Tbcd cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Tbcd gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tbcd 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
OMv28255 XM_021178456.2
Latest version!
Mus caroli tubulin folding cofactor D (Tbcd), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv67412 XM_029483328.1
Latest version!
Mus caroli tubulin folding cofactor D (Tbcd), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
View Old Accession Versions >>
OMv28255 XM_021178456.1 Mus caroli tubulin folding cofactor D (Tbcd), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OMv28255
    Clone ID Related Accession (Same CDS sequence) XM_021178456.2 , XM_021178456.1
    Accession Version XM_021178456.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product tubulin-specific chaperone D isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021178456.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGTACTGA GCCATGAGCC GGCTGCGAGC GCCGCCGAGG AGGAGGTGGA GGATGATGCG 
    CTTGTCCGCG CCTCCGCCCT GGAAGCGTTC GGCGAGAGTG CGGAGACCCG CGCACTGCTC
    CGCAGCTTGC CGGCGGTGCA CAGAGAGCGC GCGTCCCGGG AGGTGGCGGA GGAGCGGTTC
    CGCGTAATTA TGGACAAATA CCAGGAACAG CCCCACCTCT TGGATCCACA CCTTGAGTGG
    ATGATGAACT CACTGTTGGA CCTAGTACAG GATGAGACAT CTCTGCCCGA CCTTGTCCAT
    CTGGCTTTTA AGTTTCTTTA TATCATCACC AAGGTTCGTG GATATAAAGT GTTTCTGCGT
    CTGTTTCCTC ATGAAGTGGC TAATGTTCAG CCTGTGTTAG ATATGTTCAC AGGTCAGAAC
    CCTAAAGACC ATGAGACGTG GGAAACTCGC TACATGCTTC TACTGTGGCT CTCTGTGACC
    TGCTTGATCC CTTTTGATTT TTCACGCCTT GATGGGAACC TGTCTACTCA AACTGGAGAA
    ACACGCGTAC CCACCATGGA CCGAATTCTG CAAATAGCAG AGTCTTACTT GGTGGTCAGT
    GACAAGGCTC GAGATGCAGC TGCTGTCCTT GTGTCCAAAT TTATTACACG TCCTGACGTC
    AAGCAGAGAA AGATGGCCAG CTTTCTGGAC TGGAGCCTTT GCACCTTGGC CCACTCTTCC
    TTCCAGACCA TTGAGGGTGT CATTACCATG GATGGGATGC TGCAGGCCCT GGCTCAAATA
    TTTAAGCATG GGAAACGTGA AGACTGCCTT CCCTATGCCA ACACTGTGCT CCAGTGCCTC
    GACGGCTGCA GACTCCCCGA GAGCAGTCAC ACCTCACTGC GGAAGCTTGG TGTGAAGCTT
    GTCCAGAGAC TGGGGCTGAC TTTCCTGAAG CCAAAGGTGG CCACGTGGAG GTATCAGCGT
    GGCTGTCGGT CTTTGGCTGC TAACCTGAAG CTCTGTGCCC CGGGTAAGAG TGACCAGAAG
    CTGCTGTCTG ATAGTTTGAC CTCTGATGGT GATGAAGACT ATGATATCCC AGAGGGGGTG
    GAAACTGTGA TAGAGCAGCT ACTGGTTGGG TTGAAGGACA AGGACACTGT GGTGCGGTGG
    TCTGCAGCGA AAGGAATTGG TAGGATGGCT GGAAGGCTTC CCAGAGAGCT GGCTGATGAT
    GTAGTGGGGT CTGTGTTGGA CTGTTTCAGT TTTCAGGAGA CGGATAAGGC ATGGCATGGT
    GGATGTCTGG CATTGGCAGA GCTGGGTAGA CGAGGCCTGT TGCTACCATC CAGACTCTCA
    GAGGTTGTCA CGGTGATCCT GAAGGCCCTT ACCTACGATG AGAAGCGGGG TGCCTGCAGC
    GTTGGGGCCA ATGTCAGGGA TGCTGCCTGT TATGTGTGCT GGGCTTTTGC ACGTGCCTAT
    GAACCTCAGG AGTTGACACC TTTTGTGACT GCCATTTCAA GTGCCCTGGT CATTGCTGCT
    GTATTTGACC GAAATGTGAA CTGCAGAAGA GCAGCCTCTG CTGCCTTCCA GGAGAACGTG
    GGGAGACAGG GTACTTTCCC TCATGGAATT GATATTTTGA CTACAGCAGA CTATTTTGCA
    GTTGGTAACA TATCTAACTG TTTCCTGATT ATAAGTGTGT TTATTGCTGG CTTCCAGGAA
    TACACCAAGC CCATGATTGA TCACCTGGTC TCCATGAAAA TCAACCATTG GGATGGGGCC
    ATCCGAGAAC TGTCTGCAAA GGCACTGCAC AACCTGACTC CACAAGTACC CGAGTACATA
    GCCACACACG TATTCCCTGC ACTACTGTTG ATGACACAGA GTCCAGATCT ACACACGAGA
    CATGGTGCCA TCCTTGCCTG TGCAGAGGTC ACCTATGCCC TGTACAAGCT GGCTGCACAG
    AGTAACAGGC TTGTCACAGA CTATCTGGAT GAGAAGGCAG TGCAAAGCCT GAAGCAGGTC
    CACCAGCAGC TTTGTGATCG TCATCTCTAT AGGGGTCTGG GAGGAGAGCT TATGAGACAA
    GCAGTGTGCA TCTTAGTAGA GAAGCTGTCA CTTTCCAGAA TGCCATTTAA AGGGGACGCC
    GCTATCGAAG GTTGGCAGTG GCTGATAAAT GACACTCTCA GGAGTCTTCA CCTTGTTTCA
    AGCCATTCCA GACAACAGAT CAAGGAGGTG GCTGTCTCTG CCCTGGCTGC CCTCTGCAGT
    GAATACTACG TGAAGGAACC TGGGGAGGCA GACTCCTCCA TCGCGAAGGA GCTGATTCCC
    CAGTACCTTG CTGAGCTCCA GAGCCCAGAG GAGATGGCCC GTTGTGGCTT TTCCTCAGCC
    TTGGGTGCCC TCCCAGGTTT CCTTCTCAGG GGCCATCTGC AGCAGGTTCT CTCAGGTCTG
    AGAAGAGTCA CCTGTATTTC TCCCAGTGAT GTGAGCTTTG CTGAAGCCCG GAGAGATGGT
    TTGAAAGCAA TCTCAAGAAT TTGCCAGACG GTTGGTGTGA ACACACGGGG GCCTCCAGAT
    GAAGTCATAT GCAAAGAGAA CATCTCTGAG GTTTATGCTG CATTGCTGGG CTGCATGAGT
    GATTACACCA CAGACAGCAG AGGGGATGTG GGAGCCTGGG TTCGTGAGGC TGCCATGACC
    AGCCTCATGG ATTTGATGCT TTTGCTGGCA CAGACAGAGC CGGTGCTGAT TGAGGCCCAC
    ATCTGTGAGC GTGTCATGTG TTGCGTTGCC CAGCAGGCAA GTGAGAAGAT TGATCGGTTC
    CGTGCTCATG CTGCTCGGGT GTTCCTGACT CTCTTGCACT TCGATAGCCC TCCCATTCCC
    CATGTTCCCC ACCGCCAAGA ACTGGAAAGG CTGTTTCCCA GGTCTGATGT GGCCACTGTG
    AACTGGAATG CACCTTCCCA GGCCTTCCCT CTCATCACCC AGCTCTTGGG ATTGCCTACC
    TATAGATACC ATGTCCTGCT GGGGCTGGCT GTGTCTGTGG GTGGCTTGAC AGAGTCTACG
    GTCAGACATT CTACACAGAG CCTCTTTGAG TACATGAAGG GAATTCAGAA GGATGCTCGG
    GTCCTGCAGA GCTTCAGTGA GACCCTCCTG AAGGTCTTTG AGGACAACCT CTTGAATGAC
    AGGGTGTCTG TATCGCTGCT GAAAATGCTG GACCAGCTGT TGGCTAATGG GTGCTTTGAC
    ATCTTTACTG CCGAGGAGAA CCACCCCTTT TGTGTGAAGT TGCTCACACT TTGTAAGGAA
    GAAATCAAGA AGTCAAAAGA CATCCAGAAA CTTCGGTCAA GCATTGCAGT GCTCTGTGGG
    ATGGTGCAGT TCAATGGTGA TGTGAGAAAG AAGGTTCTTC TTCAGCTGTT CCTCCTCCTT
    GGCCACCCTT TCCCTGTGAT CCGGAAGAGC ACAGCGAGCC AGGTCTATGA GATGGTGCTT
    ACCTACAGCG ACCTGGTAGA TGCCGAGGTG CTTGATGAGG TCATGTCAGT GCTCAGTGAC
    ACAGCCTGGG ACGCAGAGCT TCCAGTTGTA AGAGAACAGC GGAATCGCCT GTGTGACCTT
    CTTGGCGTGC CCAGACCCCA GCTGGTTCCA AAGCCTATTC CAGGAAGCTG A

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

    RefSeq XP_021034115.1
    CDS93..3683
    Translation

    Target ORF information:

    RefSeq Version XM_021178456.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tubulin folding cofactor D (Tbcd), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021178456.2

    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
    ATGGTACTGA GCCATGAGCC GGCTGCGAGC GCCGCCGAGG AGGAGGTGGA GGATGATGCG 
    CTTGTCCGCG CCTCCGCCCT GGAAGCGTTC GGCGAGAGTG CGGAGACCCG CGCACTGCTC
    CGCAGCTTGC CGGCGGTGCA CAGAGAGCGC GCGTCCCGGG AGGTGGCGGA GGAGCGGTTC
    CGCGTAATTA TGGACAAATA CCAGGAACAG CCCCACCTCT TGGATCCACA CCTTGAGTGG
    ATGATGAACT CACTGTTGGA CCTAGTACAG GATGAGACAT CTCTGCCCGA CCTTGTCCAT
    CTGGCTTTTA AGTTTCTTTA TATCATCACC AAGGTTCGTG GATATAAAGT GTTTCTGCGT
    CTGTTTCCTC ATGAAGTGGC TAATGTTCAG CCTGTGTTAG ATATGTTCAC AGGTCAGAAC
    CCTAAAGACC ATGAGACGTG GGAAACTCGC TACATGCTTC TACTGTGGCT CTCTGTGACC
    TGCTTGATCC CTTTTGATTT TTCACGCCTT GATGGGAACC TGTCTACTCA AACTGGAGAA
    ACACGCGTAC CCACCATGGA CCGAATTCTG CAAATAGCAG AGTCTTACTT GGTGGTCAGT
    GACAAGGCTC GAGATGCAGC TGCTGTCCTT GTGTCCAAAT TTATTACACG TCCTGACGTC
    AAGCAGAGAA AGATGGCCAG CTTTCTGGAC TGGAGCCTTT GCACCTTGGC CCACTCTTCC
    TTCCAGACCA TTGAGGGTGT CATTACCATG GATGGGATGC TGCAGGCCCT GGCTCAAATA
    TTTAAGCATG GGAAACGTGA AGACTGCCTT CCCTATGCCA ACACTGTGCT CCAGTGCCTC
    GACGGCTGCA GACTCCCCGA GAGCAGTCAC ACCTCACTGC GGAAGCTTGG TGTGAAGCTT
    GTCCAGAGAC TGGGGCTGAC TTTCCTGAAG CCAAAGGTGG CCACGTGGAG GTATCAGCGT
    GGCTGTCGGT CTTTGGCTGC TAACCTGAAG CTCTGTGCCC CGGGTAAGAG TGACCAGAAG
    CTGCTGTCTG ATAGTTTGAC CTCTGATGGT GATGAAGACT ATGATATCCC AGAGGGGGTG
    GAAACTGTGA TAGAGCAGCT ACTGGTTGGG TTGAAGGACA AGGACACTGT GGTGCGGTGG
    TCTGCAGCGA AAGGAATTGG TAGGATGGCT GGAAGGCTTC CCAGAGAGCT GGCTGATGAT
    GTAGTGGGGT CTGTGTTGGA CTGTTTCAGT TTTCAGGAGA CGGATAAGGC ATGGCATGGT
    GGATGTCTGG CATTGGCAGA GCTGGGTAGA CGAGGCCTGT TGCTACCATC CAGACTCTCA
    GAGGTTGTCA CGGTGATCCT GAAGGCCCTT ACCTACGATG AGAAGCGGGG TGCCTGCAGC
    GTTGGGGCCA ATGTCAGGGA TGCTGCCTGT TATGTGTGCT GGGCTTTTGC ACGTGCCTAT
    GAACCTCAGG AGTTGACACC TTTTGTGACT GCCATTTCAA GTGCCCTGGT CATTGCTGCT
    GTATTTGACC GAAATGTGAA CTGCAGAAGA GCAGCCTCTG CTGCCTTCCA GGAGAACGTG
    GGGAGACAGG GTACTTTCCC TCATGGAATT GATATTTTGA CTACAGCAGA CTATTTTGCA
    GTTGGTAACA TATCTAACTG TTTCCTGATT ATAAGTGTGT TTATTGCTGG CTTCCAGGAA
    TACACCAAGC CCATGATTGA TCACCTGGTC TCCATGAAAA TCAACCATTG GGATGGGGCC
    ATCCGAGAAC TGTCTGCAAA GGCACTGCAC AACCTGACTC CACAAGTACC CGAGTACATA
    GCCACACACG TATTCCCTGC ACTACTGTTG ATGACACAGA GTCCAGATCT ACACACGAGA
    CATGGTGCCA TCCTTGCCTG TGCAGAGGTC ACCTATGCCC TGTACAAGCT GGCTGCACAG
    AGTAACAGGC TTGTCACAGA CTATCTGGAT GAGAAGGCAG TGCAAAGCCT GAAGCAGGTC
    CACCAGCAGC TTTGTGATCG TCATCTCTAT AGGGGTCTGG GAGGAGAGCT TATGAGACAA
    GCAGTGTGCA TCTTAGTAGA GAAGCTGTCA CTTTCCAGAA TGCCATTTAA AGGGGACGCC
    GCTATCGAAG GTTGGCAGTG GCTGATAAAT GACACTCTCA GGAGTCTTCA CCTTGTTTCA
    AGCCATTCCA GACAACAGAT CAAGGAGGTG GCTGTCTCTG CCCTGGCTGC CCTCTGCAGT
    GAATACTACG TGAAGGAACC TGGGGAGGCA GACTCCTCCA TCGCGAAGGA GCTGATTCCC
    CAGTACCTTG CTGAGCTCCA GAGCCCAGAG GAGATGGCCC GTTGTGGCTT TTCCTCAGCC
    TTGGGTGCCC TCCCAGGTTT CCTTCTCAGG GGCCATCTGC AGCAGGTTCT CTCAGGTCTG
    AGAAGAGTCA CCTGTATTTC TCCCAGTGAT GTGAGCTTTG CTGAAGCCCG GAGAGATGGT
    TTGAAAGCAA TCTCAAGAAT TTGCCAGACG GTTGGTGTGA ACACACGGGG GCCTCCAGAT
    GAAGTCATAT GCAAAGAGAA CATCTCTGAG GTTTATGCTG CATTGCTGGG CTGCATGAGT
    GATTACACCA CAGACAGCAG AGGGGATGTG GGAGCCTGGG TTCGTGAGGC TGCCATGACC
    AGCCTCATGG ATTTGATGCT TTTGCTGGCA CAGACAGAGC CGGTGCTGAT TGAGGCCCAC
    ATCTGTGAGC GTGTCATGTG TTGCGTTGCC CAGCAGGCAA GTGAGAAGAT TGATCGGTTC
    CGTGCTCATG CTGCTCGGGT GTTCCTGACT CTCTTGCACT TCGATAGCCC TCCCATTCCC
    CATGTTCCCC ACCGCCAAGA ACTGGAAAGG CTGTTTCCCA GGTCTGATGT GGCCACTGTG
    AACTGGAATG CACCTTCCCA GGCCTTCCCT CTCATCACCC AGCTCTTGGG ATTGCCTACC
    TATAGATACC ATGTCCTGCT GGGGCTGGCT GTGTCTGTGG GTGGCTTGAC AGAGTCTACG
    GTCAGACATT CTACACAGAG CCTCTTTGAG TACATGAAGG GAATTCAGAA GGATGCTCGG
    GTCCTGCAGA GCTTCAGTGA GACCCTCCTG AAGGTCTTTG AGGACAACCT CTTGAATGAC
    AGGGTGTCTG TATCGCTGCT GAAAATGCTG GACCAGCTGT TGGCTAATGG GTGCTTTGAC
    ATCTTTACTG CCGAGGAGAA CCACCCCTTT TGTGTGAAGT TGCTCACACT TTGTAAGGAA
    GAAATCAAGA AGTCAAAAGA CATCCAGAAA CTTCGGTCAA GCATTGCAGT GCTCTGTGGG
    ATGGTGCAGT TCAATGGTGA TGTGAGAAAG AAGGTTCTTC TTCAGCTGTT CCTCCTCCTT
    GGCCACCCTT TCCCTGTGAT CCGGAAGAGC ACAGCGAGCC AGGTCTATGA GATGGTGCTT
    ACCTACAGCG ACCTGGTAGA TGCCGAGGTG CTTGATGAGG TCATGTCAGT GCTCAGTGAC
    ACAGCCTGGG ACGCAGAGCT TCCAGTTGTA AGAGAACAGC GGAATCGCCT GTGTGACCTT
    CTTGGCGTGC CCAGACCCCA GCTGGTTCCA AAGCCTATTC CAGGAAGCTG A

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

    CloneID OMv28255
    Clone ID Related Accession (Same CDS sequence) XM_021178456.2 , XM_021178456.1
    Accession Version XM_021178456.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product tubulin-specific chaperone D
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGTACTGA GCCATGAGCC GGCTGCGAGC GCCGCCGAGG AGGAGGTGGA GGATGATGCG 
    CTTGTCCGCG CCTCCGCCCT GGAAGCGTTC GGCGAGAGTG CGGAGACCCG CGCACTGCTC
    CGCAGCTTGC CGGCGGTGCA CAGAGAGCGC GCGTCCCGGG AGGTGGCGGA GGAGCGGTTC
    CGCGTAATTA TGGACAAATA CCAGGAACAG CCCCACCTCT TGGATCCACA CCTTGAGTGG
    ATGATGAACT CACTGTTGGA CCTAGTACAG GATGAGACAT CTCTGCCCGA CCTTGTCCAT
    CTGGCTTTTA AGTTTCTTTA TATCATCACC AAGGTTCGTG GATATAAAGT GTTTCTGCGT
    CTGTTTCCTC ATGAAGTGGC TAATGTTCAG CCTGTGTTAG ATATGTTCAC AGGTCAGAAC
    CCTAAAGACC ATGAGACGTG GGAAACTCGC TACATGCTTC TACTGTGGCT CTCTGTGACC
    TGCTTGATCC CTTTTGATTT TTCACGCCTT GATGGGAACC TGTCTACTCA AACTGGAGAA
    ACACGCGTAC CCACCATGGA CCGAATTCTG CAAATAGCAG AGTCTTACTT GGTGGTCAGT
    GACAAGGCTC GAGATGCAGC TGCTGTCCTT GTGTCCAAAT TTATTACACG TCCTGACGTC
    AAGCAGAGAA AGATGGCCAG CTTTCTGGAC TGGAGCCTTT GCACCTTGGC CCACTCTTCC
    TTCCAGACCA TTGAGGGTGT CATTACCATG GATGGGATGC TGCAGGCCCT GGCTCAAATA
    TTTAAGCATG GGAAACGTGA AGACTGCCTT CCCTATGCCA ACACTGTGCT CCAGTGCCTC
    GACGGCTGCA GACTCCCCGA GAGCAGTCAC ACCTCACTGC GGAAGCTTGG TGTGAAGCTT
    GTCCAGAGAC TGGGGCTGAC TTTCCTGAAG CCAAAGGTGG CCACGTGGAG GTATCAGCGT
    GGCTGTCGGT CTTTGGCTGC TAACCTGAAG CTCTGTGCCC CGGGTAAGAG TGACCAGAAG
    CTGCTGTCTG ATAGTTTGAC CTCTGATGGT GATGAAGACT ATGATATCCC AGAGGGGGTG
    GAAACTGTGA TAGAGCAGCT ACTGGTTGGG TTGAAGGACA AGGACACTGT GGTGCGGTGG
    TCTGCAGCGA AAGGAATTGG TAGGATGGCT GGAAGGCTTC CCAGAGAGCT GGCTGATGAT
    GTAGTGGGGT CTGTGTTGGA CTGTTTCAGT TTTCAGGAGA CGGATAAGGC ATGGCATGGT
    GGATGTCTGG CATTGGCAGA GCTGGGTAGA CGAGGCCTGT TGCTACCATC CAGACTCTCA
    GAGGTTGTCA CGGTGATCCT GAAGGCCCTT ACCTACGATG AGAAGCGGGG TGCCTGCAGC
    GTTGGGGCCA ATGTCAGGGA TGCTGCCTGT TATGTGTGCT GGGCTTTTGC ACGTGCCTAT
    GAACCTCAGG AGTTGACACC TTTTGTGACT GCCATTTCAA GTGCCCTGGT CATTGCTGCT
    GTATTTGACC GAAATGTGAA CTGCAGAAGA GCAGCCTCTG CTGCCTTCCA GGAGAACGTG
    GGGAGACAGG GTACTTTCCC TCATGGAATT GATATTTTGA CTACAGCAGA CTATTTTGCA
    GTTGGTAACA TATCTAACTG TTTCCTGATT ATAAGTGTGT TTATTGCTGG CTTCCAGGAA
    TACACCAAGC CCATGATTGA TCACCTGGTC TCCATGAAAA TCAACCATTG GGATGGGGCC
    ATCCGAGAAC TGTCTGCAAA GGCACTGCAC AACCTGACTC CACAAGTACC CGAGTACATA
    GCCACACACG TATTCCCTGC ACTACTGTTG ATGACACAGA GTCCAGATCT ACACACGAGA
    CATGGTGCCA TCCTTGCCTG TGCAGAGGTC ACCTATGCCC TGTACAAGCT GGCTGCACAG
    AGTAACAGGC TTGTCACAGA CTATCTGGAT GAGAAGGCAG TGCAAAGCCT GAAGCAGGTC
    CACCAGCAGC TTTGTGATCG TCATCTCTAT AGGGGTCTGG GAGGAGAGCT TATGAGACAA
    GCAGTGTGCA TCTTAGTAGA GAAGCTGTCA CTTTCCAGAA TGCCATTTAA AGGGGACGCC
    GCTATCGAAG GTTGGCAGTG GCTGATAAAT GACACTCTCA GGAGTCTTCA CCTTGTTTCA
    AGCCATTCCA GACAACAGAT CAAGGAGGTG GCTGTCTCTG CCCTGGCTGC CCTCTGCAGT
    GAATACTACG TGAAGGAACC TGGGGAGGCA GACTCCTCCA TCGCGAAGGA GCTGATTCCC
    CAGTACCTTG CTGAGCTCCA GAGCCCAGAG GAGATGGCCC GTTGTGGCTT TTCCTCAGCC
    TTGGGTGCCC TCCCAGGTTT CCTTCTCAGG GGCCATCTGC AGCAGGTTCT CTCAGGTCTG
    AGAAGAGTCA CCTGTATTTC TCCCAGTGAT GTGAGCTTTG CTGAAGCCCG GAGAGATGGT
    TTGAAAGCAA TCTCAAGAAT TTGCCAGACG GTTGGTGTGA ACACACGGGG GCCTCCAGAT
    GAAGTCATAT GCAAAGAGAA CATCTCTGAG GTTTATGCTG CATTGCTGGG CTGCATGAGT
    GATTACACCA CAGACAGCAG AGGGGATGTG GGAGCCTGGG TTCGTGAGGC TGCCATGACC
    AGCCTCATGG ATTTGATGCT TTTGCTGGCA CAGACAGAGC CGGTGCTGAT TGAGGCCCAC
    ATCTGTGAGC GTGTCATGTG TTGCGTTGCC CAGCAGGCAA GTGAGAAGAT TGATCGGTTC
    CGTGCTCATG CTGCTCGGGT GTTCCTGACT CTCTTGCACT TCGATAGCCC TCCCATTCCC
    CATGTTCCCC ACCGCCAAGA ACTGGAAAGG CTGTTTCCCA GGTCTGATGT GGCCACTGTG
    AACTGGAATG CACCTTCCCA GGCCTTCCCT CTCATCACCC AGCTCTTGGG ATTGCCTACC
    TATAGATACC ATGTCCTGCT GGGGCTGGCT GTGTCTGTGG GTGGCTTGAC AGAGTCTACG
    GTCAGACATT CTACACAGAG CCTCTTTGAG TACATGAAGG GAATTCAGAA GGATGCTCGG
    GTCCTGCAGA GCTTCAGTGA GACCCTCCTG AAGGTCTTTG AGGACAACCT CTTGAATGAC
    AGGGTGTCTG TATCGCTGCT GAAAATGCTG GACCAGCTGT TGGCTAATGG GTGCTTTGAC
    ATCTTTACTG CCGAGGAGAA CCACCCCTTT TGTGTGAAGT TGCTCACACT TTGTAAGGAA
    GAAATCAAGA AGTCAAAAGA CATCCAGAAA CTTCGGTCAA GCATTGCAGT GCTCTGTGGG
    ATGGTGCAGT TCAATGGTGA TGTGAGAAAG AAGGTTCTTC TTCAGCTGTT CCTCCTCCTT
    GGCCACCCTT TCCCTGTGAT CCGGAAGAGC ACAGCGAGCC AGGTCTATGA GATGGTGCTT
    ACCTACAGCG ACCTGGTAGA TGCCGAGGTG CTTGATGAGG TCATGTCAGT GCTCAGTGAC
    ACAGCCTGGG ACGCAGAGCT TCCAGTTGTA AGAGAACAGC GGAATCGCCT GTGTGACCTT
    CTTGGCGTGC CCAGACCCCA GCTGGTTCCA AAGCCTATTC CAGGAAGCTG A

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

    RefSeq XP_021034115.1
    CDS90..3680
    Translation

    Target ORF information:

    RefSeq Version XM_021178456.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tubulin folding cofactor D (Tbcd), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021178456.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGTACTGA GCCATGAGCC GGCTGCGAGC GCCGCCGAGG AGGAGGTGGA GGATGATGCG 
    CTTGTCCGCG CCTCCGCCCT GGAAGCGTTC GGCGAGAGTG CGGAGACCCG CGCACTGCTC
    CGCAGCTTGC CGGCGGTGCA CAGAGAGCGC GCGTCCCGGG AGGTGGCGGA GGAGCGGTTC
    CGCGTAATTA TGGACAAATA CCAGGAACAG CCCCACCTCT TGGATCCACA CCTTGAGTGG
    ATGATGAACT CACTGTTGGA CCTAGTACAG GATGAGACAT CTCTGCCCGA CCTTGTCCAT
    CTGGCTTTTA AGTTTCTTTA TATCATCACC AAGGTTCGTG GATATAAAGT GTTTCTGCGT
    CTGTTTCCTC ATGAAGTGGC TAATGTTCAG CCTGTGTTAG ATATGTTCAC AGGTCAGAAC
    CCTAAAGACC ATGAGACGTG GGAAACTCGC TACATGCTTC TACTGTGGCT CTCTGTGACC
    TGCTTGATCC CTTTTGATTT TTCACGCCTT GATGGGAACC TGTCTACTCA AACTGGAGAA
    ACACGCGTAC CCACCATGGA CCGAATTCTG CAAATAGCAG AGTCTTACTT GGTGGTCAGT
    GACAAGGCTC GAGATGCAGC TGCTGTCCTT GTGTCCAAAT TTATTACACG TCCTGACGTC
    AAGCAGAGAA AGATGGCCAG CTTTCTGGAC TGGAGCCTTT GCACCTTGGC CCACTCTTCC
    TTCCAGACCA TTGAGGGTGT CATTACCATG GATGGGATGC TGCAGGCCCT GGCTCAAATA
    TTTAAGCATG GGAAACGTGA AGACTGCCTT CCCTATGCCA ACACTGTGCT CCAGTGCCTC
    GACGGCTGCA GACTCCCCGA GAGCAGTCAC ACCTCACTGC GGAAGCTTGG TGTGAAGCTT
    GTCCAGAGAC TGGGGCTGAC TTTCCTGAAG CCAAAGGTGG CCACGTGGAG GTATCAGCGT
    GGCTGTCGGT CTTTGGCTGC TAACCTGAAG CTCTGTGCCC CGGGTAAGAG TGACCAGAAG
    CTGCTGTCTG ATAGTTTGAC CTCTGATGGT GATGAAGACT ATGATATCCC AGAGGGGGTG
    GAAACTGTGA TAGAGCAGCT ACTGGTTGGG TTGAAGGACA AGGACACTGT GGTGCGGTGG
    TCTGCAGCGA AAGGAATTGG TAGGATGGCT GGAAGGCTTC CCAGAGAGCT GGCTGATGAT
    GTAGTGGGGT CTGTGTTGGA CTGTTTCAGT TTTCAGGAGA CGGATAAGGC ATGGCATGGT
    GGATGTCTGG CATTGGCAGA GCTGGGTAGA CGAGGCCTGT TGCTACCATC CAGACTCTCA
    GAGGTTGTCA CGGTGATCCT GAAGGCCCTT ACCTACGATG AGAAGCGGGG TGCCTGCAGC
    GTTGGGGCCA ATGTCAGGGA TGCTGCCTGT TATGTGTGCT GGGCTTTTGC ACGTGCCTAT
    GAACCTCAGG AGTTGACACC TTTTGTGACT GCCATTTCAA GTGCCCTGGT CATTGCTGCT
    GTATTTGACC GAAATGTGAA CTGCAGAAGA GCAGCCTCTG CTGCCTTCCA GGAGAACGTG
    GGGAGACAGG GTACTTTCCC TCATGGAATT GATATTTTGA CTACAGCAGA CTATTTTGCA
    GTTGGTAACA TATCTAACTG TTTCCTGATT ATAAGTGTGT TTATTGCTGG CTTCCAGGAA
    TACACCAAGC CCATGATTGA TCACCTGGTC TCCATGAAAA TCAACCATTG GGATGGGGCC
    ATCCGAGAAC TGTCTGCAAA GGCACTGCAC AACCTGACTC CACAAGTACC CGAGTACATA
    GCCACACACG TATTCCCTGC ACTACTGTTG ATGACACAGA GTCCAGATCT ACACACGAGA
    CATGGTGCCA TCCTTGCCTG TGCAGAGGTC ACCTATGCCC TGTACAAGCT GGCTGCACAG
    AGTAACAGGC TTGTCACAGA CTATCTGGAT GAGAAGGCAG TGCAAAGCCT GAAGCAGGTC
    CACCAGCAGC TTTGTGATCG TCATCTCTAT AGGGGTCTGG GAGGAGAGCT TATGAGACAA
    GCAGTGTGCA TCTTAGTAGA GAAGCTGTCA CTTTCCAGAA TGCCATTTAA AGGGGACGCC
    GCTATCGAAG GTTGGCAGTG GCTGATAAAT GACACTCTCA GGAGTCTTCA CCTTGTTTCA
    AGCCATTCCA GACAACAGAT CAAGGAGGTG GCTGTCTCTG CCCTGGCTGC CCTCTGCAGT
    GAATACTACG TGAAGGAACC TGGGGAGGCA GACTCCTCCA TCGCGAAGGA GCTGATTCCC
    CAGTACCTTG CTGAGCTCCA GAGCCCAGAG GAGATGGCCC GTTGTGGCTT TTCCTCAGCC
    TTGGGTGCCC TCCCAGGTTT CCTTCTCAGG GGCCATCTGC AGCAGGTTCT CTCAGGTCTG
    AGAAGAGTCA CCTGTATTTC TCCCAGTGAT GTGAGCTTTG CTGAAGCCCG GAGAGATGGT
    TTGAAAGCAA TCTCAAGAAT TTGCCAGACG GTTGGTGTGA ACACACGGGG GCCTCCAGAT
    GAAGTCATAT GCAAAGAGAA CATCTCTGAG GTTTATGCTG CATTGCTGGG CTGCATGAGT
    GATTACACCA CAGACAGCAG AGGGGATGTG GGAGCCTGGG TTCGTGAGGC TGCCATGACC
    AGCCTCATGG ATTTGATGCT TTTGCTGGCA CAGACAGAGC CGGTGCTGAT TGAGGCCCAC
    ATCTGTGAGC GTGTCATGTG TTGCGTTGCC CAGCAGGCAA GTGAGAAGAT TGATCGGTTC
    CGTGCTCATG CTGCTCGGGT GTTCCTGACT CTCTTGCACT TCGATAGCCC TCCCATTCCC
    CATGTTCCCC ACCGCCAAGA ACTGGAAAGG CTGTTTCCCA GGTCTGATGT GGCCACTGTG
    AACTGGAATG CACCTTCCCA GGCCTTCCCT CTCATCACCC AGCTCTTGGG ATTGCCTACC
    TATAGATACC ATGTCCTGCT GGGGCTGGCT GTGTCTGTGG GTGGCTTGAC AGAGTCTACG
    GTCAGACATT CTACACAGAG CCTCTTTGAG TACATGAAGG GAATTCAGAA GGATGCTCGG
    GTCCTGCAGA GCTTCAGTGA GACCCTCCTG AAGGTCTTTG AGGACAACCT CTTGAATGAC
    AGGGTGTCTG TATCGCTGCT GAAAATGCTG GACCAGCTGT TGGCTAATGG GTGCTTTGAC
    ATCTTTACTG CCGAGGAGAA CCACCCCTTT TGTGTGAAGT TGCTCACACT TTGTAAGGAA
    GAAATCAAGA AGTCAAAAGA CATCCAGAAA CTTCGGTCAA GCATTGCAGT GCTCTGTGGG
    ATGGTGCAGT TCAATGGTGA TGTGAGAAAG AAGGTTCTTC TTCAGCTGTT CCTCCTCCTT
    GGCCACCCTT TCCCTGTGAT CCGGAAGAGC ACAGCGAGCC AGGTCTATGA GATGGTGCTT
    ACCTACAGCG ACCTGGTAGA TGCCGAGGTG CTTGATGAGG TCATGTCAGT GCTCAGTGAC
    ACAGCCTGGG ACGCAGAGCT TCCAGTTGTA AGAGAACAGC GGAATCGCCT GTGTGACCTT
    CTTGGCGTGC CCAGACCCCA GCTGGTTCCA AAGCCTATTC CAGGAAGCTG A

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

    CloneID OMv67412
    Clone ID Related Accession (Same CDS sequence) XM_029483328.1
    Accession Version XM_029483328.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product tubulin-specific chaperone D isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGACAAAT ACCAGGAACA GCCCCACCTC TTGGATCCAC ACCTTGAGTG GATGATGAAC 
    TCACTGTTGG ACCTAGTACA GGATGAGACA TCTCTGCCCG ACCTTGTCCA TCTGGCTTTT
    AAGTTTCTTT ATATCATCAC CAAGGTTCGT GGATATAAAG TGTTTCTGCG TCTGTTTCCT
    CATGAAGTGG CTAATGTTCA GCCTGTGTTA GATATGTTCA CAGGTCAGAA CCCTAAAGAC
    CATGAGACGT GGGAAACTCG CTACATGCTT CTACTGTGGC TCTCTGTGAC CTGCTTGATC
    CCTTTTGATT TTTCACGCCT TGATGGGAAC CTGTCTACTC AAACTGGAGA AACACGCGTA
    CCCACCATGG ACCGAATTCT GCAAATAGCA GAGTCTTACT TGGTGGTCAG TGACAAGGCT
    CGAGATGCAG CTGCTGTCCT TGTGTCCAAA TTTATTACAC GTCCTGACGT CAAGCAGAGA
    AAGATGGCCA GCTTTCTGGA CTGGAGCCTT TGCACCTTGG CCCACTCTTC CTTCCAGACC
    ATTGAGGGTG TCATTACCAT GGATGGGATG CTGCAGGCCC TGGCTCAAAT ATTTAAGCAT
    GGGAAACGTG AAGACTGCCT TCCCTATGCC AACACTGTGC TCCAGTGCCT CGACGGCTGC
    AGACTCCCCG AGAGCAGTCA CACCTCACTG CGGAAGCTTG GTGTGAAGCT TGTCCAGAGA
    CTGGGGCTGA CTTTCCTGAA GCCAAAGGTG GCCACGTGGA GGTATCAGCG TGGCTGTCGG
    TCTTTGGCTG CTAACCTGAA GCTCTGTGCC CCGGGTAAGA GTGACCAGAA GCTGCTGTCT
    GATAGTTTGA CCTCTGATGG TGATGAAGAC TATGATATCC CAGAGGGGGT GGAAACTGTG
    ATAGAGCAGC TACTGGTTGG GTTGAAGGAC AAGGACACTG TGGTGCGGTG GTCTGCAGCG
    AAAGGAATTG GTAGGATGGC TGGAAGGCTT CCCAGAGAGC TGGCTGATGA TGTAGTGGGG
    TCTGTGTTGG ACTGTTTCAG TTTTCAGGAG ACGGATAAGG CATGGCATGG TGGATGTCTG
    GCATTGGCAG AGCTGGGTAG ACGAGGCCTG TTGCTACCAT CCAGACTCTC AGAGGTTGTC
    ACGGTGATCC TGAAGGCCCT TACCTACGAT GAGAAGCGGG GTGCCTGCAG CGTTGGGGCC
    AATGTCAGGG ATGCTGCCTG TTATGTGTGC TGGGCTTTTG CACGTGCCTA TGAACCTCAG
    GAGTTGACAC CTTTTGTGAC TGCCATTTCA AGTGCCCTGG TCATTGCTGC TGTATTTGAC
    CGAAATGTGA ACTGCAGAAG AGCAGCCTCT GCTGCCTTCC AGGAGAACGT GGGGAGACAG
    GGTACTTTCC CTCATGGAAT TGATATTTTG ACTACAGCAG ACTATTTTGC AGTTGGTAAC
    ATATCTAACT GTTTCCTGAT TATAAGTGTG TTTATTGCTG GCTTCCAGGA ATACACCAAG
    CCCATGATTG ATCACCTGGT CTCCATGAAA ATCAACCATT GGGATGGGGC CATCCGAGAA
    CTGTCTGCAA AGGCACTGCA CAACCTGACT CCACAAGTAC CCGAGTACAT AGCCACACAC
    GTATTCCCTG CACTACTGTT GATGACACAG AGTCCAGATC TACACACGAG ACATGGTGCC
    ATCCTTGCCT GTGCAGAGGT CACCTATGCC CTGTACAAGC TGGCTGCACA GAGTAACAGG
    CTTGTCACAG ACTATCTGGA TGAGAAGGCA GTGCAAAGCC TGAAGCAGGT CCACCAGCAG
    CTTTGTGATC GTCATCTCTA TAGGGGTCTG GGAGGAGAGC TTATGAGACA AGCAGTGTGC
    ATCTTAGTAG AGAAGCTGTC ACTTTCCAGA ATGCCATTTA AAGGGGACGC CGCTATCGAA
    GGTTGGCAGT GGCTGATAAA TGACACTCTC AGGAGTCTTC ACCTTGTTTC AAGCCATTCC
    AGACAACAGA TCAAGGAGGT GGCTGTCTCT GCCCTGGCTG CCCTCTGCAG TGAATACTAC
    GTGAAGGAAC CTGGGGAGGC AGACTCCTCC ATCGCGAAGG AGCTGATTCC CCAGTACCTT
    GCTGAGCTCC AGAGCCCAGA GGAGATGGCC CGTTGTGGCT TTTCCTCAGC CTTGGGTGCC
    CTCCCAGGTT TCCTTCTCAG GGGCCATCTG CAGCAGGTTC TCTCAGGTCT GAGAAGAGTC
    ACCTGTATTT CTCCCAGTGA TGTGAGCTTT GCTGAAGCCC GGAGAGATGG TTTGAAAGCA
    ATCTCAAGAA TTTGCCAGAC GGTTGGTGTG AACACACGGG GGCCTCCAGA TGAAGTCATA
    TGCAAAGAGA ACATCTCTGA GGTTTATGCT GCATTGCTGG GCTGCATGAG TGATTACACC
    ACAGACAGCA GAGGGGATGT GGGAGCCTGG GTTCGTGAGG CTGCCATGAC CAGCCTCATG
    GATTTGATGC TTTTGCTGGC ACAGACAGAG CCGGTGCTGA TTGAGGCCCA CATCTGTGAG
    CGTGTCATGT GTTGCGTTGC CCAGCAGGCA AGTGAGAAGA TTGATCGGTT CCGTGCTCAT
    GCTGCTCGGG TGTTCCTGAC TCTCTTGCAC TTCGATAGCC CTCCCATTCC CCATGTTCCC
    CACCGCCAAG AACTGGAAAG GCTGTTTCCC AGGTCTGATG TGGCCACTGT GAACTGGAAT
    GCACCTTCCC AGGCCTTCCC TCTCATCACC CAGCTCTTGG GATTGCCTAC CTATAGATAC
    CATGTCCTGC TGGGGCTGGC TGTGTCTGTG GGTGGCTTGA CAGAGTCTAC GGTCAGACAT
    TCTACACAGA GCCTCTTTGA GTACATGAAG GGAATTCAGA AGGATGCTCG GGTCCTGCAG
    AGCTTCAGTG AGACCCTCCT GAAGGTCTTT GAGGACAACC TCTTGAATGA CAGGGTGTCT
    GTATCGCTGC TGAAAATGCT GGACCAGCTG TTGGCTAATG GGTGCTTTGA CATCTTTACT
    GCCGAGGAGA ACCACCCCTT TTGTGTGAAG TTGCTCACAC TTTGTAAGGA AGAAATCAAG
    AAGTCAAAAG ACATCCAGAA ACTTCGGTCA AGCATTGCAG TGCTCTGTGG GATGGTGCAG
    TTCAATGGTG ATGTGAGAAA GAAGGTTCTT CTTCAGCTGT TCCTCCTCCT TGGCCACCCT
    TTCCCTGTGA TCCGGAAGAG CACAGCGAGC CAGGTCTATG AGATGGTGCT TACCTACAGC
    GACCTGGTAG ATGCCGAGGT GCTTGATGAG GTCATGTCAG TGCTCAGTGA CACAGCCTGG
    GACGCAGAGC TTCCAGTTGT AAGAGAACAG CGGAATCGCC TGTGTGACCT TCTTGGCGTG
    CCCAGACCCC AGCTGGTTCC AAAGCCTATT CCAGGAAGCT GA

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

    RefSeq XP_029339188.1
    CDS114..3515
    Translation

    Target ORF information:

    RefSeq Version XM_029483328.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tubulin folding cofactor D (Tbcd), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029483328.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGACAAAT ACCAGGAACA GCCCCACCTC TTGGATCCAC ACCTTGAGTG GATGATGAAC 
    TCACTGTTGG ACCTAGTACA GGATGAGACA TCTCTGCCCG ACCTTGTCCA TCTGGCTTTT
    AAGTTTCTTT ATATCATCAC CAAGGTTCGT GGATATAAAG TGTTTCTGCG TCTGTTTCCT
    CATGAAGTGG CTAATGTTCA GCCTGTGTTA GATATGTTCA CAGGTCAGAA CCCTAAAGAC
    CATGAGACGT GGGAAACTCG CTACATGCTT CTACTGTGGC TCTCTGTGAC CTGCTTGATC
    CCTTTTGATT TTTCACGCCT TGATGGGAAC CTGTCTACTC AAACTGGAGA AACACGCGTA
    CCCACCATGG ACCGAATTCT GCAAATAGCA GAGTCTTACT TGGTGGTCAG TGACAAGGCT
    CGAGATGCAG CTGCTGTCCT TGTGTCCAAA TTTATTACAC GTCCTGACGT CAAGCAGAGA
    AAGATGGCCA GCTTTCTGGA CTGGAGCCTT TGCACCTTGG CCCACTCTTC CTTCCAGACC
    ATTGAGGGTG TCATTACCAT GGATGGGATG CTGCAGGCCC TGGCTCAAAT ATTTAAGCAT
    GGGAAACGTG AAGACTGCCT TCCCTATGCC AACACTGTGC TCCAGTGCCT CGACGGCTGC
    AGACTCCCCG AGAGCAGTCA CACCTCACTG CGGAAGCTTG GTGTGAAGCT TGTCCAGAGA
    CTGGGGCTGA CTTTCCTGAA GCCAAAGGTG GCCACGTGGA GGTATCAGCG TGGCTGTCGG
    TCTTTGGCTG CTAACCTGAA GCTCTGTGCC CCGGGTAAGA GTGACCAGAA GCTGCTGTCT
    GATAGTTTGA CCTCTGATGG TGATGAAGAC TATGATATCC CAGAGGGGGT GGAAACTGTG
    ATAGAGCAGC TACTGGTTGG GTTGAAGGAC AAGGACACTG TGGTGCGGTG GTCTGCAGCG
    AAAGGAATTG GTAGGATGGC TGGAAGGCTT CCCAGAGAGC TGGCTGATGA TGTAGTGGGG
    TCTGTGTTGG ACTGTTTCAG TTTTCAGGAG ACGGATAAGG CATGGCATGG TGGATGTCTG
    GCATTGGCAG AGCTGGGTAG ACGAGGCCTG TTGCTACCAT CCAGACTCTC AGAGGTTGTC
    ACGGTGATCC TGAAGGCCCT TACCTACGAT GAGAAGCGGG GTGCCTGCAG CGTTGGGGCC
    AATGTCAGGG ATGCTGCCTG TTATGTGTGC TGGGCTTTTG CACGTGCCTA TGAACCTCAG
    GAGTTGACAC CTTTTGTGAC TGCCATTTCA AGTGCCCTGG TCATTGCTGC TGTATTTGAC
    CGAAATGTGA ACTGCAGAAG AGCAGCCTCT GCTGCCTTCC AGGAGAACGT GGGGAGACAG
    GGTACTTTCC CTCATGGAAT TGATATTTTG ACTACAGCAG ACTATTTTGC AGTTGGTAAC
    ATATCTAACT GTTTCCTGAT TATAAGTGTG TTTATTGCTG GCTTCCAGGA ATACACCAAG
    CCCATGATTG ATCACCTGGT CTCCATGAAA ATCAACCATT GGGATGGGGC CATCCGAGAA
    CTGTCTGCAA AGGCACTGCA CAACCTGACT CCACAAGTAC CCGAGTACAT AGCCACACAC
    GTATTCCCTG CACTACTGTT GATGACACAG AGTCCAGATC TACACACGAG ACATGGTGCC
    ATCCTTGCCT GTGCAGAGGT CACCTATGCC CTGTACAAGC TGGCTGCACA GAGTAACAGG
    CTTGTCACAG ACTATCTGGA TGAGAAGGCA GTGCAAAGCC TGAAGCAGGT CCACCAGCAG
    CTTTGTGATC GTCATCTCTA TAGGGGTCTG GGAGGAGAGC TTATGAGACA AGCAGTGTGC
    ATCTTAGTAG AGAAGCTGTC ACTTTCCAGA ATGCCATTTA AAGGGGACGC CGCTATCGAA
    GGTTGGCAGT GGCTGATAAA TGACACTCTC AGGAGTCTTC ACCTTGTTTC AAGCCATTCC
    AGACAACAGA TCAAGGAGGT GGCTGTCTCT GCCCTGGCTG CCCTCTGCAG TGAATACTAC
    GTGAAGGAAC CTGGGGAGGC AGACTCCTCC ATCGCGAAGG AGCTGATTCC CCAGTACCTT
    GCTGAGCTCC AGAGCCCAGA GGAGATGGCC CGTTGTGGCT TTTCCTCAGC CTTGGGTGCC
    CTCCCAGGTT TCCTTCTCAG GGGCCATCTG CAGCAGGTTC TCTCAGGTCT GAGAAGAGTC
    ACCTGTATTT CTCCCAGTGA TGTGAGCTTT GCTGAAGCCC GGAGAGATGG TTTGAAAGCA
    ATCTCAAGAA TTTGCCAGAC GGTTGGTGTG AACACACGGG GGCCTCCAGA TGAAGTCATA
    TGCAAAGAGA ACATCTCTGA GGTTTATGCT GCATTGCTGG GCTGCATGAG TGATTACACC
    ACAGACAGCA GAGGGGATGT GGGAGCCTGG GTTCGTGAGG CTGCCATGAC CAGCCTCATG
    GATTTGATGC TTTTGCTGGC ACAGACAGAG CCGGTGCTGA TTGAGGCCCA CATCTGTGAG
    CGTGTCATGT GTTGCGTTGC CCAGCAGGCA AGTGAGAAGA TTGATCGGTT CCGTGCTCAT
    GCTGCTCGGG TGTTCCTGAC TCTCTTGCAC TTCGATAGCC CTCCCATTCC CCATGTTCCC
    CACCGCCAAG AACTGGAAAG GCTGTTTCCC AGGTCTGATG TGGCCACTGT GAACTGGAAT
    GCACCTTCCC AGGCCTTCCC TCTCATCACC CAGCTCTTGG GATTGCCTAC CTATAGATAC
    CATGTCCTGC TGGGGCTGGC TGTGTCTGTG GGTGGCTTGA CAGAGTCTAC GGTCAGACAT
    TCTACACAGA GCCTCTTTGA GTACATGAAG GGAATTCAGA AGGATGCTCG GGTCCTGCAG
    AGCTTCAGTG AGACCCTCCT GAAGGTCTTT GAGGACAACC TCTTGAATGA CAGGGTGTCT
    GTATCGCTGC TGAAAATGCT GGACCAGCTG TTGGCTAATG GGTGCTTTGA CATCTTTACT
    GCCGAGGAGA ACCACCCCTT TTGTGTGAAG TTGCTCACAC TTTGTAAGGA AGAAATCAAG
    AAGTCAAAAG ACATCCAGAA ACTTCGGTCA AGCATTGCAG TGCTCTGTGG GATGGTGCAG
    TTCAATGGTG ATGTGAGAAA GAAGGTTCTT CTTCAGCTGT TCCTCCTCCT TGGCCACCCT
    TTCCCTGTGA TCCGGAAGAG CACAGCGAGC CAGGTCTATG AGATGGTGCT TACCTACAGC
    GACCTGGTAG ATGCCGAGGT GCTTGATGAG GTCATGTCAG TGCTCAGTGA CACAGCCTGG
    GACGCAGAGC TTCCAGTTGT AAGAGAACAG CGGAATCGCC TGTGTGACCT TCTTGGCGTG
    CCCAGACCCC AGCTGGTTCC AAAGCCTATT CCAGGAAGCT GA

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