGA AGAGTTTGAT CCAGTCACTG 
    GAAAAAGAGA AGGCATTCTA TCAGATGACT GTTGAGAAAC TGTGTAGATA TTTGCCTGAT 
    GAAGCACTCT CTGACTGCAG GCAACTGCTA AAGGAGGTGA ACTGTAGCCC AAGCAAAATC 
    CTGAAATAA

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

見積依頼

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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