ORF » Species Summary » Panthera tigris altaica » TRAPPC8 cDNA ORF clone

TRAPPC8 cDNA ORF clone, Panthera tigris altaica(Amur tiger)

The following TRAPPC8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRAPPC8 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
OPa112971 XM_007093055.1
Latest version!		 Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OPa112972 XM_007093056.1
Latest version!		 Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00

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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)
    TRAPPC8 ( XM_007093055.1 ) cDNA ORF clone, Panthera tigris altaica(Amur tiger) -> XP_007093117.1 Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPa112971
    Clone ID Related Accession (Same CDS sequence) XM_007093055.1
    Accession Version XM_007093055.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 2016-02-07
    Organism Panthera tigris altaica(Amur tiger)
    Product trafficking protein particle complex subunit 8 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006712122.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Panthera tigris altaica Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GTGTACAATC AGTGCAGGAG CTAATCCCGG ACTCCTTCGT CCCCTGTGTC 
    GCCGCGCTGT GCAGCGACGA AGCCGAGCGG CTCACTCGCC TCAATCACCT TAGCTTCGCG 
    GAGTTGCTTA AGCCCTTCTC TCGCCTCACT TCGGAGGTAC ATATGAGAGA TCCTAATAAT 
    CAACTTCACA TAATCAAAAA TCTGAAGATA GCAGTAAGCA ACATTATCAC CCAACCACCT 
    CAACCCGGAG CCATTCGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGTCA GCCTGCGGAA 
    GGATTAGTAG CTAATGTGAT TACAGCAGGA GATTATGACC TCAACATCAG TGCTACCACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTTCAGTCGA TGCCAGCATC AGATCATGAA 
    TTTCTGAACC ACTATTTAGC ATGTATGTTG GTAGCATCAT CTAGTGAAGC TGAACCTGTG 
    GAACAGTTTT CAAAGTTATC ACAAGAACAG CATCGAATTC AGCACAACAG TGACTATTCC 
    TACCCCAAGT GGTTTATACC AAATACACTT AAATATTATG TACTTTTACA TGATGTAAGT 
    GCAGGAGATG AACAGAGAGC TGAATCAATT TATGAAGAAA TGAAACAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATTAATTCT CGAACATCTA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CTTGGAGTCA GTATCTTCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT AACTTCAAAT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGATTAG ATAACGAAGT CAAAGTAGAT GGCTTACCAA ATAACTTTAG AGCTCACCCA 
    CTTCAGTTGG ACTCATCCAG TGACGCTTCT AACAGCATTG ATGGCCCAGA TCATGTAAAA 
    TCTGCTTCAT CATTACATGA AACAAAGAAA GCAAATACTG GAATTATTCA TGGTGCATGT 
    TTAACCCTTA CTGATCATGA TAGAATTCGA CAGTTTATAC AAGAGTTCAC TTTTCGGGGC 
    CTTTTGCCAC ATATAGAGAA AACAATTCGG CAATTAAATG ATCAGCTAAT ATCAAGAAAA 
    GGTTTAAGTC GATCTCTATT TTCTGCAACT AAAAAATGGT TTAGTGGCAG TAAAGTTCCA 
    GAAAAAAGCA TTAATGAGCT GAAAAATACA TCTGGATTGC TGTATCCGCC GGAAGCACCA 
    GAGCTTCAAA TCCGAAAAAT GGCTGACTTA TGCTTTTTGG TGCAGCATTA TGATTTGGCT 
    TATAGTTGCT ATCATACTGC AAAGAAAGAT TTTCTTAATG ATCAAGCAAT GCTTTATGCA 
    GCTGGTGCAT TGGAAATGGC AGCAGTGTCA GCTTTCCTTC AGCCAGGAGC GCCTAGGCCA 
    TACCCTGCGC ATTACATGGA TACAGCAATC CAGACATACA GGGATATCTG CAAGAATATG 
    GTATTGGCTG AAAGATGTGT ATTGCTTAGT GCTGAAATCT TAAAAAGCCA AAGCAAATAT 
    TCAGAGGCCG CAGCTCTCCT AATACGGTTG ACCAGTGAGG ATTCTGATCT TCGAAGTGCA 
    CTTCTTTTGG AACAGGCGGC ACATTGCTTT ATAAACATGA AGAGCCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATACT GGCAGGACAT CGGTTTAGTA AAGCAGGGCA AAAAAAGCAT 
    GCTTTACGCT GTTATTGTCA AGCCATGCAG GTTTACAAAG GAAAAGGCTG GTCTCTGGCA 
    GAGGATCACA TTAACTTCAC TATTGGGCGC CAGTCCTATA CCCTTAGGCA ACTGGACAAT 
    GCTGTGTCTG CTTTTAGGCA TATTTTAATC AATGAAAGTA AACAATCTGC TGCTCAACAA 
    GGGGCCTTCC TCAGAGAGTA TCTTTATGTT TACAAGAACG TAAGTCAGCT GTCACCAGAT 
    GGCCCTTTAC CGCAGCTACC TTTACCGTAT ATTAACAGTT CAGCCACACG GGTTTTCTTT 
    GGCCACGACA GACGACCAGC AGATGGTGAA AAGCAAGCAG CTACTCATGT AAGTCTCGAT 
    CAGGAATATG ACTCTGAATC CTCTCAGCAG TGGCGAGAAC TTGAGGAACA AGTTGTAGCT 
    GTGGTTAACA GAGGAGTAGT TCCATCCAAT TTCTACCCCA CACAATATTG TTTGAATAGT 
    TATTCAGATA ACTCAAGATT TCCACTGGCA GTTGTAGAAG AACCAATAAC AGTGGAAGTG 
    GCTTTTAGAA ATCCTTTGAA GGTTCCACTT TTGTTGACTG ATTTGTCATT GCTATGGAAG 
    TTTCAACCTA AAGATACTAG TGGAAAGGAT AATGAAGAAG TTAAAGAACT AGTAACAGGT 
    GAACCTAAAA TGATTGGAAC TGAAGTTATT TCAGAATTTT TAATTAATAG TGAAGAATCT 
    AAAGTGGCAA GACTAAAGCT CTTTCCCCAT CACATAGGGG AGCTGCATAT TCTCGGAGTT 
    GTTTATAATC TTGGCACTAT TCAGGGCTGC ATGACAGTAG ATGGCATTGG TTCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCCTTGAGT ATGTCAGTCA GAGGGAGACA AGATTTAGAA 
    ATTCAAGGTC CTCGACTTAA CAATACAAAA GAAGAGAAAA CATCTATCAA ATATGGTCCT 
    GATCGACGTT TAGATCCCAT TATCACGGAG GAAATGCCAC TGTTGGAGAT ATTCTTTATA 
    CATTTCCCTA CCGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAA GTCCTCTTAC TGGATTGAAG GTTGTTTCTA AACGTCCAGA GTTCTTTACT 
    TTTGGTGGTA ACACAGCTGT TCTAACACCA CTAAGTCCTT CAGCTTCTGA GAACTGTAGT 
    GCTTACAAGA CTGTTGCGAC AGACTCTACC GCTGTGTGTA CAGCACTCAT ATCATCGGCT 
    TCCTCTGTAG ACTTTGGCAT TGGCATAGGG AGTCAGCCAG AGGTGATTCC TGTTCCCCTT 
    CCTGACACTG TTCTTCTACC TGGAGCTTCA GTCCAGCTAC CAATGTGGTT ACGTGGGCCA 
    GATGAAGAAG GTGTCCATGA AATTAACTTT TTGTTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAGATCC GTCACAGAAT ATTAAGACAC ACTGCAGTCA TTTGTACCAG CCGATCTTTG 
    AATGTACGGG CCACTGTCTG CAGAAGTAAT TCTCTTGAAG ATGAGGAGGG CAGAGGGGGC 
    AATATGTTAG TCTTTGTGGA TGTGGAAAAT ACCAATACTA GTGAAGCAGG TGTTAAGGAA 
    TTCCATATAG TACAAGTATC GAGTAGTAGC AAACACTGGA AATTCCAGAA ATCTGTAAAT 
    CTCTCTGAAA ACAAAGATGC CAAACTTGCC AGCAGGGAGA AGGGAAAATT TTGTTTTAAG 
    GCAATACGAT GTAAGGAAAA AGAAGTTGCC ACACAGTCCT CAGAAAAATA CACCTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATC AGTTCAGCAA GTCCATGTGC AGACTTCTTT 
    TATCGAAGCT TATCTTCTGA ATTAAAGAAA CCACAAGCCC AGCCGTCCGT GCATACTGAA 
    AAACAGTCAT TAGAGGATGC TGTGAGATTG ATTCAGAAGT GCAGTGAGGT GGATTTGAAT 
    ATTGTCGTAT TATGGAAGGC TTATGTAGTG GAAGATAGTA AGCAACTAAT TTTGGAAGGT 
    CAGCATCATG TTATTCTTCG CACTATAGGA AAAGAAGCAT TTTCATGTCC TCAGAAACAG 
    GAACCACCAG AAATGGAACT ATTAAAATTT TTCAGGCCAG AAAACACTAC AGTTCCTTTA 
    AGACCGTCAG TAGAGCAGCT TTCTAATCTC ATTAAAACGA GTCTTCACTA TCCAGAATCA 
    TTTAATCATC CATTTCATCA AAAAAGCCTT TGTTTAGTAC CAGTCACCCT TTTACTTTCC 
    AATTGTTCTA AGGCTGATGT TGATGTAATA GTTGATCTTC GGCATAAAAC AACAAGTCCA 
    GAAGCATTGG AAATCCATGG ATCATTTACA TGGCTTGGAC AAACACAATA TAAACTTCAG 
    CTTAAAAGCC AGGAGATTCA CAGTTTGCAG CTGAAGGCAT GCTTTGTCCA TACAGGTGTT 
    TATAACCTTG GAACACCTAG GGTATTTGCC AAGTTATCGG ACCAAGTTAC AGTGTTTGAA 
    ACGAGTCAGC AGAACTCCAT GCCTGCTCTG ATCATCATCA ATAATGTGTG A

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

    RefSeq XP_007093117.1
    CDS15..4325
    Translation

    Target ORF information:

    RefSeq Version XM_007093055.1
    Organism Panthera tigris altaica(Amur tiger)
    Definition Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007093055.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GTGTACAATC AGTGCAGGAG CTAATCCCGG ACTCCTTCGT CCCCTGTGTC 
    GCCGCGCTGT GCAGCGACGA AGCCGAGCGG CTCACTCGCC TCAATCACCT TAGCTTCGCG 
    GAGTTGCTTA AGCCCTTCTC TCGCCTCACT TCGGAGGTAC ATATGAGAGA TCCTAATAAT 
    CAACTTCACA TAATCAAAAA TCTGAAGATA GCAGTAAGCA ACATTATCAC CCAACCACCT 
    CAACCCGGAG CCATTCGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGTCA GCCTGCGGAA 
    GGATTAGTAG CTAATGTGAT TACAGCAGGA GATTATGACC TCAACATCAG TGCTACCACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTTCAGTCGA TGCCAGCATC AGATCATGAA 
    TTTCTGAACC ACTATTTAGC ATGTATGTTG GTAGCATCAT CTAGTGAAGC TGAACCTGTG 
    GAACAGTTTT CAAAGTTATC ACAAGAACAG CATCGAATTC AGCACAACAG TGACTATTCC 
    TACCCCAAGT GGTTTATACC AAATACACTT AAATATTATG TACTTTTACA TGATGTAAGT 
    GCAGGAGATG AACAGAGAGC TGAATCAATT TATGAAGAAA TGAAACAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATTAATTCT CGAACATCTA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CTTGGAGTCA GTATCTTCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT AACTTCAAAT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGATTAG ATAACGAAGT CAAAGTAGAT GGCTTACCAA ATAACTTTAG AGCTCACCCA 
    CTTCAGTTGG ACTCATCCAG TGACGCTTCT AACAGCATTG ATGGCCCAGA TCATGTAAAA 
    TCTGCTTCAT CATTACATGA AACAAAGAAA GCAAATACTG GAATTATTCA TGGTGCATGT 
    TTAACCCTTA CTGATCATGA TAGAATTCGA CAGTTTATAC AAGAGTTCAC TTTTCGGGGC 
    CTTTTGCCAC ATATAGAGAA AACAATTCGG CAATTAAATG ATCAGCTAAT ATCAAGAAAA 
    GGTTTAAGTC GATCTCTATT TTCTGCAACT AAAAAATGGT TTAGTGGCAG TAAAGTTCCA 
    GAAAAAAGCA TTAATGAGCT GAAAAATACA TCTGGATTGC TGTATCCGCC GGAAGCACCA 
    GAGCTTCAAA TCCGAAAAAT GGCTGACTTA TGCTTTTTGG TGCAGCATTA TGATTTGGCT 
    TATAGTTGCT ATCATACTGC AAAGAAAGAT TTTCTTAATG ATCAAGCAAT GCTTTATGCA 
    GCTGGTGCAT TGGAAATGGC AGCAGTGTCA GCTTTCCTTC AGCCAGGAGC GCCTAGGCCA 
    TACCCTGCGC ATTACATGGA TACAGCAATC CAGACATACA GGGATATCTG CAAGAATATG 
    GTATTGGCTG AAAGATGTGT ATTGCTTAGT GCTGAAATCT TAAAAAGCCA AAGCAAATAT 
    TCAGAGGCCG CAGCTCTCCT AATACGGTTG ACCAGTGAGG ATTCTGATCT TCGAAGTGCA 
    CTTCTTTTGG AACAGGCGGC ACATTGCTTT ATAAACATGA AGAGCCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATACT GGCAGGACAT CGGTTTAGTA AAGCAGGGCA AAAAAAGCAT 
    GCTTTACGCT GTTATTGTCA AGCCATGCAG GTTTACAAAG GAAAAGGCTG GTCTCTGGCA 
    GAGGATCACA TTAACTTCAC TATTGGGCGC CAGTCCTATA CCCTTAGGCA ACTGGACAAT 
    GCTGTGTCTG CTTTTAGGCA TATTTTAATC AATGAAAGTA AACAATCTGC TGCTCAACAA 
    GGGGCCTTCC TCAGAGAGTA TCTTTATGTT TACAAGAACG TAAGTCAGCT GTCACCAGAT 
    GGCCCTTTAC CGCAGCTACC TTTACCGTAT ATTAACAGTT CAGCCACACG GGTTTTCTTT 
    GGCCACGACA GACGACCAGC AGATGGTGAA AAGCAAGCAG CTACTCATGT AAGTCTCGAT 
    CAGGAATATG ACTCTGAATC CTCTCAGCAG TGGCGAGAAC TTGAGGAACA AGTTGTAGCT 
    GTGGTTAACA GAGGAGTAGT TCCATCCAAT TTCTACCCCA CACAATATTG TTTGAATAGT 
    TATTCAGATA ACTCAAGATT TCCACTGGCA GTTGTAGAAG AACCAATAAC AGTGGAAGTG 
    GCTTTTAGAA ATCCTTTGAA GGTTCCACTT TTGTTGACTG ATTTGTCATT GCTATGGAAG 
    TTTCAACCTA AAGATACTAG TGGAAAGGAT AATGAAGAAG TTAAAGAACT AGTAACAGGT 
    GAACCTAAAA TGATTGGAAC TGAAGTTATT TCAGAATTTT TAATTAATAG TGAAGAATCT 
    AAAGTGGCAA GACTAAAGCT CTTTCCCCAT CACATAGGGG AGCTGCATAT TCTCGGAGTT 
    GTTTATAATC TTGGCACTAT TCAGGGCTGC ATGACAGTAG ATGGCATTGG TTCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCCTTGAGT ATGTCAGTCA GAGGGAGACA AGATTTAGAA 
    ATTCAAGGTC CTCGACTTAA CAATACAAAA GAAGAGAAAA CATCTATCAA ATATGGTCCT 
    GATCGACGTT TAGATCCCAT TATCACGGAG GAAATGCCAC TGTTGGAGAT ATTCTTTATA 
    CATTTCCCTA CCGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAA GTCCTCTTAC TGGATTGAAG GTTGTTTCTA AACGTCCAGA GTTCTTTACT 
    TTTGGTGGTA ACACAGCTGT TCTAACACCA CTAAGTCCTT CAGCTTCTGA GAACTGTAGT 
    GCTTACAAGA CTGTTGCGAC AGACTCTACC GCTGTGTGTA CAGCACTCAT ATCATCGGCT 
    TCCTCTGTAG ACTTTGGCAT TGGCATAGGG AGTCAGCCAG AGGTGATTCC TGTTCCCCTT 
    CCTGACACTG TTCTTCTACC TGGAGCTTCA GTCCAGCTAC CAATGTGGTT ACGTGGGCCA 
    GATGAAGAAG GTGTCCATGA AATTAACTTT TTGTTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAGATCC GTCACAGAAT ATTAAGACAC ACTGCAGTCA TTTGTACCAG CCGATCTTTG 
    AATGTACGGG CCACTGTCTG CAGAAGTAAT TCTCTTGAAG ATGAGGAGGG CAGAGGGGGC 
    AATATGTTAG TCTTTGTGGA TGTGGAAAAT ACCAATACTA GTGAAGCAGG TGTTAAGGAA 
    TTCCATATAG TACAAGTATC GAGTAGTAGC AAACACTGGA AATTCCAGAA ATCTGTAAAT 
    CTCTCTGAAA ACAAAGATGC CAAACTTGCC AGCAGGGAGA AGGGAAAATT TTGTTTTAAG 
    GCAATACGAT GTAAGGAAAA AGAAGTTGCC ACACAGTCCT CAGAAAAATA CACCTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATC AGTTCAGCAA GTCCATGTGC AGACTTCTTT 
    TATCGAAGCT TATCTTCTGA ATTAAAGAAA CCACAAGCCC AGCCGTCCGT GCATACTGAA 
    AAACAGTCAT TAGAGGATGC TGTGAGATTG ATTCAGAAGT GCAGTGAGGT GGATTTGAAT 
    ATTGTCGTAT TATGGAAGGC TTATGTAGTG GAAGATAGTA AGCAACTAAT TTTGGAAGGT 
    CAGCATCATG TTATTCTTCG CACTATAGGA AAAGAAGCAT TTTCATGTCC TCAGAAACAG 
    GAACCACCAG AAATGGAACT ATTAAAATTT TTCAGGCCAG AAAACACTAC AGTTCCTTTA 
    AGACCGTCAG TAGAGCAGCT TTCTAATCTC ATTAAAACGA GTCTTCACTA TCCAGAATCA 
    TTTAATCATC CATTTCATCA AAAAAGCCTT TGTTTAGTAC CAGTCACCCT TTTACTTTCC 
    AATTGTTCTA AGGCTGATGT TGATGTAATA GTTGATCTTC GGCATAAAAC AACAAGTCCA 
    GAAGCATTGG AAATCCATGG ATCATTTACA TGGCTTGGAC AAACACAATA TAAACTTCAG 
    CTTAAAAGCC AGGAGATTCA CAGTTTGCAG CTGAAGGCAT GCTTTGTCCA TACAGGTGTT 
    TATAACCTTG GAACACCTAG GGTATTTGCC AAGTTATCGG ACCAAGTTAC AGTGTTTGAA 
    ACGAGTCAGC AGAACTCCAT GCCTGCTCTG ATCATCATCA ATAATGTGTG A

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

    TRAPPC8 ( XM_007093056.1 ) cDNA ORF clone, Panthera tigris altaica(Amur tiger) -> XP_007093118.1 Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPa112972
    Clone ID Related Accession (Same CDS sequence) XM_007093056.1
    Accession Version XM_007093056.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2016-02-07
    Organism Panthera tigris altaica(Amur tiger)
    Product trafficking protein particle complex subunit 8 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006712122.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Panthera tigris altaica Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GTGTACAATC AGTGCAGGAG CTAATCCCGG ACTCCTTCGT CCCCTGTGTC 
    GCCGCGCTGT GCAGCGACGA AGCCGAGCGG CTCACTCGCC TCAATCACCT TAGCTTCGCG 
    GAGTTGCTTA AGCCCTTCTC TCGCCTCACT TCGGAGGTAC ATATGAGAGA TCCTAATAAT 
    CAACTTCACA TAATCAAAAA TCTGAAGATA GCAGTAAGCA ACATTATCAC CCAACCACCT 
    CAACCCGGAG CCATTCGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGTCA GCCTGCGGAA 
    GGATTAGTAG CTAATGTGAT TACAGCAGGA GATTATGACC TCAACATCAG TGCTACCACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTTCAGTCGA TGCCAGCATC AGATCATGAA 
    TTTCTGAACC ACTATTTAGC ATGTATGTTG GTAGCATCAT CTAGTGAAGC TGAACCTGTG 
    GAACAGTTTT CAAAGTTATC ACAAGAACAG CATCGAATTC AGCACAACAG TGACTATTCC 
    TACCCCAAGT GGTTTATACC AAATACACTT AAATATTATG TACTTTTACA TGATGTAAGT 
    GCAGGAGATG AACAGAGAGC TGAATCAATT TATGAAGAAA TGAAACAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATTAATTCT CGAACATCTA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CTTGGAGTCA GTATCTTCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT AACTTCAAAT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGATTAG ATAACGAAGT CAAAGATGGC TTACCAAATA ACTTTAGAGC TCACCCACTT 
    CAGTTGGACT CATCCAGTGA CGCTTCTAAC AGCATTGATG GCCCAGATCA TGTAAAATCT 
    GCTTCATCAT TACATGAAAC AAAGAAAGCA AATACTGGAA TTATTCATGG TGCATGTTTA 
    ACCCTTACTG ATCATGATAG AATTCGACAG TTTATACAAG AGTTCACTTT TCGGGGCCTT 
    TTGCCACATA TAGAGAAAAC AATTCGGCAA TTAAATGATC AGCTAATATC AAGAAAAGGT 
    TTAAGTCGAT CTCTATTTTC TGCAACTAAA AAATGGTTTA GTGGCAGTAA AGTTCCAGAA 
    AAAAGCATTA ATGAGCTGAA AAATACATCT GGATTGCTGT ATCCGCCGGA AGCACCAGAG 
    CTTCAAATCC GAAAAATGGC TGACTTATGC TTTTTGGTGC AGCATTATGA TTTGGCTTAT 
    AGTTGCTATC ATACTGCAAA GAAAGATTTT CTTAATGATC AAGCAATGCT TTATGCAGCT 
    GGTGCATTGG AAATGGCAGC AGTGTCAGCT TTCCTTCAGC CAGGAGCGCC TAGGCCATAC 
    CCTGCGCATT ACATGGATAC AGCAATCCAG ACATACAGGG ATATCTGCAA GAATATGGTA 
    TTGGCTGAAA GATGTGTATT GCTTAGTGCT GAAATCTTAA AAAGCCAAAG CAAATATTCA 
    GAGGCCGCAG CTCTCCTAAT ACGGTTGACC AGTGAGGATT CTGATCTTCG AAGTGCACTT 
    CTTTTGGAAC AGGCGGCACA TTGCTTTATA AACATGAAGA GCCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATACTGGC AGGACATCGG TTTAGTAAAG CAGGGCAAAA AAAGCATGCT 
    TTACGCTGTT ATTGTCAAGC CATGCAGGTT TACAAAGGAA AAGGCTGGTC TCTGGCAGAG 
    GATCACATTA ACTTCACTAT TGGGCGCCAG TCCTATACCC TTAGGCAACT GGACAATGCT 
    GTGTCTGCTT TTAGGCATAT TTTAATCAAT GAAAGTAAAC AATCTGCTGC TCAACAAGGG 
    GCCTTCCTCA GAGAGTATCT TTATGTTTAC AAGAACGTAA GTCAGCTGTC ACCAGATGGC 
    CCTTTACCGC AGCTACCTTT ACCGTATATT AACAGTTCAG CCACACGGGT TTTCTTTGGC 
    CACGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCAGCTA CTCATGTAAG TCTCGATCAG 
    GAATATGACT CTGAATCCTC TCAGCAGTGG CGAGAACTTG AGGAACAAGT TGTAGCTGTG 
    GTTAACAGAG GAGTAGTTCC ATCCAATTTC TACCCCACAC AATATTGTTT GAATAGTTAT 
    TCAGATAACT CAAGATTTCC ACTGGCAGTT GTAGAAGAAC CAATAACAGT GGAAGTGGCT 
    TTTAGAAATC CTTTGAAGGT TCCACTTTTG TTGACTGATT TGTCATTGCT ATGGAAGTTT 
    CAACCTAAAG ATACTAGTGG AAAGGATAAT GAAGAAGTTA AAGAACTAGT AACAGGTGAA 
    CCTAAAATGA TTGGAACTGA AGTTATTTCA GAATTTTTAA TTAATAGTGA AGAATCTAAA 
    GTGGCAAGAC TAAAGCTCTT TCCCCATCAC ATAGGGGAGC TGCATATTCT CGGAGTTGTT 
    TATAATCTTG GCACTATTCA GGGCTGCATG ACAGTAGATG GCATTGGTTC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC CTTGAGTATG TCAGTCAGAG GGAGACAAGA TTTAGAAATT 
    CAAGGTCCTC GACTTAACAA TACAAAAGAA GAGAAAACAT CTATCAAATA TGGTCCTGAT 
    CGACGTTTAG ATCCCATTAT CACGGAGGAA ATGCCACTGT TGGAGATATT CTTTATACAT 
    TTCCCTACCG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAAAGTC CTCTTACTGG ATTGAAGGTT GTTTCTAAAC GTCCAGAGTT CTTTACTTTT 
    GGTGGTAACA CAGCTGTTCT AACACCACTA AGTCCTTCAG CTTCTGAGAA CTGTAGTGCT 
    TACAAGACTG TTGCGACAGA CTCTACCGCT GTGTGTACAG CACTCATATC ATCGGCTTCC 
    TCTGTAGACT TTGGCATTGG CATAGGGAGT CAGCCAGAGG TGATTCCTGT TCCCCTTCCT 
    GACACTGTTC TTCTACCTGG AGCTTCAGTC CAGCTACCAA TGTGGTTACG TGGGCCAGAT 
    GAAGAAGGTG TCCATGAAAT TAACTTTTTG TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAGATCCGTC ACAGAATATT AAGACACACT GCAGTCATTT GTACCAGCCG ATCTTTGAAT 
    GTACGGGCCA CTGTCTGCAG AAGTAATTCT CTTGAAGATG AGGAGGGCAG AGGGGGCAAT 
    ATGTTAGTCT TTGTGGATGT GGAAAATACC AATACTAGTG AAGCAGGTGT TAAGGAATTC 
    CATATAGTAC AAGTATCGAG TAGTAGCAAA CACTGGAAAT TCCAGAAATC TGTAAATCTC 
    TCTGAAAACA AAGATGCCAA ACTTGCCAGC AGGGAGAAGG GAAAATTTTG TTTTAAGGCA 
    ATACGATGTA AGGAAAAAGA AGTTGCCACA CAGTCCTCAG AAAAATACAC CTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATCAGT TCAGCAAGTC CATGTGCAGA CTTCTTTTAT 
    CGAAGCTTAT CTTCTGAATT AAAGAAACCA CAAGCCCAGC CGTCCGTGCA TACTGAAAAA 
    CAGTCATTAG AGGATGCTGT GAGATTGATT CAGAAGTGCA GTGAGGTGGA TTTGAATATT 
    GTCGTATTAT GGAAGGCTTA TGTAGTGGAA GATAGTAAGC AACTAATTTT GGAAGGTCAG 
    CATCATGTTA TTCTTCGCAC TATAGGAAAA GAAGCATTTT CATGTCCTCA GAAACAGGAA 
    CCACCAGAAA TGGAACTATT AAAATTTTTC AGGCCAGAAA ACACTACAGT TCCTTTAAGA 
    CCGTCAGTAG AGCAGCTTTC TAATCTCATT AAAACGAGTC TTCACTATCC AGAATCATTT 
    AATCATCCAT TTCATCAAAA AAGCCTTTGT TTAGTACCAG TCACCCTTTT ACTTTCCAAT 
    TGTTCTAAGG CTGATGTTGA TGTAATAGTT GATCTTCGGC ATAAAACAAC AAGTCCAGAA 
    GCATTGGAAA TCCATGGATC ATTTACATGG CTTGGACAAA CACAATATAA ACTTCAGCTT 
    AAAAGCCAGG AGATTCACAG TTTGCAGCTG AAGGCATGCT TTGTCCATAC AGGTGTTTAT 
    AACCTTGGAA CACCTAGGGT ATTTGCCAAG TTATCGGACC AAGTTACAGT GTTTGAAACG 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATC ATCATCAATA ATGTGTGA

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

    RefSeq XP_007093118.1
    CDS15..4322
    Translation

    Target ORF information:

    RefSeq Version XM_007093056.1
    Organism Panthera tigris altaica(Amur tiger)
    Definition Panthera tigris altaica trafficking protein particle complex 8 (TRAPPC8), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007093056.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GTGTACAATC AGTGCAGGAG CTAATCCCGG ACTCCTTCGT CCCCTGTGTC 
    GCCGCGCTGT GCAGCGACGA AGCCGAGCGG CTCACTCGCC TCAATCACCT TAGCTTCGCG 
    GAGTTGCTTA AGCCCTTCTC TCGCCTCACT TCGGAGGTAC ATATGAGAGA TCCTAATAAT 
    CAACTTCACA TAATCAAAAA TCTGAAGATA GCAGTAAGCA ACATTATCAC CCAACCACCT 
    CAACCCGGAG CCATTCGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGTCA GCCTGCGGAA 
    GGATTAGTAG CTAATGTGAT TACAGCAGGA GATTATGACC TCAACATCAG TGCTACCACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTTCAGTCGA TGCCAGCATC AGATCATGAA 
    TTTCTGAACC ACTATTTAGC ATGTATGTTG GTAGCATCAT CTAGTGAAGC TGAACCTGTG 
    GAACAGTTTT CAAAGTTATC ACAAGAACAG CATCGAATTC AGCACAACAG TGACTATTCC 
    TACCCCAAGT GGTTTATACC AAATACACTT AAATATTATG TACTTTTACA TGATGTAAGT 
    GCAGGAGATG AACAGAGAGC TGAATCAATT TATGAAGAAA TGAAACAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATTAATTCT CGAACATCTA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CTTGGAGTCA GTATCTTCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT AACTTCAAAT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGATTAG ATAACGAAGT CAAAGATGGC TTACCAAATA ACTTTAGAGC TCACCCACTT 
    CAGTTGGACT CATCCAGTGA CGCTTCTAAC AGCATTGATG GCCCAGATCA TGTAAAATCT 
    GCTTCATCAT TACATGAAAC AAAGAAAGCA AATACTGGAA TTATTCATGG TGCATGTTTA 
    ACCCTTACTG ATCATGATAG AATTCGACAG TTTATACAAG AGTTCACTTT TCGGGGCCTT 
    TTGCCACATA TAGAGAAAAC AATTCGGCAA TTAAATGATC AGCTAATATC AAGAAAAGGT 
    TTAAGTCGAT CTCTATTTTC TGCAACTAAA AAATGGTTTA GTGGCAGTAA AGTTCCAGAA 
    AAAAGCATTA ATGAGCTGAA AAATACATCT GGATTGCTGT ATCCGCCGGA AGCACCAGAG 
    CTTCAAATCC GAAAAATGGC TGACTTATGC TTTTTGGTGC AGCATTATGA TTTGGCTTAT 
    AGTTGCTATC ATACTGCAAA GAAAGATTTT CTTAATGATC AAGCAATGCT TTATGCAGCT 
    GGTGCATTGG AAATGGCAGC AGTGTCAGCT TTCCTTCAGC CAGGAGCGCC TAGGCCATAC 
    CCTGCGCATT ACATGGATAC AGCAATCCAG ACATACAGGG ATATCTGCAA GAATATGGTA 
    TTGGCTGAAA GATGTGTATT GCTTAGTGCT GAAATCTTAA AAAGCCAAAG CAAATATTCA 
    GAGGCCGCAG CTCTCCTAAT ACGGTTGACC AGTGAGGATT CTGATCTTCG AAGTGCACTT 
    CTTTTGGAAC AGGCGGCACA TTGCTTTATA AACATGAAGA GCCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATACTGGC AGGACATCGG TTTAGTAAAG CAGGGCAAAA AAAGCATGCT 
    TTACGCTGTT ATTGTCAAGC CATGCAGGTT TACAAAGGAA AAGGCTGGTC TCTGGCAGAG 
    GATCACATTA ACTTCACTAT TGGGCGCCAG TCCTATACCC TTAGGCAACT GGACAATGCT 
    GTGTCTGCTT TTAGGCATAT TTTAATCAAT GAAAGTAAAC AATCTGCTGC TCAACAAGGG 
    GCCTTCCTCA GAGAGTATCT TTATGTTTAC AAGAACGTAA GTCAGCTGTC ACCAGATGGC 
    CCTTTACCGC AGCTACCTTT ACCGTATATT AACAGTTCAG CCACACGGGT TTTCTTTGGC 
    CACGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCAGCTA CTCATGTAAG TCTCGATCAG 
    GAATATGACT CTGAATCCTC TCAGCAGTGG CGAGAACTTG AGGAACAAGT TGTAGCTGTG 
    GTTAACAGAG GAGTAGTTCC ATCCAATTTC TACCCCACAC AATATTGTTT GAATAGTTAT 
    TCAGATAACT CAAGATTTCC ACTGGCAGTT GTAGAAGAAC CAATAACAGT GGAAGTGGCT 
    TTTAGAAATC CTTTGAAGGT TCCACTTTTG TTGACTGATT TGTCATTGCT ATGGAAGTTT 
    CAACCTAAAG ATACTAGTGG AAAGGATAAT GAAGAAGTTA AAGAACTAGT AACAGGTGAA 
    CCTAAAATGA TTGGAACTGA AGTTATTTCA GAATTTTTAA TTAATAGTGA AGAATCTAAA 
    GTGGCAAGAC TAAAGCTCTT TCCCCATCAC ATAGGGGAGC TGCATATTCT CGGAGTTGTT 
    TATAATCTTG GCACTATTCA GGGCTGCATG ACAGTAGATG GCATTGGTTC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC CTTGAGTATG TCAGTCAGAG GGAGACAAGA TTTAGAAATT 
    CAAGGTCCTC GACTTAACAA TACAAAAGAA GAGAAAACAT CTATCAAATA TGGTCCTGAT 
    CGACGTTTAG ATCCCATTAT CACGGAGGAA ATGCCACTGT TGGAGATATT CTTTATACAT 
    TTCCCTACCG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAAAGTC CTCTTACTGG ATTGAAGGTT GTTTCTAAAC GTCCAGAGTT CTTTACTTTT 
    GGTGGTAACA CAGCTGTTCT AACACCACTA AGTCCTTCAG CTTCTGAGAA CTGTAGTGCT 
    TACAAGACTG TTGCGACAGA CTCTACCGCT GTGTGTACAG CACTCATATC ATCGGCTTCC 
    TCTGTAGACT TTGGCATTGG CATAGGGAGT CAGCCAGAGG TGATTCCTGT TCCCCTTCCT 
    GACACTGTTC TTCTACCTGG AGCTTCAGTC CAGCTACCAA TGTGGTTACG TGGGCCAGAT 
    GAAGAAGGTG TCCATGAAAT TAACTTTTTG TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAGATCCGTC ACAGAATATT AAGACACACT GCAGTCATTT GTACCAGCCG ATCTTTGAAT 
    GTACGGGCCA CTGTCTGCAG AAGTAATTCT CTTGAAGATG AGGAGGGCAG AGGGGGCAAT 
    ATGTTAGTCT TTGTGGATGT GGAAAATACC AATACTAGTG AAGCAGGTGT TAAGGAATTC 
    CATATAGTAC AAGTATCGAG TAGTAGCAAA CACTGGAAAT TCCAGAAATC TGTAAATCTC 
    TCTGAAAACA AAGATGCCAA ACTTGCCAGC AGGGAGAAGG GAAAATTTTG TTTTAAGGCA 
    ATACGATGTA AGGAAAAAGA AGTTGCCACA CAGTCCTCAG AAAAATACAC CTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATCAGT TCAGCAAGTC CATGTGCAGA CTTCTTTTAT 
    CGAAGCTTAT CTTCTGAATT AAAGAAACCA CAAGCCCAGC CGTCCGTGCA TACTGAAAAA 
    CAGTCATTAG AGGATGCTGT GAGATTGATT CAGAAGTGCA GTGAGGTGGA TTTGAATATT 
    GTCGTATTAT GGAAGGCTTA TGTAGTGGAA GATAGTAAGC AACTAATTTT GGAAGGTCAG 
    CATCATGTTA TTCTTCGCAC TATAGGAAAA GAAGCATTTT CATGTCCTCA GAAACAGGAA 
    CCACCAGAAA TGGAACTATT AAAATTTTTC AGGCCAGAAA ACACTACAGT TCCTTTAAGA 
    CCGTCAGTAG AGCAGCTTTC TAATCTCATT AAAACGAGTC TTCACTATCC AGAATCATTT 
    AATCATCCAT TTCATCAAAA AAGCCTTTGT TTAGTACCAG TCACCCTTTT ACTTTCCAAT 
    TGTTCTAAGG CTGATGTTGA TGTAATAGTT GATCTTCGGC ATAAAACAAC AAGTCCAGAA 
    GCATTGGAAA TCCATGGATC ATTTACATGG CTTGGACAAA CACAATATAA ACTTCAGCTT 
    AAAAGCCAGG AGATTCACAG TTTGCAGCTG AAGGCATGCT TTGTCCATAC AGGTGTTTAT 
    AACCTTGGAA CACCTAGGGT ATTTGCCAAG TTATCGGACC AAGTTACAGT GTTTGAAACG 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATC ATCATCAATA ATGTGTGA

    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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