ORF » Species Summary » Mus caroli » Trappc8 cDNA ORF clone

Trappc8 cDNA ORF clone, Mus caroli(Ryukyu mouse)

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
OMv35668 XM_021150454.2
Latest version!		 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35669 XM_021150455.2
Latest version!		 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35670 XM_021150457.2
Latest version!		 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35671 XM_021150458.2
Latest version!		 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv70618 XM_029471852.1
Latest version!		 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OMv35671 XM_021150458.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35668 XM_021150454.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35669 XM_021150455.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv35670 XM_021150457.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

  • Reference Sequences (Refseq)
    Trappc8 ( XM_021150454.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006113.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv35668
    Clone ID Related Accession (Same CDS sequence) XM_021150454.1 , XM_021150454.2
    Accession Version XM_021150454.1 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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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 (NC_034587.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGTAGAT GGCCTACCAA ATAACTTCAG AATTCATCCA 
    CTTCAAATAG ACCAATGCGG TGACCCTCCT AACAATACCG ACGGCTCAGA TTATGCAAAG 
    GCTGCTTCTT CAGTGCACGA GGCAAAGAAA GCAAGTACCA TAGTGATTCG TGGTGCTTGC 
    TTAACACTTA CTGATCATGA TAGAATCCGA CAGTTTATAC AAGAGTTTAC ATTCCGTGGC 
    CTTTTGCCAC ACATAGAGAA AACAATTCGT CAGTTAAACG ATCAGCTAAT ATCAAGGAAA 
    GGTTTGAGTC GATCTCTGTT TTCTGCCACT AAGAAATGGT TTAGTGGTAG TAAAGTTCCA 
    GAAAAGAGCA TTAATGAGCT GAAGAATACA TCTGGGTTGT TGTATCCGCC AGAAGCACCT 
    GAGCTTCAGA TCAGGAAGAT GGCTGACTTG TGCTTTTTGG TGCAACATTA TGATTTGGCT 
    TACAGTTGTT ATCACACTGC AAAGAAGGAT TTTCTTAACG ATCAAGCAAT GCTTTATGCA 
    GCAGGTGCCT TGGAAATGGC AGCAGTGTCA GCCTTTCTTC AGCCAGGAGC TCCTAGGCCA 
    TACCCTGCTC ATTACATGGA CACAGCAATT CAGACATACA GGGATATCTG CAAGAATATG 
    GTGTTGGCTG AAAGATGCGT GTTGCTTAGT GCTGAAATTT TAAAAAGTCA AAGCAAGTAC 
    TCAGAGGCTG CAGCTCTTCT AATACGATTG ACAAGTGAGG ATTCTGATCT CCGAAGTGCC 
    CTTCTTTTGG AACAGGCTGC ACATTGCTTC ATAAACATGA AGAGTCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATCCT GGCAGGCCAC CGTTTCAGTA AAGCAGGGCA GAAAAAGCAT 
    GCTTTGCGCT GCTATTGTCA AGCCATGCAA GTTTACAAAG GAAAGGGCTG GTCTCTAGCA 
    GAGGATCACA TCAACTTCAC CATTGGGCGC CAGTCCTATA CTCTGAGGCA GCTGGACAAT 
    GCTGTTTCTG CTTTTAGACA CATTTTAATC AATGAAAGCA AACAGTCTGC TGCTCAGCAA 
    GGAGCCTTCC TCAGAGAATA TCTTTATGTT TATAAGAATG TAAATCAGCT GTCACCAGAT 
    GGCCCTTTAC CACAGCTTCC CTTACCATAC ATTAACAGTT CAGCAACACG AGTTTTCTTT 
    GGCCATGACA GACGACCAGC AGATGGTGAA AAGCAAGCGG CTACTCATAT AAGTCTTGAT 
    CAAGAATATG ACTCTGAGTC ATCCCAGCAG TGGCGAGAAC TTGAGGAACA TGTTGTGGCT 
    GTGGCTAATA AAGGAGTAAT TCCATCTAGT TTCTATCCTA CACAGTATTG TTTGAACAGT 
    TACTCCGATA ACTCCAGATT TCCACTTGCA GTTGTAGAAG AGCCAATTAC TGTGGAAGTG 
    GCTTTTAGAA ACCCTTTAAA AGTTCCGCTT TTGCTGTCTG ATTTGTCATT ACTCTGGAAG 
    TTTCAGCCTA AAGATGCCAG TGGGAAAGAC ATTGAAAAAG TGAAAGAACG AGTTACAGGT 
    GAACCTGAAA TGATTGGAAC TGAAGTTATT TCAGAATTCT TAATTAACAG TGAAGAATCT 
    AAAGTGGCAA GACTGAAGCT CTTCCCCCAC CACACAGGGG AGCTGCACAT TCTGGGAGTT 
    GTGTATAGTC TTGGCACTAT TCAGGGCTCC GTGACAGTAG ATGGCATTGG TGCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCTCTGAGT ATGTCAGTAC GAGGGAGACA GGATTTAGAA 
    ATTCAAGGCC CTCGACTTAA CAATACAAAG GAAGAGAAGA CGTCTGTAAA GTACGGTCCT 
    GACCGACGTT TAGATCCTAT AGTCACAGAG GAGATGCCGC TGCTGGAGGT GTTCTTTATA 
    CATTTTCCTA CAGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAT GTCCTCTGAC TGGACTGAAA GTTGTGTCTA AACGTCCAGA GTTCTTCACT 
    TTTGGTGGCA ATACTGCTGC TCTAACACCG CTGAGCCCCT CTGCATCTGA GAACTGCAGT 
    GCCTATAAGA CGGTTGTAAC AGCTTCCCCC TCCTTGGGGA CAGCACTTGT GTCAACAGCA 
    TCATCTATGG ACTTTGGAAC TGGCACTGGA CAGCAGCTGG AGGCCATTCC TGTCCCCCTT 
    CCTGACTCCG TGCTGCTTCC CGGAGCTTCC ATCCAGCTGC CAATGTGGCT TCGTGGGCCA 
    GATGAAGAGG GTGTCCATGA AATTAACTTT TTATTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAAAAAC GACACAGAAT ATTAAGACAC ACTGCAGTTA TTTGTACTAG CCGGTCTTTG 
    AATGTGCGAG CGACTGTCTG CAGAAGTAAT TCACTTGAAG ATGAAGAAGG CAGGGGCGGC 
    AATATGCTAG TCTTCGTGGA TGTAGAAAAT ACTAATACTA GTGAAGCGGG GGTTAAGGAG 
    TTCCACATGG TGCAGGTGTC AAGCAGTAGC AAGCACTGGC AGCTCCACAA ATCCGTGAAT 
    ATCTCCGAAA ACAAAGATGC CAAGCTTGCC AGTAGGGAGA AGGGAAAGTT TTGCTTCAAG 
    GCAGTAAGAT GTAAACAAAA AGAAGGTGGT ATACAGTCCT CAGAAAAATA CACTTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATA AGTTCAGCAA GTCCGTGTGC AGATTTCTTT 
    TACCGAAGTT TATCCTCAGA GTTGAAGAAA ACACAAGATC AGCTTTCCAC ATATTCAGAG 
    AAACAGGCCA CAGAGGGTGC TGTGAGGCTG ATTGAGAAGT GCAGTGAGGT GGACCTGAGC 
    ATCATCATCC TGTGGAAGGC ATACGTTGTA GAAGATAACA AGCAGCTTAT TTTAGAAGGC 
    CAGCATCACG TTGTTGTTCG CACTGTTGGG AAAGAAGCCT TTTCACACTC TCAGAAAGAG 
    GAGCCACCAG AAATGGAACT ATTAAAGTTT TTCAGGCCAG AAAACACTAC AGTTTCCACA 
    AGACCATCAG TAGATCAGCT TTCTAATCTC ATTAAAACAA GTCTCCACTA TCCGGAGTCA 
    TTTCACCATC CATTTCATCA GAAAAGCCTT TGCTTAGTCC CAGTCACCCT TTTACTTTCT 
    AACTGTTCTA AGGCTGATGT AGATGTAATA GTTGATCTCC GGCATAAAAC AACAAGTCCC 
    GAGGCACTGG AAACTCACGG ATCATTCACG TGGCTTGGAC AGACACAGTA TAAGCTCCAG 
    CTGAAAAGCC AAGAGATGCA CAGTTTGCAG CTGAAGGCAT GCTTTGTTCA TACAGGCGTT 
    TATAACCTTG GAACTCCAAG AGTATTCGCC AAGTTATCGG ATCACGTTAC AGTATTTGAA 
    ACAAGTCAGC AGAACTCCAT GCCTGCTCTG ATTATCATCA ATAACGCGTG A

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

    RefSeq XP_021006113.1
    CDS6..4316
    Translation

    Target ORF information:

    RefSeq Version XM_021150454.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021150454.1

    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 GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGTAGAT GGCCTACCAA ATAACTTCAG AATTCATCCA 
    CTTCAAATAG ACCAATGCGG TGACCCTCCT AACAATACCG ACGGCTCAGA TTATGCAAAG 
    GCTGCTTCTT CAGTGCACGA GGCAAAGAAA GCAAGTACCA TAGTGATTCG TGGTGCTTGC 
    TTAACACTTA CTGATCATGA TAGAATCCGA CAGTTTATAC AAGAGTTTAC ATTCCGTGGC 
    CTTTTGCCAC ACATAGAGAA AACAATTCGT CAGTTAAACG ATCAGCTAAT ATCAAGGAAA 
    GGTTTGAGTC GATCTCTGTT TTCTGCCACT AAGAAATGGT TTAGTGGTAG TAAAGTTCCA 
    GAAAAGAGCA TTAATGAGCT GAAGAATACA TCTGGGTTGT TGTATCCGCC AGAAGCACCT 
    GAGCTTCAGA TCAGGAAGAT GGCTGACTTG TGCTTTTTGG TGCAACATTA TGATTTGGCT 
    TACAGTTGTT ATCACACTGC AAAGAAGGAT TTTCTTAACG ATCAAGCAAT GCTTTATGCA 
    GCAGGTGCCT TGGAAATGGC AGCAGTGTCA GCCTTTCTTC AGCCAGGAGC TCCTAGGCCA 
    TACCCTGCTC ATTACATGGA CACAGCAATT CAGACATACA GGGATATCTG CAAGAATATG 
    GTGTTGGCTG AAAGATGCGT GTTGCTTAGT GCTGAAATTT TAAAAAGTCA AAGCAAGTAC 
    TCAGAGGCTG CAGCTCTTCT AATACGATTG ACAAGTGAGG ATTCTGATCT CCGAAGTGCC 
    CTTCTTTTGG AACAGGCTGC ACATTGCTTC ATAAACATGA AGAGTCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATCCT GGCAGGCCAC CGTTTCAGTA AAGCAGGGCA GAAAAAGCAT 
    GCTTTGCGCT GCTATTGTCA AGCCATGCAA GTTTACAAAG GAAAGGGCTG GTCTCTAGCA 
    GAGGATCACA TCAACTTCAC CATTGGGCGC CAGTCCTATA CTCTGAGGCA GCTGGACAAT 
    GCTGTTTCTG CTTTTAGACA CATTTTAATC AATGAAAGCA AACAGTCTGC TGCTCAGCAA 
    GGAGCCTTCC TCAGAGAATA TCTTTATGTT TATAAGAATG TAAATCAGCT GTCACCAGAT 
    GGCCCTTTAC CACAGCTTCC CTTACCATAC ATTAACAGTT CAGCAACACG AGTTTTCTTT 
    GGCCATGACA GACGACCAGC AGATGGTGAA AAGCAAGCGG CTACTCATAT AAGTCTTGAT 
    CAAGAATATG ACTCTGAGTC ATCCCAGCAG TGGCGAGAAC TTGAGGAACA TGTTGTGGCT 
    GTGGCTAATA AAGGAGTAAT TCCATCTAGT TTCTATCCTA CACAGTATTG TTTGAACAGT 
    TACTCCGATA ACTCCAGATT TCCACTTGCA GTTGTAGAAG AGCCAATTAC TGTGGAAGTG 
    GCTTTTAGAA ACCCTTTAAA AGTTCCGCTT TTGCTGTCTG ATTTGTCATT ACTCTGGAAG 
    TTTCAGCCTA AAGATGCCAG TGGGAAAGAC ATTGAAAAAG TGAAAGAACG AGTTACAGGT 
    GAACCTGAAA TGATTGGAAC TGAAGTTATT TCAGAATTCT TAATTAACAG TGAAGAATCT 
    AAAGTGGCAA GACTGAAGCT CTTCCCCCAC CACACAGGGG AGCTGCACAT TCTGGGAGTT 
    GTGTATAGTC TTGGCACTAT TCAGGGCTCC GTGACAGTAG ATGGCATTGG TGCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCTCTGAGT ATGTCAGTAC GAGGGAGACA GGATTTAGAA 
    ATTCAAGGCC CTCGACTTAA CAATACAAAG GAAGAGAAGA CGTCTGTAAA GTACGGTCCT 
    GACCGACGTT TAGATCCTAT AGTCACAGAG GAGATGCCGC TGCTGGAGGT GTTCTTTATA 
    CATTTTCCTA CAGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAT GTCCTCTGAC TGGACTGAAA GTTGTGTCTA AACGTCCAGA GTTCTTCACT 
    TTTGGTGGCA ATACTGCTGC TCTAACACCG CTGAGCCCCT CTGCATCTGA GAACTGCAGT 
    GCCTATAAGA CGGTTGTAAC AGCTTCCCCC TCCTTGGGGA CAGCACTTGT GTCAACAGCA 
    TCATCTATGG ACTTTGGAAC TGGCACTGGA CAGCAGCTGG AGGCCATTCC TGTCCCCCTT 
    CCTGACTCCG TGCTGCTTCC CGGAGCTTCC ATCCAGCTGC CAATGTGGCT TCGTGGGCCA 
    GATGAAGAGG GTGTCCATGA AATTAACTTT TTATTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAAAAAC GACACAGAAT ATTAAGACAC ACTGCAGTTA TTTGTACTAG CCGGTCTTTG 
    AATGTGCGAG CGACTGTCTG CAGAAGTAAT TCACTTGAAG ATGAAGAAGG CAGGGGCGGC 
    AATATGCTAG TCTTCGTGGA TGTAGAAAAT ACTAATACTA GTGAAGCGGG GGTTAAGGAG 
    TTCCACATGG TGCAGGTGTC AAGCAGTAGC AAGCACTGGC AGCTCCACAA ATCCGTGAAT 
    ATCTCCGAAA ACAAAGATGC CAAGCTTGCC AGTAGGGAGA AGGGAAAGTT TTGCTTCAAG 
    GCAGTAAGAT GTAAACAAAA AGAAGGTGGT ATACAGTCCT CAGAAAAATA CACTTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATA AGTTCAGCAA GTCCGTGTGC AGATTTCTTT 
    TACCGAAGTT TATCCTCAGA GTTGAAGAAA ACACAAGATC AGCTTTCCAC ATATTCAGAG 
    AAACAGGCCA CAGAGGGTGC TGTGAGGCTG ATTGAGAAGT GCAGTGAGGT GGACCTGAGC 
    ATCATCATCC TGTGGAAGGC ATACGTTGTA GAAGATAACA AGCAGCTTAT TTTAGAAGGC 
    CAGCATCACG TTGTTGTTCG CACTGTTGGG AAAGAAGCCT TTTCACACTC TCAGAAAGAG 
    GAGCCACCAG AAATGGAACT ATTAAAGTTT TTCAGGCCAG AAAACACTAC AGTTTCCACA 
    AGACCATCAG TAGATCAGCT TTCTAATCTC ATTAAAACAA GTCTCCACTA TCCGGAGTCA 
    TTTCACCATC CATTTCATCA GAAAAGCCTT TGCTTAGTCC CAGTCACCCT TTTACTTTCT 
    AACTGTTCTA AGGCTGATGT AGATGTAATA GTTGATCTCC GGCATAAAAC AACAAGTCCC 
    GAGGCACTGG AAACTCACGG ATCATTCACG TGGCTTGGAC AGACACAGTA TAAGCTCCAG 
    CTGAAAAGCC AAGAGATGCA CAGTTTGCAG CTGAAGGCAT GCTTTGTTCA TACAGGCGTT 
    TATAACCTTG GAACTCCAAG AGTATTCGCC AAGTTATCGG ATCACGTTAC AGTATTTGAA 
    ACAAGTCAGC AGAACTCCAT GCCTGCTCTG ATTATCATCA ATAACGCGTG A

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

    Trappc8 ( XM_021150454.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006113.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv35668
    Clone ID Related Accession (Same CDS sequence) XM_021150454.1 , XM_021150454.2
    Accession Version XM_021150454.2 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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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 (NC_034587.1) 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_021150454.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGTAGAT GGCCTACCAA ATAACTTCAG AATTCATCCA 
    CTTCAAATAG ACCAATGCGG TGACCCTCCT AACAATACCG ACGGCTCAGA TTATGCAAAG 
    GCTGCTTCTT CAGTGCACGA GGCAAAGAAA GCAAGTACCA TAGTGATTCG TGGTGCTTGC 
    TTAACACTTA CTGATCATGA TAGAATCCGA CAGTTTATAC AAGAGTTTAC ATTCCGTGGC 
    CTTTTGCCAC ACATAGAGAA AACAATTCGT CAGTTAAACG ATCAGCTAAT ATCAAGGAAA 
    GGTTTGAGTC GATCTCTGTT TTCTGCCACT AAGAAATGGT TTAGTGGTAG TAAAGTTCCA 
    GAAAAGAGCA TTAATGAGCT GAAGAATACA TCTGGGTTGT TGTATCCGCC AGAAGCACCT 
    GAGCTTCAGA TCAGGAAGAT GGCTGACTTG TGCTTTTTGG TGCAACATTA TGATTTGGCT 
    TACAGTTGTT ATCACACTGC AAAGAAGGAT TTTCTTAACG ATCAAGCAAT GCTTTATGCA 
    GCAGGTGCCT TGGAAATGGC AGCAGTGTCA GCCTTTCTTC AGCCAGGAGC TCCTAGGCCA 
    TACCCTGCTC ATTACATGGA CACAGCAATT CAGACATACA GGGATATCTG CAAGAATATG 
    GTGTTGGCTG AAAGATGCGT GTTGCTTAGT GCTGAAATTT TAAAAAGTCA AAGCAAGTAC 
    TCAGAGGCTG CAGCTCTTCT AATACGATTG ACAAGTGAGG ATTCTGATCT CCGAAGTGCC 
    CTTCTTTTGG AACAGGCTGC ACATTGCTTC ATAAACATGA AGAGTCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATCCT GGCAGGCCAC CGTTTCAGTA AAGCAGGGCA GAAAAAGCAT 
    GCTTTGCGCT GCTATTGTCA AGCCATGCAA GTTTACAAAG GAAAGGGCTG GTCTCTAGCA 
    GAGGATCACA TCAACTTCAC CATTGGGCGC CAGTCCTATA CTCTGAGGCA GCTGGACAAT 
    GCTGTTTCTG CTTTTAGACA CATTTTAATC AATGAAAGCA AACAGTCTGC TGCTCAGCAA 
    GGAGCCTTCC TCAGAGAATA TCTTTATGTT TATAAGAATG TAAATCAGCT GTCACCAGAT 
    GGCCCTTTAC CACAGCTTCC CTTACCATAC ATTAACAGTT CAGCAACACG AGTTTTCTTT 
    GGCCATGACA GACGACCAGC AGATGGTGAA AAGCAAGCGG CTACTCATAT AAGTCTTGAT 
    CAAGAATATG ACTCTGAGTC ATCCCAGCAG TGGCGAGAAC TTGAGGAACA TGTTGTGGCT 
    GTGGCTAATA AAGGAGTAAT TCCATCTAGT TTCTATCCTA CACAGTATTG TTTGAACAGT 
    TACTCCGATA ACTCCAGATT TCCACTTGCA GTTGTAGAAG AGCCAATTAC TGTGGAAGTG 
    GCTTTTAGAA ACCCTTTAAA AGTTCCGCTT TTGCTGTCTG ATTTGTCATT ACTCTGGAAG 
    TTTCAGCCTA AAGATGCCAG TGGGAAAGAC ATTGAAAAAG TGAAAGAACG AGTTACAGGT 
    GAACCTGAAA TGATTGGAAC TGAAGTTATT TCAGAATTCT TAATTAACAG TGAAGAATCT 
    AAAGTGGCAA GACTGAAGCT CTTCCCCCAC CACACAGGGG AGCTGCACAT TCTGGGAGTT 
    GTGTATAGTC TTGGCACTAT TCAGGGCTCC GTGACAGTAG ATGGCATTGG TGCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCTCTGAGT ATGTCAGTAC GAGGGAGACA GGATTTAGAA 
    ATTCAAGGCC CTCGACTTAA CAATACAAAG GAAGAGAAGA CGTCTGTAAA GTACGGTCCT 
    GACCGACGTT TAGATCCTAT AGTCACAGAG GAGATGCCGC TGCTGGAGGT GTTCTTTATA 
    CATTTTCCTA CAGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAT GTCCTCTGAC TGGACTGAAA GTTGTGTCTA AACGTCCAGA GTTCTTCACT 
    TTTGGTGGCA ATACTGCTGC TCTAACACCG CTGAGCCCCT CTGCATCTGA GAACTGCAGT 
    GCCTATAAGA CGGTTGTAAC AGCTTCCCCC TCCTTGGGGA CAGCACTTGT GTCAACAGCA 
    TCATCTATGG ACTTTGGAAC TGGCACTGGA CAGCAGCTGG AGGCCATTCC TGTCCCCCTT 
    CCTGACTCCG TGCTGCTTCC CGGAGCTTCC ATCCAGCTGC CAATGTGGCT TCGTGGGCCA 
    GATGAAGAGG GTGTCCATGA AATTAACTTT TTATTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAAAAAC GACACAGAAT ATTAAGACAC ACTGCAGTTA TTTGTACTAG CCGGTCTTTG 
    AATGTGCGAG CGACTGTCTG CAGAAGTAAT TCACTTGAAG ATGAAGAAGG CAGGGGCGGC 
    AATATGCTAG TCTTCGTGGA TGTAGAAAAT ACTAATACTA GTGAAGCGGG GGTTAAGGAG 
    TTCCACATGG TGCAGGTGTC AAGCAGTAGC AAGCACTGGC AGCTCCACAA ATCCGTGAAT 
    ATCTCCGAAA ACAAAGATGC CAAGCTTGCC AGTAGGGAGA AGGGAAAGTT TTGCTTCAAG 
    GCAGTAAGAT GTAAACAAAA AGAAGGTGGT ATACAGTCCT CAGAAAAATA CACTTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATA AGTTCAGCAA GTCCGTGTGC AGATTTCTTT 
    TACCGAAGTT TATCCTCAGA GTTGAAGAAA ACACAAGATC AGCTTTCCAC ATATTCAGAG 
    AAACAGGCCA CAGAGGGTGC TGTGAGGCTG ATTGAGAAGT GCAGTGAGGT GGACCTGAGC 
    ATCATCATCC TGTGGAAGGC ATACGTTGTA GAAGATAACA AGCAGCTTAT TTTAGAAGGC 
    CAGCATCACG TTGTTGTTCG CACTGTTGGG AAAGAAGCCT TTTCACACTC TCAGAAAGAG 
    GAGCCACCAG AAATGGAACT ATTAAAGTTT TTCAGGCCAG AAAACACTAC AGTTTCCACA 
    AGACCATCAG TAGATCAGCT TTCTAATCTC ATTAAAACAA GTCTCCACTA TCCGGAGTCA 
    TTTCACCATC CATTTCATCA GAAAAGCCTT TGCTTAGTCC CAGTCACCCT TTTACTTTCT 
    AACTGTTCTA AGGCTGATGT AGATGTAATA GTTGATCTCC GGCATAAAAC AACAAGTCCC 
    GAGGCACTGG AAACTCACGG ATCATTCACG TGGCTTGGAC AGACACAGTA TAAGCTCCAG 
    CTGAAAAGCC AAGAGATGCA CAGTTTGCAG CTGAAGGCAT GCTTTGTTCA TACAGGCGTT 
    TATAACCTTG GAACTCCAAG AGTATTCGCC AAGTTATCGG ATCACGTTAC AGTATTTGAA 
    ACAAGTCAGC AGAACTCCAT GCCTGCTCTG ATTATCATCA ATAACGCGTG A

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

    RefSeq XP_021006113.1
    CDS320..4630
    Translation

    Target ORF information:

    RefSeq Version XM_021150454.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021150454.2

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGTAGAT GGCCTACCAA ATAACTTCAG AATTCATCCA 
    CTTCAAATAG ACCAATGCGG TGACCCTCCT AACAATACCG ACGGCTCAGA TTATGCAAAG 
    GCTGCTTCTT CAGTGCACGA GGCAAAGAAA GCAAGTACCA TAGTGATTCG TGGTGCTTGC 
    TTAACACTTA CTGATCATGA TAGAATCCGA CAGTTTATAC AAGAGTTTAC ATTCCGTGGC 
    CTTTTGCCAC ACATAGAGAA AACAATTCGT CAGTTAAACG ATCAGCTAAT ATCAAGGAAA 
    GGTTTGAGTC GATCTCTGTT TTCTGCCACT AAGAAATGGT TTAGTGGTAG TAAAGTTCCA 
    GAAAAGAGCA TTAATGAGCT GAAGAATACA TCTGGGTTGT TGTATCCGCC AGAAGCACCT 
    GAGCTTCAGA TCAGGAAGAT GGCTGACTTG TGCTTTTTGG TGCAACATTA TGATTTGGCT 
    TACAGTTGTT ATCACACTGC AAAGAAGGAT TTTCTTAACG ATCAAGCAAT GCTTTATGCA 
    GCAGGTGCCT TGGAAATGGC AGCAGTGTCA GCCTTTCTTC AGCCAGGAGC TCCTAGGCCA 
    TACCCTGCTC ATTACATGGA CACAGCAATT CAGACATACA GGGATATCTG CAAGAATATG 
    GTGTTGGCTG AAAGATGCGT GTTGCTTAGT GCTGAAATTT TAAAAAGTCA AAGCAAGTAC 
    TCAGAGGCTG CAGCTCTTCT AATACGATTG ACAAGTGAGG ATTCTGATCT CCGAAGTGCC 
    CTTCTTTTGG AACAGGCTGC ACATTGCTTC ATAAACATGA AGAGTCCCAT GGTTAGAAAA 
    TACGCATTTC ATATGATCCT GGCAGGCCAC CGTTTCAGTA AAGCAGGGCA GAAAAAGCAT 
    GCTTTGCGCT GCTATTGTCA AGCCATGCAA GTTTACAAAG GAAAGGGCTG GTCTCTAGCA 
    GAGGATCACA TCAACTTCAC CATTGGGCGC CAGTCCTATA CTCTGAGGCA GCTGGACAAT 
    GCTGTTTCTG CTTTTAGACA CATTTTAATC AATGAAAGCA AACAGTCTGC TGCTCAGCAA 
    GGAGCCTTCC TCAGAGAATA TCTTTATGTT TATAAGAATG TAAATCAGCT GTCACCAGAT 
    GGCCCTTTAC CACAGCTTCC CTTACCATAC ATTAACAGTT CAGCAACACG AGTTTTCTTT 
    GGCCATGACA GACGACCAGC AGATGGTGAA AAGCAAGCGG CTACTCATAT AAGTCTTGAT 
    CAAGAATATG ACTCTGAGTC ATCCCAGCAG TGGCGAGAAC TTGAGGAACA TGTTGTGGCT 
    GTGGCTAATA AAGGAGTAAT TCCATCTAGT TTCTATCCTA CACAGTATTG TTTGAACAGT 
    TACTCCGATA ACTCCAGATT TCCACTTGCA GTTGTAGAAG AGCCAATTAC TGTGGAAGTG 
    GCTTTTAGAA ACCCTTTAAA AGTTCCGCTT TTGCTGTCTG ATTTGTCATT ACTCTGGAAG 
    TTTCAGCCTA AAGATGCCAG TGGGAAAGAC ATTGAAAAAG TGAAAGAACG AGTTACAGGT 
    GAACCTGAAA TGATTGGAAC TGAAGTTATT TCAGAATTCT TAATTAACAG TGAAGAATCT 
    AAAGTGGCAA GACTGAAGCT CTTCCCCCAC CACACAGGGG AGCTGCACAT TCTGGGAGTT 
    GTGTATAGTC TTGGCACTAT TCAGGGCTCC GTGACAGTAG ATGGCATTGG TGCTCTTCCT 
    GGATGTCACA CAGGAAAACA TTCTCTGAGT ATGTCAGTAC GAGGGAGACA GGATTTAGAA 
    ATTCAAGGCC CTCGACTTAA CAATACAAAG GAAGAGAAGA CGTCTGTAAA GTACGGTCCT 
    GACCGACGTT TAGATCCTAT AGTCACAGAG GAGATGCCGC TGCTGGAGGT GTTCTTTATA 
    CATTTTCCTA CAGGGCTCCT CTGTGGAGAA ATCCGAAAAG CATATGTAGA GTTTGTCAAT 
    GTCAGCAAAT GTCCTCTGAC TGGACTGAAA GTTGTGTCTA AACGTCCAGA GTTCTTCACT 
    TTTGGTGGCA ATACTGCTGC TCTAACACCG CTGAGCCCCT CTGCATCTGA GAACTGCAGT 
    GCCTATAAGA CGGTTGTAAC AGCTTCCCCC TCCTTGGGGA CAGCACTTGT GTCAACAGCA 
    TCATCTATGG ACTTTGGAAC TGGCACTGGA CAGCAGCTGG AGGCCATTCC TGTCCCCCTT 
    CCTGACTCCG TGCTGCTTCC CGGAGCTTCC ATCCAGCTGC CAATGTGGCT TCGTGGGCCA 
    GATGAAGAGG GTGTCCATGA AATTAACTTT TTATTTTACT ATGAAAGTGT TAAAAAGCAG 
    CCTAAAAAAC GACACAGAAT ATTAAGACAC ACTGCAGTTA TTTGTACTAG CCGGTCTTTG 
    AATGTGCGAG CGACTGTCTG CAGAAGTAAT TCACTTGAAG ATGAAGAAGG CAGGGGCGGC 
    AATATGCTAG TCTTCGTGGA TGTAGAAAAT ACTAATACTA GTGAAGCGGG GGTTAAGGAG 
    TTCCACATGG TGCAGGTGTC AAGCAGTAGC AAGCACTGGC AGCTCCACAA ATCCGTGAAT 
    ATCTCCGAAA ACAAAGATGC CAAGCTTGCC AGTAGGGAGA AGGGAAAGTT TTGCTTCAAG 
    GCAGTAAGAT GTAAACAAAA AGAAGGTGGT ATACAGTCCT CAGAAAAATA CACTTTTGCA 
    GATATCATCT TTGGAAATGA ACAGATAATA AGTTCAGCAA GTCCGTGTGC AGATTTCTTT 
    TACCGAAGTT TATCCTCAGA GTTGAAGAAA ACACAAGATC AGCTTTCCAC ATATTCAGAG 
    AAACAGGCCA CAGAGGGTGC TGTGAGGCTG ATTGAGAAGT GCAGTGAGGT GGACCTGAGC 
    ATCATCATCC TGTGGAAGGC ATACGTTGTA GAAGATAACA AGCAGCTTAT TTTAGAAGGC 
    CAGCATCACG TTGTTGTTCG CACTGTTGGG AAAGAAGCCT TTTCACACTC TCAGAAAGAG 
    GAGCCACCAG AAATGGAACT ATTAAAGTTT TTCAGGCCAG AAAACACTAC AGTTTCCACA 
    AGACCATCAG TAGATCAGCT TTCTAATCTC ATTAAAACAA GTCTCCACTA TCCGGAGTCA 
    TTTCACCATC CATTTCATCA GAAAAGCCTT TGCTTAGTCC CAGTCACCCT TTTACTTTCT 
    AACTGTTCTA AGGCTGATGT AGATGTAATA GTTGATCTCC GGCATAAAAC AACAAGTCCC 
    GAGGCACTGG AAACTCACGG ATCATTCACG TGGCTTGGAC AGACACAGTA TAAGCTCCAG 
    CTGAAAAGCC AAGAGATGCA CAGTTTGCAG CTGAAGGCAT GCTTTGTTCA TACAGGCGTT 
    TATAACCTTG GAACTCCAAG AGTATTCGCC AAGTTATCGG ATCACGTTAC AGTATTTGAA 
    ACAAGTCAGC AGAACTCCAT GCCTGCTCTG ATTATCATCA ATAACGCGTG A

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

    Trappc8 ( XM_021150455.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006114.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv35669
    Clone ID Related Accession (Same CDS sequence) XM_021150455.1 , XM_021150455.2
    Accession Version XM_021150455.1 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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    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 (NC_034587.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGATGGC CTACCAAATA ACTTCAGAAT TCATCCACTT 
    CAAATAGACC AATGCGGTGA CCCTCCTAAC AATACCGACG GCTCAGATTA TGCAAAGGCT 
    GCTTCTTCAG TGCACGAGGC AAAGAAAGCA AGTACCATAG TGATTCGTGG TGCTTGCTTA 
    ACACTTACTG ATCATGATAG AATCCGACAG TTTATACAAG AGTTTACATT CCGTGGCCTT 
    TTGCCACACA TAGAGAAAAC AATTCGTCAG TTAAACGATC AGCTAATATC AAGGAAAGGT 
    TTGAGTCGAT CTCTGTTTTC TGCCACTAAG AAATGGTTTA GTGGTAGTAA AGTTCCAGAA 
    AAGAGCATTA ATGAGCTGAA GAATACATCT GGGTTGTTGT ATCCGCCAGA AGCACCTGAG 
    CTTCAGATCA GGAAGATGGC TGACTTGTGC TTTTTGGTGC AACATTATGA TTTGGCTTAC 
    AGTTGTTATC ACACTGCAAA GAAGGATTTT CTTAACGATC AAGCAATGCT TTATGCAGCA 
    GGTGCCTTGG AAATGGCAGC AGTGTCAGCC TTTCTTCAGC CAGGAGCTCC TAGGCCATAC 
    CCTGCTCATT ACATGGACAC AGCAATTCAG ACATACAGGG ATATCTGCAA GAATATGGTG 
    TTGGCTGAAA GATGCGTGTT GCTTAGTGCT GAAATTTTAA AAAGTCAAAG CAAGTACTCA 
    GAGGCTGCAG CTCTTCTAAT ACGATTGACA AGTGAGGATT CTGATCTCCG AAGTGCCCTT 
    CTTTTGGAAC AGGCTGCACA TTGCTTCATA AACATGAAGA GTCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATCCTGGC AGGCCACCGT TTCAGTAAAG CAGGGCAGAA AAAGCATGCT 
    TTGCGCTGCT ATTGTCAAGC CATGCAAGTT TACAAAGGAA AGGGCTGGTC TCTAGCAGAG 
    GATCACATCA ACTTCACCAT TGGGCGCCAG TCCTATACTC TGAGGCAGCT GGACAATGCT 
    GTTTCTGCTT TTAGACACAT TTTAATCAAT GAAAGCAAAC AGTCTGCTGC TCAGCAAGGA 
    GCCTTCCTCA GAGAATATCT TTATGTTTAT AAGAATGTAA ATCAGCTGTC ACCAGATGGC 
    CCTTTACCAC AGCTTCCCTT ACCATACATT AACAGTTCAG CAACACGAGT TTTCTTTGGC 
    CATGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCGGCTA CTCATATAAG TCTTGATCAA 
    GAATATGACT CTGAGTCATC CCAGCAGTGG CGAGAACTTG AGGAACATGT TGTGGCTGTG 
    GCTAATAAAG GAGTAATTCC ATCTAGTTTC TATCCTACAC AGTATTGTTT GAACAGTTAC 
    TCCGATAACT CCAGATTTCC ACTTGCAGTT GTAGAAGAGC CAATTACTGT GGAAGTGGCT 
    TTTAGAAACC CTTTAAAAGT TCCGCTTTTG CTGTCTGATT TGTCATTACT CTGGAAGTTT 
    CAGCCTAAAG ATGCCAGTGG GAAAGACATT GAAAAAGTGA AAGAACGAGT TACAGGTGAA 
    CCTGAAATGA TTGGAACTGA AGTTATTTCA GAATTCTTAA TTAACAGTGA AGAATCTAAA 
    GTGGCAAGAC TGAAGCTCTT CCCCCACCAC ACAGGGGAGC TGCACATTCT GGGAGTTGTG 
    TATAGTCTTG GCACTATTCA GGGCTCCGTG ACAGTAGATG GCATTGGTGC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC TCTGAGTATG TCAGTACGAG GGAGACAGGA TTTAGAAATT 
    CAAGGCCCTC GACTTAACAA TACAAAGGAA GAGAAGACGT CTGTAAAGTA CGGTCCTGAC 
    CGACGTTTAG ATCCTATAGT CACAGAGGAG ATGCCGCTGC TGGAGGTGTT CTTTATACAT 
    TTTCCTACAG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAATGTC CTCTGACTGG ACTGAAAGTT GTGTCTAAAC GTCCAGAGTT CTTCACTTTT 
    GGTGGCAATA CTGCTGCTCT AACACCGCTG AGCCCCTCTG CATCTGAGAA CTGCAGTGCC 
    TATAAGACGG TTGTAACAGC TTCCCCCTCC TTGGGGACAG CACTTGTGTC AACAGCATCA 
    TCTATGGACT TTGGAACTGG CACTGGACAG CAGCTGGAGG CCATTCCTGT CCCCCTTCCT 
    GACTCCGTGC TGCTTCCCGG AGCTTCCATC CAGCTGCCAA TGTGGCTTCG TGGGCCAGAT 
    GAAGAGGGTG TCCATGAAAT TAACTTTTTA TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAAAAACGAC ACAGAATATT AAGACACACT GCAGTTATTT GTACTAGCCG GTCTTTGAAT 
    GTGCGAGCGA CTGTCTGCAG AAGTAATTCA CTTGAAGATG AAGAAGGCAG GGGCGGCAAT 
    ATGCTAGTCT TCGTGGATGT AGAAAATACT AATACTAGTG AAGCGGGGGT TAAGGAGTTC 
    CACATGGTGC AGGTGTCAAG CAGTAGCAAG CACTGGCAGC TCCACAAATC CGTGAATATC 
    TCCGAAAACA AAGATGCCAA GCTTGCCAGT AGGGAGAAGG GAAAGTTTTG CTTCAAGGCA 
    GTAAGATGTA AACAAAAAGA AGGTGGTATA CAGTCCTCAG AAAAATACAC TTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATAAGT TCAGCAAGTC CGTGTGCAGA TTTCTTTTAC 
    CGAAGTTTAT CCTCAGAGTT GAAGAAAACA CAAGATCAGC TTTCCACATA TTCAGAGAAA 
    CAGGCCACAG AGGGTGCTGT GAGGCTGATT GAGAAGTGCA GTGAGGTGGA CCTGAGCATC 
    ATCATCCTGT GGAAGGCATA CGTTGTAGAA GATAACAAGC AGCTTATTTT AGAAGGCCAG 
    CATCACGTTG TTGTTCGCAC TGTTGGGAAA GAAGCCTTTT CACACTCTCA GAAAGAGGAG 
    CCACCAGAAA TGGAACTATT AAAGTTTTTC AGGCCAGAAA ACACTACAGT TTCCACAAGA 
    CCATCAGTAG ATCAGCTTTC TAATCTCATT AAAACAAGTC TCCACTATCC GGAGTCATTT 
    CACCATCCAT TTCATCAGAA AAGCCTTTGC TTAGTCCCAG TCACCCTTTT ACTTTCTAAC 
    TGTTCTAAGG CTGATGTAGA TGTAATAGTT GATCTCCGGC ATAAAACAAC AAGTCCCGAG 
    GCACTGGAAA CTCACGGATC ATTCACGTGG CTTGGACAGA CACAGTATAA GCTCCAGCTG 
    AAAAGCCAAG AGATGCACAG TTTGCAGCTG AAGGCATGCT TTGTTCATAC AGGCGTTTAT 
    AACCTTGGAA CTCCAAGAGT ATTCGCCAAG TTATCGGATC ACGTTACAGT ATTTGAAACA 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATT ATCATCAATA ACGCGTGA

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

    RefSeq XP_021006114.1
    CDS24..4331
    Translation

    Target ORF information:

    RefSeq Version XM_021150455.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021150455.1

    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 GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGATGGC CTACCAAATA ACTTCAGAAT TCATCCACTT 
    CAAATAGACC AATGCGGTGA CCCTCCTAAC AATACCGACG GCTCAGATTA TGCAAAGGCT 
    GCTTCTTCAG TGCACGAGGC AAAGAAAGCA AGTACCATAG TGATTCGTGG TGCTTGCTTA 
    ACACTTACTG ATCATGATAG AATCCGACAG TTTATACAAG AGTTTACATT CCGTGGCCTT 
    TTGCCACACA TAGAGAAAAC AATTCGTCAG TTAAACGATC AGCTAATATC AAGGAAAGGT 
    TTGAGTCGAT CTCTGTTTTC TGCCACTAAG AAATGGTTTA GTGGTAGTAA AGTTCCAGAA 
    AAGAGCATTA ATGAGCTGAA GAATACATCT GGGTTGTTGT ATCCGCCAGA AGCACCTGAG 
    CTTCAGATCA GGAAGATGGC TGACTTGTGC TTTTTGGTGC AACATTATGA TTTGGCTTAC 
    AGTTGTTATC ACACTGCAAA GAAGGATTTT CTTAACGATC AAGCAATGCT TTATGCAGCA 
    GGTGCCTTGG AAATGGCAGC AGTGTCAGCC TTTCTTCAGC CAGGAGCTCC TAGGCCATAC 
    CCTGCTCATT ACATGGACAC AGCAATTCAG ACATACAGGG ATATCTGCAA GAATATGGTG 
    TTGGCTGAAA GATGCGTGTT GCTTAGTGCT GAAATTTTAA AAAGTCAAAG CAAGTACTCA 
    GAGGCTGCAG CTCTTCTAAT ACGATTGACA AGTGAGGATT CTGATCTCCG AAGTGCCCTT 
    CTTTTGGAAC AGGCTGCACA TTGCTTCATA AACATGAAGA GTCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATCCTGGC AGGCCACCGT TTCAGTAAAG CAGGGCAGAA AAAGCATGCT 
    TTGCGCTGCT ATTGTCAAGC CATGCAAGTT TACAAAGGAA AGGGCTGGTC TCTAGCAGAG 
    GATCACATCA ACTTCACCAT TGGGCGCCAG TCCTATACTC TGAGGCAGCT GGACAATGCT 
    GTTTCTGCTT TTAGACACAT TTTAATCAAT GAAAGCAAAC AGTCTGCTGC TCAGCAAGGA 
    GCCTTCCTCA GAGAATATCT TTATGTTTAT AAGAATGTAA ATCAGCTGTC ACCAGATGGC 
    CCTTTACCAC AGCTTCCCTT ACCATACATT AACAGTTCAG CAACACGAGT TTTCTTTGGC 
    CATGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCGGCTA CTCATATAAG TCTTGATCAA 
    GAATATGACT CTGAGTCATC CCAGCAGTGG CGAGAACTTG AGGAACATGT TGTGGCTGTG 
    GCTAATAAAG GAGTAATTCC ATCTAGTTTC TATCCTACAC AGTATTGTTT GAACAGTTAC 
    TCCGATAACT CCAGATTTCC ACTTGCAGTT GTAGAAGAGC CAATTACTGT GGAAGTGGCT 
    TTTAGAAACC CTTTAAAAGT TCCGCTTTTG CTGTCTGATT TGTCATTACT CTGGAAGTTT 
    CAGCCTAAAG ATGCCAGTGG GAAAGACATT GAAAAAGTGA AAGAACGAGT TACAGGTGAA 
    CCTGAAATGA TTGGAACTGA AGTTATTTCA GAATTCTTAA TTAACAGTGA AGAATCTAAA 
    GTGGCAAGAC TGAAGCTCTT CCCCCACCAC ACAGGGGAGC TGCACATTCT GGGAGTTGTG 
    TATAGTCTTG GCACTATTCA GGGCTCCGTG ACAGTAGATG GCATTGGTGC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC TCTGAGTATG TCAGTACGAG GGAGACAGGA TTTAGAAATT 
    CAAGGCCCTC GACTTAACAA TACAAAGGAA GAGAAGACGT CTGTAAAGTA CGGTCCTGAC 
    CGACGTTTAG ATCCTATAGT CACAGAGGAG ATGCCGCTGC TGGAGGTGTT CTTTATACAT 
    TTTCCTACAG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAATGTC CTCTGACTGG ACTGAAAGTT GTGTCTAAAC GTCCAGAGTT CTTCACTTTT 
    GGTGGCAATA CTGCTGCTCT AACACCGCTG AGCCCCTCTG CATCTGAGAA CTGCAGTGCC 
    TATAAGACGG TTGTAACAGC TTCCCCCTCC TTGGGGACAG CACTTGTGTC AACAGCATCA 
    TCTATGGACT TTGGAACTGG CACTGGACAG CAGCTGGAGG CCATTCCTGT CCCCCTTCCT 
    GACTCCGTGC TGCTTCCCGG AGCTTCCATC CAGCTGCCAA TGTGGCTTCG TGGGCCAGAT 
    GAAGAGGGTG TCCATGAAAT TAACTTTTTA TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAAAAACGAC ACAGAATATT AAGACACACT GCAGTTATTT GTACTAGCCG GTCTTTGAAT 
    GTGCGAGCGA CTGTCTGCAG AAGTAATTCA CTTGAAGATG AAGAAGGCAG GGGCGGCAAT 
    ATGCTAGTCT TCGTGGATGT AGAAAATACT AATACTAGTG AAGCGGGGGT TAAGGAGTTC 
    CACATGGTGC AGGTGTCAAG CAGTAGCAAG CACTGGCAGC TCCACAAATC CGTGAATATC 
    TCCGAAAACA AAGATGCCAA GCTTGCCAGT AGGGAGAAGG GAAAGTTTTG CTTCAAGGCA 
    GTAAGATGTA AACAAAAAGA AGGTGGTATA CAGTCCTCAG AAAAATACAC TTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATAAGT TCAGCAAGTC CGTGTGCAGA TTTCTTTTAC 
    CGAAGTTTAT CCTCAGAGTT GAAGAAAACA CAAGATCAGC TTTCCACATA TTCAGAGAAA 
    CAGGCCACAG AGGGTGCTGT GAGGCTGATT GAGAAGTGCA GTGAGGTGGA CCTGAGCATC 
    ATCATCCTGT GGAAGGCATA CGTTGTAGAA GATAACAAGC AGCTTATTTT AGAAGGCCAG 
    CATCACGTTG TTGTTCGCAC TGTTGGGAAA GAAGCCTTTT CACACTCTCA GAAAGAGGAG 
    CCACCAGAAA TGGAACTATT AAAGTTTTTC AGGCCAGAAA ACACTACAGT TTCCACAAGA 
    CCATCAGTAG ATCAGCTTTC TAATCTCATT AAAACAAGTC TCCACTATCC GGAGTCATTT 
    CACCATCCAT TTCATCAGAA AAGCCTTTGC TTAGTCCCAG TCACCCTTTT ACTTTCTAAC 
    TGTTCTAAGG CTGATGTAGA TGTAATAGTT GATCTCCGGC ATAAAACAAC AAGTCCCGAG 
    GCACTGGAAA CTCACGGATC ATTCACGTGG CTTGGACAGA CACAGTATAA GCTCCAGCTG 
    AAAAGCCAAG AGATGCACAG TTTGCAGCTG AAGGCATGCT TTGTTCATAC AGGCGTTTAT 
    AACCTTGGAA CTCCAAGAGT ATTCGCCAAG TTATCGGATC ACGTTACAGT ATTTGAAACA 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATT ATCATCAATA ACGCGTGA

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

    Trappc8 ( XM_021150455.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006114.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv35669
    Clone ID Related Accession (Same CDS sequence) XM_021150455.1 , XM_021150455.2
    Accession Version XM_021150455.2 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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    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 (NC_034587.1) 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_021150455.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGATGGC CTACCAAATA ACTTCAGAAT TCATCCACTT 
    CAAATAGACC AATGCGGTGA CCCTCCTAAC AATACCGACG GCTCAGATTA TGCAAAGGCT 
    GCTTCTTCAG TGCACGAGGC AAAGAAAGCA AGTACCATAG TGATTCGTGG TGCTTGCTTA 
    ACACTTACTG ATCATGATAG AATCCGACAG TTTATACAAG AGTTTACATT CCGTGGCCTT 
    TTGCCACACA TAGAGAAAAC AATTCGTCAG TTAAACGATC AGCTAATATC AAGGAAAGGT 
    TTGAGTCGAT CTCTGTTTTC TGCCACTAAG AAATGGTTTA GTGGTAGTAA AGTTCCAGAA 
    AAGAGCATTA ATGAGCTGAA GAATACATCT GGGTTGTTGT ATCCGCCAGA AGCACCTGAG 
    CTTCAGATCA GGAAGATGGC TGACTTGTGC TTTTTGGTGC AACATTATGA TTTGGCTTAC 
    AGTTGTTATC ACACTGCAAA GAAGGATTTT CTTAACGATC AAGCAATGCT TTATGCAGCA 
    GGTGCCTTGG AAATGGCAGC AGTGTCAGCC TTTCTTCAGC CAGGAGCTCC TAGGCCATAC 
    CCTGCTCATT ACATGGACAC AGCAATTCAG ACATACAGGG ATATCTGCAA GAATATGGTG 
    TTGGCTGAAA GATGCGTGTT GCTTAGTGCT GAAATTTTAA AAAGTCAAAG CAAGTACTCA 
    GAGGCTGCAG CTCTTCTAAT ACGATTGACA AGTGAGGATT CTGATCTCCG AAGTGCCCTT 
    CTTTTGGAAC AGGCTGCACA TTGCTTCATA AACATGAAGA GTCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATCCTGGC AGGCCACCGT TTCAGTAAAG CAGGGCAGAA AAAGCATGCT 
    TTGCGCTGCT ATTGTCAAGC CATGCAAGTT TACAAAGGAA AGGGCTGGTC TCTAGCAGAG 
    GATCACATCA ACTTCACCAT TGGGCGCCAG TCCTATACTC TGAGGCAGCT GGACAATGCT 
    GTTTCTGCTT TTAGACACAT TTTAATCAAT GAAAGCAAAC AGTCTGCTGC TCAGCAAGGA 
    GCCTTCCTCA GAGAATATCT TTATGTTTAT AAGAATGTAA ATCAGCTGTC ACCAGATGGC 
    CCTTTACCAC AGCTTCCCTT ACCATACATT AACAGTTCAG CAACACGAGT TTTCTTTGGC 
    CATGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCGGCTA CTCATATAAG TCTTGATCAA 
    GAATATGACT CTGAGTCATC CCAGCAGTGG CGAGAACTTG AGGAACATGT TGTGGCTGTG 
    GCTAATAAAG GAGTAATTCC ATCTAGTTTC TATCCTACAC AGTATTGTTT GAACAGTTAC 
    TCCGATAACT CCAGATTTCC ACTTGCAGTT GTAGAAGAGC CAATTACTGT GGAAGTGGCT 
    TTTAGAAACC CTTTAAAAGT TCCGCTTTTG CTGTCTGATT TGTCATTACT CTGGAAGTTT 
    CAGCCTAAAG ATGCCAGTGG GAAAGACATT GAAAAAGTGA AAGAACGAGT TACAGGTGAA 
    CCTGAAATGA TTGGAACTGA AGTTATTTCA GAATTCTTAA TTAACAGTGA AGAATCTAAA 
    GTGGCAAGAC TGAAGCTCTT CCCCCACCAC ACAGGGGAGC TGCACATTCT GGGAGTTGTG 
    TATAGTCTTG GCACTATTCA GGGCTCCGTG ACAGTAGATG GCATTGGTGC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC TCTGAGTATG TCAGTACGAG GGAGACAGGA TTTAGAAATT 
    CAAGGCCCTC GACTTAACAA TACAAAGGAA GAGAAGACGT CTGTAAAGTA CGGTCCTGAC 
    CGACGTTTAG ATCCTATAGT CACAGAGGAG ATGCCGCTGC TGGAGGTGTT CTTTATACAT 
    TTTCCTACAG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAATGTC CTCTGACTGG ACTGAAAGTT GTGTCTAAAC GTCCAGAGTT CTTCACTTTT 
    GGTGGCAATA CTGCTGCTCT AACACCGCTG AGCCCCTCTG CATCTGAGAA CTGCAGTGCC 
    TATAAGACGG TTGTAACAGC TTCCCCCTCC TTGGGGACAG CACTTGTGTC AACAGCATCA 
    TCTATGGACT TTGGAACTGG CACTGGACAG CAGCTGGAGG CCATTCCTGT CCCCCTTCCT 
    GACTCCGTGC TGCTTCCCGG AGCTTCCATC CAGCTGCCAA TGTGGCTTCG TGGGCCAGAT 
    GAAGAGGGTG TCCATGAAAT TAACTTTTTA TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAAAAACGAC ACAGAATATT AAGACACACT GCAGTTATTT GTACTAGCCG GTCTTTGAAT 
    GTGCGAGCGA CTGTCTGCAG AAGTAATTCA CTTGAAGATG AAGAAGGCAG GGGCGGCAAT 
    ATGCTAGTCT TCGTGGATGT AGAAAATACT AATACTAGTG AAGCGGGGGT TAAGGAGTTC 
    CACATGGTGC AGGTGTCAAG CAGTAGCAAG CACTGGCAGC TCCACAAATC CGTGAATATC 
    TCCGAAAACA AAGATGCCAA GCTTGCCAGT AGGGAGAAGG GAAAGTTTTG CTTCAAGGCA 
    GTAAGATGTA AACAAAAAGA AGGTGGTATA CAGTCCTCAG AAAAATACAC TTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATAAGT TCAGCAAGTC CGTGTGCAGA TTTCTTTTAC 
    CGAAGTTTAT CCTCAGAGTT GAAGAAAACA CAAGATCAGC TTTCCACATA TTCAGAGAAA 
    CAGGCCACAG AGGGTGCTGT GAGGCTGATT GAGAAGTGCA GTGAGGTGGA CCTGAGCATC 
    ATCATCCTGT GGAAGGCATA CGTTGTAGAA GATAACAAGC AGCTTATTTT AGAAGGCCAG 
    CATCACGTTG TTGTTCGCAC TGTTGGGAAA GAAGCCTTTT CACACTCTCA GAAAGAGGAG 
    CCACCAGAAA TGGAACTATT AAAGTTTTTC AGGCCAGAAA ACACTACAGT TTCCACAAGA 
    CCATCAGTAG ATCAGCTTTC TAATCTCATT AAAACAAGTC TCCACTATCC GGAGTCATTT 
    CACCATCCAT TTCATCAGAA AAGCCTTTGC TTAGTCCCAG TCACCCTTTT ACTTTCTAAC 
    TGTTCTAAGG CTGATGTAGA TGTAATAGTT GATCTCCGGC ATAAAACAAC AAGTCCCGAG 
    GCACTGGAAA CTCACGGATC ATTCACGTGG CTTGGACAGA CACAGTATAA GCTCCAGCTG 
    AAAAGCCAAG AGATGCACAG TTTGCAGCTG AAGGCATGCT TTGTTCATAC AGGCGTTTAT 
    AACCTTGGAA CTCCAAGAGT ATTCGCCAAG TTATCGGATC ACGTTACAGT ATTTGAAACA 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATT ATCATCAATA ACGCGTGA

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

    RefSeq XP_021006114.1
    CDS320..4627
    Translation

    Target ORF information:

    RefSeq Version XM_021150455.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 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_021150455.2

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGATGGC CTACCAAATA ACTTCAGAAT TCATCCACTT 
    CAAATAGACC AATGCGGTGA CCCTCCTAAC AATACCGACG GCTCAGATTA TGCAAAGGCT 
    GCTTCTTCAG TGCACGAGGC AAAGAAAGCA AGTACCATAG TGATTCGTGG TGCTTGCTTA 
    ACACTTACTG ATCATGATAG AATCCGACAG TTTATACAAG AGTTTACATT CCGTGGCCTT 
    TTGCCACACA TAGAGAAAAC AATTCGTCAG TTAAACGATC AGCTAATATC AAGGAAAGGT 
    TTGAGTCGAT CTCTGTTTTC TGCCACTAAG AAATGGTTTA GTGGTAGTAA AGTTCCAGAA 
    AAGAGCATTA ATGAGCTGAA GAATACATCT GGGTTGTTGT ATCCGCCAGA AGCACCTGAG 
    CTTCAGATCA GGAAGATGGC TGACTTGTGC TTTTTGGTGC AACATTATGA TTTGGCTTAC 
    AGTTGTTATC ACACTGCAAA GAAGGATTTT CTTAACGATC AAGCAATGCT TTATGCAGCA 
    GGTGCCTTGG AAATGGCAGC AGTGTCAGCC TTTCTTCAGC CAGGAGCTCC TAGGCCATAC 
    CCTGCTCATT ACATGGACAC AGCAATTCAG ACATACAGGG ATATCTGCAA GAATATGGTG 
    TTGGCTGAAA GATGCGTGTT GCTTAGTGCT GAAATTTTAA AAAGTCAAAG CAAGTACTCA 
    GAGGCTGCAG CTCTTCTAAT ACGATTGACA AGTGAGGATT CTGATCTCCG AAGTGCCCTT 
    CTTTTGGAAC AGGCTGCACA TTGCTTCATA AACATGAAGA GTCCCATGGT TAGAAAATAC 
    GCATTTCATA TGATCCTGGC AGGCCACCGT TTCAGTAAAG CAGGGCAGAA AAAGCATGCT 
    TTGCGCTGCT ATTGTCAAGC CATGCAAGTT TACAAAGGAA AGGGCTGGTC TCTAGCAGAG 
    GATCACATCA ACTTCACCAT TGGGCGCCAG TCCTATACTC TGAGGCAGCT GGACAATGCT 
    GTTTCTGCTT TTAGACACAT TTTAATCAAT GAAAGCAAAC AGTCTGCTGC TCAGCAAGGA 
    GCCTTCCTCA GAGAATATCT TTATGTTTAT AAGAATGTAA ATCAGCTGTC ACCAGATGGC 
    CCTTTACCAC AGCTTCCCTT ACCATACATT AACAGTTCAG CAACACGAGT TTTCTTTGGC 
    CATGACAGAC GACCAGCAGA TGGTGAAAAG CAAGCGGCTA CTCATATAAG TCTTGATCAA 
    GAATATGACT CTGAGTCATC CCAGCAGTGG CGAGAACTTG AGGAACATGT TGTGGCTGTG 
    GCTAATAAAG GAGTAATTCC ATCTAGTTTC TATCCTACAC AGTATTGTTT GAACAGTTAC 
    TCCGATAACT CCAGATTTCC ACTTGCAGTT GTAGAAGAGC CAATTACTGT GGAAGTGGCT 
    TTTAGAAACC CTTTAAAAGT TCCGCTTTTG CTGTCTGATT TGTCATTACT CTGGAAGTTT 
    CAGCCTAAAG ATGCCAGTGG GAAAGACATT GAAAAAGTGA AAGAACGAGT TACAGGTGAA 
    CCTGAAATGA TTGGAACTGA AGTTATTTCA GAATTCTTAA TTAACAGTGA AGAATCTAAA 
    GTGGCAAGAC TGAAGCTCTT CCCCCACCAC ACAGGGGAGC TGCACATTCT GGGAGTTGTG 
    TATAGTCTTG GCACTATTCA GGGCTCCGTG ACAGTAGATG GCATTGGTGC TCTTCCTGGA 
    TGTCACACAG GAAAACATTC TCTGAGTATG TCAGTACGAG GGAGACAGGA TTTAGAAATT 
    CAAGGCCCTC GACTTAACAA TACAAAGGAA GAGAAGACGT CTGTAAAGTA CGGTCCTGAC 
    CGACGTTTAG ATCCTATAGT CACAGAGGAG ATGCCGCTGC TGGAGGTGTT CTTTATACAT 
    TTTCCTACAG GGCTCCTCTG TGGAGAAATC CGAAAAGCAT ATGTAGAGTT TGTCAATGTC 
    AGCAAATGTC CTCTGACTGG ACTGAAAGTT GTGTCTAAAC GTCCAGAGTT CTTCACTTTT 
    GGTGGCAATA CTGCTGCTCT AACACCGCTG AGCCCCTCTG CATCTGAGAA CTGCAGTGCC 
    TATAAGACGG TTGTAACAGC TTCCCCCTCC TTGGGGACAG CACTTGTGTC AACAGCATCA 
    TCTATGGACT TTGGAACTGG CACTGGACAG CAGCTGGAGG CCATTCCTGT CCCCCTTCCT 
    GACTCCGTGC TGCTTCCCGG AGCTTCCATC CAGCTGCCAA TGTGGCTTCG TGGGCCAGAT 
    GAAGAGGGTG TCCATGAAAT TAACTTTTTA TTTTACTATG AAAGTGTTAA AAAGCAGCCT 
    AAAAAACGAC ACAGAATATT AAGACACACT GCAGTTATTT GTACTAGCCG GTCTTTGAAT 
    GTGCGAGCGA CTGTCTGCAG AAGTAATTCA CTTGAAGATG AAGAAGGCAG GGGCGGCAAT 
    ATGCTAGTCT TCGTGGATGT AGAAAATACT AATACTAGTG AAGCGGGGGT TAAGGAGTTC 
    CACATGGTGC AGGTGTCAAG CAGTAGCAAG CACTGGCAGC TCCACAAATC CGTGAATATC 
    TCCGAAAACA AAGATGCCAA GCTTGCCAGT AGGGAGAAGG GAAAGTTTTG CTTCAAGGCA 
    GTAAGATGTA AACAAAAAGA AGGTGGTATA CAGTCCTCAG AAAAATACAC TTTTGCAGAT 
    ATCATCTTTG GAAATGAACA GATAATAAGT TCAGCAAGTC CGTGTGCAGA TTTCTTTTAC 
    CGAAGTTTAT CCTCAGAGTT GAAGAAAACA CAAGATCAGC TTTCCACATA TTCAGAGAAA 
    CAGGCCACAG AGGGTGCTGT GAGGCTGATT GAGAAGTGCA GTGAGGTGGA CCTGAGCATC 
    ATCATCCTGT GGAAGGCATA CGTTGTAGAA GATAACAAGC AGCTTATTTT AGAAGGCCAG 
    CATCACGTTG TTGTTCGCAC TGTTGGGAAA GAAGCCTTTT CACACTCTCA GAAAGAGGAG 
    CCACCAGAAA TGGAACTATT AAAGTTTTTC AGGCCAGAAA ACACTACAGT TTCCACAAGA 
    CCATCAGTAG ATCAGCTTTC TAATCTCATT AAAACAAGTC TCCACTATCC GGAGTCATTT 
    CACCATCCAT TTCATCAGAA AAGCCTTTGC TTAGTCCCAG TCACCCTTTT ACTTTCTAAC 
    TGTTCTAAGG CTGATGTAGA TGTAATAGTT GATCTCCGGC ATAAAACAAC AAGTCCCGAG 
    GCACTGGAAA CTCACGGATC ATTCACGTGG CTTGGACAGA CACAGTATAA GCTCCAGCTG 
    AAAAGCCAAG AGATGCACAG TTTGCAGCTG AAGGCATGCT TTGTTCATAC AGGCGTTTAT 
    AACCTTGGAA CTCCAAGAGT ATTCGCCAAG TTATCGGATC ACGTTACAGT ATTTGAAACA 
    AGTCAGCAGA ACTCCATGCC TGCTCTGATT ATCATCAATA ACGCGTGA

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

    Trappc8 ( XM_021150457.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006116.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv35670
    Clone ID Related Accession (Same CDS sequence) XM_021150457.1 , XM_021150457.2
    Accession Version XM_021150457.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4266bp)
    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 trafficking protein particle complex subunit 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGACCAA TGCGGTGACC CTCCTAACAA TACCGACGGC 
    TCAGATTATG CAAAGGCTGC TTCTTCAGTG CACGAGGCAA AGAAAGCAAG TACCATAGTG 
    ATTCGTGGTG CTTGCTTAAC ACTTACTGAT CATGATAGAA TCCGACAGTT TATACAAGAG 
    TTTACATTCC GTGGCCTTTT GCCACACATA GAGAAAACAA TTCGTCAGTT AAACGATCAG 
    CTAATATCAA GGAAAGGTTT GAGTCGATCT CTGTTTTCTG CCACTAAGAA ATGGTTTAGT 
    GGTAGTAAAG TTCCAGAAAA GAGCATTAAT GAGCTGAAGA ATACATCTGG GTTGTTGTAT 
    CCGCCAGAAG CACCTGAGCT TCAGATCAGG AAGATGGCTG ACTTGTGCTT TTTGGTGCAA 
    CATTATGATT TGGCTTACAG TTGTTATCAC ACTGCAAAGA AGGATTTTCT TAACGATCAA 
    GCAATGCTTT ATGCAGCAGG TGCCTTGGAA ATGGCAGCAG TGTCAGCCTT TCTTCAGCCA 
    GGAGCTCCTA GGCCATACCC TGCTCATTAC ATGGACACAG CAATTCAGAC ATACAGGGAT 
    ATCTGCAAGA ATATGGTGTT GGCTGAAAGA TGCGTGTTGC TTAGTGCTGA AATTTTAAAA 
    AGTCAAAGCA AGTACTCAGA GGCTGCAGCT CTTCTAATAC GATTGACAAG TGAGGATTCT 
    GATCTCCGAA GTGCCCTTCT TTTGGAACAG GCTGCACATT GCTTCATAAA CATGAAGAGT 
    CCCATGGTTA GAAAATACGC ATTTCATATG ATCCTGGCAG GCCACCGTTT CAGTAAAGCA 
    GGGCAGAAAA AGCATGCTTT GCGCTGCTAT TGTCAAGCCA TGCAAGTTTA CAAAGGAAAG 
    GGCTGGTCTC TAGCAGAGGA TCACATCAAC TTCACCATTG GGCGCCAGTC CTATACTCTG 
    AGGCAGCTGG ACAATGCTGT TTCTGCTTTT AGACACATTT TAATCAATGA AAGCAAACAG 
    TCTGCTGCTC AGCAAGGAGC CTTCCTCAGA GAATATCTTT ATGTTTATAA GAATGTAAAT 
    CAGCTGTCAC CAGATGGCCC TTTACCACAG CTTCCCTTAC CATACATTAA CAGTTCAGCA 
    ACACGAGTTT TCTTTGGCCA TGACAGACGA CCAGCAGATG GTGAAAAGCA AGCGGCTACT 
    CATATAAGTC TTGATCAAGA ATATGACTCT GAGTCATCCC AGCAGTGGCG AGAACTTGAG 
    GAACATGTTG TGGCTGTGGC TAATAAAGGA GTAATTCCAT CTAGTTTCTA TCCTACACAG 
    TATTGTTTGA ACAGTTACTC CGATAACTCC AGATTTCCAC TTGCAGTTGT AGAAGAGCCA 
    ATTACTGTGG AAGTGGCTTT TAGAAACCCT TTAAAAGTTC CGCTTTTGCT GTCTGATTTG 
    TCATTACTCT GGAAGTTTCA GCCTAAAGAT GCCAGTGGGA AAGACATTGA AAAAGTGAAA 
    GAACGAGTTA CAGGTGAACC TGAAATGATT GGAACTGAAG TTATTTCAGA ATTCTTAATT 
    AACAGTGAAG AATCTAAAGT GGCAAGACTG AAGCTCTTCC CCCACCACAC AGGGGAGCTG 
    CACATTCTGG GAGTTGTGTA TAGTCTTGGC ACTATTCAGG GCTCCGTGAC AGTAGATGGC 
    ATTGGTGCTC TTCCTGGATG TCACACAGGA AAACATTCTC TGAGTATGTC AGTACGAGGG 
    AGACAGGATT TAGAAATTCA AGGCCCTCGA CTTAACAATA CAAAGGAAGA GAAGACGTCT 
    GTAAAGTACG GTCCTGACCG ACGTTTAGAT CCTATAGTCA CAGAGGAGAT GCCGCTGCTG 
    GAGGTGTTCT TTATACATTT TCCTACAGGG CTCCTCTGTG GAGAAATCCG AAAAGCATAT 
    GTAGAGTTTG TCAATGTCAG CAAATGTCCT CTGACTGGAC TGAAAGTTGT GTCTAAACGT 
    CCAGAGTTCT TCACTTTTGG TGGCAATACT GCTGCTCTAA CACCGCTGAG CCCCTCTGCA 
    TCTGAGAACT GCAGTGCCTA TAAGACGGTT GTAACAGCTT CCCCCTCCTT GGGGACAGCA 
    CTTGTGTCAA CAGCATCATC TATGGACTTT GGAACTGGCA CTGGACAGCA GCTGGAGGCC 
    ATTCCTGTCC CCCTTCCTGA CTCCGTGCTG CTTCCCGGAG CTTCCATCCA GCTGCCAATG 
    TGGCTTCGTG GGCCAGATGA AGAGGGTGTC CATGAAATTA ACTTTTTATT TTACTATGAA 
    AGTGTTAAAA AGCAGCCTAA AAAACGACAC AGAATATTAA GACACACTGC AGTTATTTGT 
    ACTAGCCGGT CTTTGAATGT GCGAGCGACT GTCTGCAGAA GTAATTCACT TGAAGATGAA 
    GAAGGCAGGG GCGGCAATAT GCTAGTCTTC GTGGATGTAG AAAATACTAA TACTAGTGAA 
    GCGGGGGTTA AGGAGTTCCA CATGGTGCAG GTGTCAAGCA GTAGCAAGCA CTGGCAGCTC 
    CACAAATCCG TGAATATCTC CGAAAACAAA GATGCCAAGC TTGCCAGTAG GGAGAAGGGA 
    AAGTTTTGCT TCAAGGCAGT AAGATGTAAA CAAAAAGAAG GTGGTATACA GTCCTCAGAA 
    AAATACACTT TTGCAGATAT CATCTTTGGA AATGAACAGA TAATAAGTTC AGCAAGTCCG 
    TGTGCAGATT TCTTTTACCG AAGTTTATCC TCAGAGTTGA AGAAAACACA AGATCAGCTT 
    TCCACATATT CAGAGAAACA GGCCACAGAG GGTGCTGTGA GGCTGATTGA GAAGTGCAGT 
    GAGGTGGACC TGAGCATCAT CATCCTGTGG AAGGCATACG TTGTAGAAGA TAACAAGCAG 
    CTTATTTTAG AAGGCCAGCA TCACGTTGTT GTTCGCACTG TTGGGAAAGA AGCCTTTTCA 
    CACTCTCAGA AAGAGGAGCC ACCAGAAATG GAACTATTAA AGTTTTTCAG GCCAGAAAAC 
    ACTACAGTTT CCACAAGACC ATCAGTAGAT CAGCTTTCTA ATCTCATTAA AACAAGTCTC 
    CACTATCCGG AGTCATTTCA CCATCCATTT CATCAGAAAA GCCTTTGCTT AGTCCCAGTC 
    ACCCTTTTAC TTTCTAACTG TTCTAAGGCT GATGTAGATG TAATAGTTGA TCTCCGGCAT 
    AAAACAACAA GTCCCGAGGC ACTGGAAACT CACGGATCAT TCACGTGGCT TGGACAGACA 
    CAGTATAAGC TCCAGCTGAA AAGCCAAGAG ATGCACAGTT TGCAGCTGAA GGCATGCTTT 
    GTTCATACAG GCGTTTATAA CCTTGGAACT CCAAGAGTAT TCGCCAAGTT ATCGGATCAC 
    GTTACAGTAT TTGAAACAAG TCAGCAGAAC TCCATGCCTG CTCTGATTAT CATCAATAAC 
    GCGTGA

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

    RefSeq XP_021006116.1
    CDS2..4267
    Translation

    Target ORF information:

    RefSeq Version XM_021150457.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021150457.1

    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 GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGACCAA TGCGGTGACC CTCCTAACAA TACCGACGGC 
    TCAGATTATG CAAAGGCTGC TTCTTCAGTG CACGAGGCAA AGAAAGCAAG TACCATAGTG 
    ATTCGTGGTG CTTGCTTAAC ACTTACTGAT CATGATAGAA TCCGACAGTT TATACAAGAG 
    TTTACATTCC GTGGCCTTTT GCCACACATA GAGAAAACAA TTCGTCAGTT AAACGATCAG 
    CTAATATCAA GGAAAGGTTT GAGTCGATCT CTGTTTTCTG CCACTAAGAA ATGGTTTAGT 
    GGTAGTAAAG TTCCAGAAAA GAGCATTAAT GAGCTGAAGA ATACATCTGG GTTGTTGTAT 
    CCGCCAGAAG CACCTGAGCT TCAGATCAGG AAGATGGCTG ACTTGTGCTT TTTGGTGCAA 
    CATTATGATT TGGCTTACAG TTGTTATCAC ACTGCAAAGA AGGATTTTCT TAACGATCAA 
    GCAATGCTTT ATGCAGCAGG TGCCTTGGAA ATGGCAGCAG TGTCAGCCTT TCTTCAGCCA 
    GGAGCTCCTA GGCCATACCC TGCTCATTAC ATGGACACAG CAATTCAGAC ATACAGGGAT 
    ATCTGCAAGA ATATGGTGTT GGCTGAAAGA TGCGTGTTGC TTAGTGCTGA AATTTTAAAA 
    AGTCAAAGCA AGTACTCAGA GGCTGCAGCT CTTCTAATAC GATTGACAAG TGAGGATTCT 
    GATCTCCGAA GTGCCCTTCT TTTGGAACAG GCTGCACATT GCTTCATAAA CATGAAGAGT 
    CCCATGGTTA GAAAATACGC ATTTCATATG ATCCTGGCAG GCCACCGTTT CAGTAAAGCA 
    GGGCAGAAAA AGCATGCTTT GCGCTGCTAT TGTCAAGCCA TGCAAGTTTA CAAAGGAAAG 
    GGCTGGTCTC TAGCAGAGGA TCACATCAAC TTCACCATTG GGCGCCAGTC CTATACTCTG 
    AGGCAGCTGG ACAATGCTGT TTCTGCTTTT AGACACATTT TAATCAATGA AAGCAAACAG 
    TCTGCTGCTC AGCAAGGAGC CTTCCTCAGA GAATATCTTT ATGTTTATAA GAATGTAAAT 
    CAGCTGTCAC CAGATGGCCC TTTACCACAG CTTCCCTTAC CATACATTAA CAGTTCAGCA 
    ACACGAGTTT TCTTTGGCCA TGACAGACGA CCAGCAGATG GTGAAAAGCA AGCGGCTACT 
    CATATAAGTC TTGATCAAGA ATATGACTCT GAGTCATCCC AGCAGTGGCG AGAACTTGAG 
    GAACATGTTG TGGCTGTGGC TAATAAAGGA GTAATTCCAT CTAGTTTCTA TCCTACACAG 
    TATTGTTTGA ACAGTTACTC CGATAACTCC AGATTTCCAC TTGCAGTTGT AGAAGAGCCA 
    ATTACTGTGG AAGTGGCTTT TAGAAACCCT TTAAAAGTTC CGCTTTTGCT GTCTGATTTG 
    TCATTACTCT GGAAGTTTCA GCCTAAAGAT GCCAGTGGGA AAGACATTGA AAAAGTGAAA 
    GAACGAGTTA CAGGTGAACC TGAAATGATT GGAACTGAAG TTATTTCAGA ATTCTTAATT 
    AACAGTGAAG AATCTAAAGT GGCAAGACTG AAGCTCTTCC CCCACCACAC AGGGGAGCTG 
    CACATTCTGG GAGTTGTGTA TAGTCTTGGC ACTATTCAGG GCTCCGTGAC AGTAGATGGC 
    ATTGGTGCTC TTCCTGGATG TCACACAGGA AAACATTCTC TGAGTATGTC AGTACGAGGG 
    AGACAGGATT TAGAAATTCA AGGCCCTCGA CTTAACAATA CAAAGGAAGA GAAGACGTCT 
    GTAAAGTACG GTCCTGACCG ACGTTTAGAT CCTATAGTCA CAGAGGAGAT GCCGCTGCTG 
    GAGGTGTTCT TTATACATTT TCCTACAGGG CTCCTCTGTG GAGAAATCCG AAAAGCATAT 
    GTAGAGTTTG TCAATGTCAG CAAATGTCCT CTGACTGGAC TGAAAGTTGT GTCTAAACGT 
    CCAGAGTTCT TCACTTTTGG TGGCAATACT GCTGCTCTAA CACCGCTGAG CCCCTCTGCA 
    TCTGAGAACT GCAGTGCCTA TAAGACGGTT GTAACAGCTT CCCCCTCCTT GGGGACAGCA 
    CTTGTGTCAA CAGCATCATC TATGGACTTT GGAACTGGCA CTGGACAGCA GCTGGAGGCC 
    ATTCCTGTCC CCCTTCCTGA CTCCGTGCTG CTTCCCGGAG CTTCCATCCA GCTGCCAATG 
    TGGCTTCGTG GGCCAGATGA AGAGGGTGTC CATGAAATTA ACTTTTTATT TTACTATGAA 
    AGTGTTAAAA AGCAGCCTAA AAAACGACAC AGAATATTAA GACACACTGC AGTTATTTGT 
    ACTAGCCGGT CTTTGAATGT GCGAGCGACT GTCTGCAGAA GTAATTCACT TGAAGATGAA 
    GAAGGCAGGG GCGGCAATAT GCTAGTCTTC GTGGATGTAG AAAATACTAA TACTAGTGAA 
    GCGGGGGTTA AGGAGTTCCA CATGGTGCAG GTGTCAAGCA GTAGCAAGCA CTGGCAGCTC 
    CACAAATCCG TGAATATCTC CGAAAACAAA GATGCCAAGC TTGCCAGTAG GGAGAAGGGA 
    AAGTTTTGCT TCAAGGCAGT AAGATGTAAA CAAAAAGAAG GTGGTATACA GTCCTCAGAA 
    AAATACACTT TTGCAGATAT CATCTTTGGA AATGAACAGA TAATAAGTTC AGCAAGTCCG 
    TGTGCAGATT TCTTTTACCG AAGTTTATCC TCAGAGTTGA AGAAAACACA AGATCAGCTT 
    TCCACATATT CAGAGAAACA GGCCACAGAG GGTGCTGTGA GGCTGATTGA GAAGTGCAGT 
    GAGGTGGACC TGAGCATCAT CATCCTGTGG AAGGCATACG TTGTAGAAGA TAACAAGCAG 
    CTTATTTTAG AAGGCCAGCA TCACGTTGTT GTTCGCACTG TTGGGAAAGA AGCCTTTTCA 
    CACTCTCAGA AAGAGGAGCC ACCAGAAATG GAACTATTAA AGTTTTTCAG GCCAGAAAAC 
    ACTACAGTTT CCACAAGACC ATCAGTAGAT CAGCTTTCTA ATCTCATTAA AACAAGTCTC 
    CACTATCCGG AGTCATTTCA CCATCCATTT CATCAGAAAA GCCTTTGCTT AGTCCCAGTC 
    ACCCTTTTAC TTTCTAACTG TTCTAAGGCT GATGTAGATG TAATAGTTGA TCTCCGGCAT 
    AAAACAACAA GTCCCGAGGC ACTGGAAACT CACGGATCAT TCACGTGGCT TGGACAGACA 
    CAGTATAAGC TCCAGCTGAA AAGCCAAGAG ATGCACAGTT TGCAGCTGAA GGCATGCTTT 
    GTTCATACAG GCGTTTATAA CCTTGGAACT CCAAGAGTAT TCGCCAAGTT ATCGGATCAC 
    GTTACAGTAT TTGAAACAAG TCAGCAGAAC TCCATGCCTG CTCTGATTAT CATCAATAAC 
    GCGTGA

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

    Trappc8 ( XM_021150457.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006116.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv35670
    Clone ID Related Accession (Same CDS sequence) XM_021150457.1 , XM_021150457.2
    Accession Version XM_021150457.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4266bp)
    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 trafficking protein particle complex subunit 8 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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_021150457.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGACCAA TGCGGTGACC CTCCTAACAA TACCGACGGC 
    TCAGATTATG CAAAGGCTGC TTCTTCAGTG CACGAGGCAA AGAAAGCAAG TACCATAGTG 
    ATTCGTGGTG CTTGCTTAAC ACTTACTGAT CATGATAGAA TCCGACAGTT TATACAAGAG 
    TTTACATTCC GTGGCCTTTT GCCACACATA GAGAAAACAA TTCGTCAGTT AAACGATCAG 
    CTAATATCAA GGAAAGGTTT GAGTCGATCT CTGTTTTCTG CCACTAAGAA ATGGTTTAGT 
    GGTAGTAAAG TTCCAGAAAA GAGCATTAAT GAGCTGAAGA ATACATCTGG GTTGTTGTAT 
    CCGCCAGAAG CACCTGAGCT TCAGATCAGG AAGATGGCTG ACTTGTGCTT TTTGGTGCAA 
    CATTATGATT TGGCTTACAG TTGTTATCAC ACTGCAAAGA AGGATTTTCT TAACGATCAA 
    GCAATGCTTT ATGCAGCAGG TGCCTTGGAA ATGGCAGCAG TGTCAGCCTT TCTTCAGCCA 
    GGAGCTCCTA GGCCATACCC TGCTCATTAC ATGGACACAG CAATTCAGAC ATACAGGGAT 
    ATCTGCAAGA ATATGGTGTT GGCTGAAAGA TGCGTGTTGC TTAGTGCTGA AATTTTAAAA 
    AGTCAAAGCA AGTACTCAGA GGCTGCAGCT CTTCTAATAC GATTGACAAG TGAGGATTCT 
    GATCTCCGAA GTGCCCTTCT TTTGGAACAG GCTGCACATT GCTTCATAAA CATGAAGAGT 
    CCCATGGTTA GAAAATACGC ATTTCATATG ATCCTGGCAG GCCACCGTTT CAGTAAAGCA 
    GGGCAGAAAA AGCATGCTTT GCGCTGCTAT TGTCAAGCCA TGCAAGTTTA CAAAGGAAAG 
    GGCTGGTCTC TAGCAGAGGA TCACATCAAC TTCACCATTG GGCGCCAGTC CTATACTCTG 
    AGGCAGCTGG ACAATGCTGT TTCTGCTTTT AGACACATTT TAATCAATGA AAGCAAACAG 
    TCTGCTGCTC AGCAAGGAGC CTTCCTCAGA GAATATCTTT ATGTTTATAA GAATGTAAAT 
    CAGCTGTCAC CAGATGGCCC TTTACCACAG CTTCCCTTAC CATACATTAA CAGTTCAGCA 
    ACACGAGTTT TCTTTGGCCA TGACAGACGA CCAGCAGATG GTGAAAAGCA AGCGGCTACT 
    CATATAAGTC TTGATCAAGA ATATGACTCT GAGTCATCCC AGCAGTGGCG AGAACTTGAG 
    GAACATGTTG TGGCTGTGGC TAATAAAGGA GTAATTCCAT CTAGTTTCTA TCCTACACAG 
    TATTGTTTGA ACAGTTACTC CGATAACTCC AGATTTCCAC TTGCAGTTGT AGAAGAGCCA 
    ATTACTGTGG AAGTGGCTTT TAGAAACCCT TTAAAAGTTC CGCTTTTGCT GTCTGATTTG 
    TCATTACTCT GGAAGTTTCA GCCTAAAGAT GCCAGTGGGA AAGACATTGA AAAAGTGAAA 
    GAACGAGTTA CAGGTGAACC TGAAATGATT GGAACTGAAG TTATTTCAGA ATTCTTAATT 
    AACAGTGAAG AATCTAAAGT GGCAAGACTG AAGCTCTTCC CCCACCACAC AGGGGAGCTG 
    CACATTCTGG GAGTTGTGTA TAGTCTTGGC ACTATTCAGG GCTCCGTGAC AGTAGATGGC 
    ATTGGTGCTC TTCCTGGATG TCACACAGGA AAACATTCTC TGAGTATGTC AGTACGAGGG 
    AGACAGGATT TAGAAATTCA AGGCCCTCGA CTTAACAATA CAAAGGAAGA GAAGACGTCT 
    GTAAAGTACG GTCCTGACCG ACGTTTAGAT CCTATAGTCA CAGAGGAGAT GCCGCTGCTG 
    GAGGTGTTCT TTATACATTT TCCTACAGGG CTCCTCTGTG GAGAAATCCG AAAAGCATAT 
    GTAGAGTTTG TCAATGTCAG CAAATGTCCT CTGACTGGAC TGAAAGTTGT GTCTAAACGT 
    CCAGAGTTCT TCACTTTTGG TGGCAATACT GCTGCTCTAA CACCGCTGAG CCCCTCTGCA 
    TCTGAGAACT GCAGTGCCTA TAAGACGGTT GTAACAGCTT CCCCCTCCTT GGGGACAGCA 
    CTTGTGTCAA CAGCATCATC TATGGACTTT GGAACTGGCA CTGGACAGCA GCTGGAGGCC 
    ATTCCTGTCC CCCTTCCTGA CTCCGTGCTG CTTCCCGGAG CTTCCATCCA GCTGCCAATG 
    TGGCTTCGTG GGCCAGATGA AGAGGGTGTC CATGAAATTA ACTTTTTATT TTACTATGAA 
    AGTGTTAAAA AGCAGCCTAA AAAACGACAC AGAATATTAA GACACACTGC AGTTATTTGT 
    ACTAGCCGGT CTTTGAATGT GCGAGCGACT GTCTGCAGAA GTAATTCACT TGAAGATGAA 
    GAAGGCAGGG GCGGCAATAT GCTAGTCTTC GTGGATGTAG AAAATACTAA TACTAGTGAA 
    GCGGGGGTTA AGGAGTTCCA CATGGTGCAG GTGTCAAGCA GTAGCAAGCA CTGGCAGCTC 
    CACAAATCCG TGAATATCTC CGAAAACAAA GATGCCAAGC TTGCCAGTAG GGAGAAGGGA 
    AAGTTTTGCT TCAAGGCAGT AAGATGTAAA CAAAAAGAAG GTGGTATACA GTCCTCAGAA 
    AAATACACTT TTGCAGATAT CATCTTTGGA AATGAACAGA TAATAAGTTC AGCAAGTCCG 
    TGTGCAGATT TCTTTTACCG AAGTTTATCC TCAGAGTTGA AGAAAACACA AGATCAGCTT 
    TCCACATATT CAGAGAAACA GGCCACAGAG GGTGCTGTGA GGCTGATTGA GAAGTGCAGT 
    GAGGTGGACC TGAGCATCAT CATCCTGTGG AAGGCATACG TTGTAGAAGA TAACAAGCAG 
    CTTATTTTAG AAGGCCAGCA TCACGTTGTT GTTCGCACTG TTGGGAAAGA AGCCTTTTCA 
    CACTCTCAGA AAGAGGAGCC ACCAGAAATG GAACTATTAA AGTTTTTCAG GCCAGAAAAC 
    ACTACAGTTT CCACAAGACC ATCAGTAGAT CAGCTTTCTA ATCTCATTAA AACAAGTCTC 
    CACTATCCGG AGTCATTTCA CCATCCATTT CATCAGAAAA GCCTTTGCTT AGTCCCAGTC 
    ACCCTTTTAC TTTCTAACTG TTCTAAGGCT GATGTAGATG TAATAGTTGA TCTCCGGCAT 
    AAAACAACAA GTCCCGAGGC ACTGGAAACT CACGGATCAT TCACGTGGCT TGGACAGACA 
    CAGTATAAGC TCCAGCTGAA AAGCCAAGAG ATGCACAGTT TGCAGCTGAA GGCATGCTTT 
    GTTCATACAG GCGTTTATAA CCTTGGAACT CCAAGAGTAT TCGCCAAGTT ATCGGATCAC 
    GTTACAGTAT TTGAAACAAG TCAGCAGAAC TCCATGCCTG CTCTGATTAT CATCAATAAC 
    GCGTGA

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

    RefSeq XP_021006116.1
    CDS320..4585
    Translation

    Target ORF information:

    RefSeq Version XM_021150457.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021150457.2

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAGT AAGAATTCTG ATAGTAACTT GCTTTCATTG 
    GATGGACTAG ATAACGAAGT CAAAGACCAA TGCGGTGACC CTCCTAACAA TACCGACGGC 
    TCAGATTATG CAAAGGCTGC TTCTTCAGTG CACGAGGCAA AGAAAGCAAG TACCATAGTG 
    ATTCGTGGTG CTTGCTTAAC ACTTACTGAT CATGATAGAA TCCGACAGTT TATACAAGAG 
    TTTACATTCC GTGGCCTTTT GCCACACATA GAGAAAACAA TTCGTCAGTT AAACGATCAG 
    CTAATATCAA GGAAAGGTTT GAGTCGATCT CTGTTTTCTG CCACTAAGAA ATGGTTTAGT 
    GGTAGTAAAG TTCCAGAAAA GAGCATTAAT GAGCTGAAGA ATACATCTGG GTTGTTGTAT 
    CCGCCAGAAG CACCTGAGCT TCAGATCAGG AAGATGGCTG ACTTGTGCTT TTTGGTGCAA 
    CATTATGATT TGGCTTACAG TTGTTATCAC ACTGCAAAGA AGGATTTTCT TAACGATCAA 
    GCAATGCTTT ATGCAGCAGG TGCCTTGGAA ATGGCAGCAG TGTCAGCCTT TCTTCAGCCA 
    GGAGCTCCTA GGCCATACCC TGCTCATTAC ATGGACACAG CAATTCAGAC ATACAGGGAT 
    ATCTGCAAGA ATATGGTGTT GGCTGAAAGA TGCGTGTTGC TTAGTGCTGA AATTTTAAAA 
    AGTCAAAGCA AGTACTCAGA GGCTGCAGCT CTTCTAATAC GATTGACAAG TGAGGATTCT 
    GATCTCCGAA GTGCCCTTCT TTTGGAACAG GCTGCACATT GCTTCATAAA CATGAAGAGT 
    CCCATGGTTA GAAAATACGC ATTTCATATG ATCCTGGCAG GCCACCGTTT CAGTAAAGCA 
    GGGCAGAAAA AGCATGCTTT GCGCTGCTAT TGTCAAGCCA TGCAAGTTTA CAAAGGAAAG 
    GGCTGGTCTC TAGCAGAGGA TCACATCAAC TTCACCATTG GGCGCCAGTC CTATACTCTG 
    AGGCAGCTGG ACAATGCTGT TTCTGCTTTT AGACACATTT TAATCAATGA AAGCAAACAG 
    TCTGCTGCTC AGCAAGGAGC CTTCCTCAGA GAATATCTTT ATGTTTATAA GAATGTAAAT 
    CAGCTGTCAC CAGATGGCCC TTTACCACAG CTTCCCTTAC CATACATTAA CAGTTCAGCA 
    ACACGAGTTT TCTTTGGCCA TGACAGACGA CCAGCAGATG GTGAAAAGCA AGCGGCTACT 
    CATATAAGTC TTGATCAAGA ATATGACTCT GAGTCATCCC AGCAGTGGCG AGAACTTGAG 
    GAACATGTTG TGGCTGTGGC TAATAAAGGA GTAATTCCAT CTAGTTTCTA TCCTACACAG 
    TATTGTTTGA ACAGTTACTC CGATAACTCC AGATTTCCAC TTGCAGTTGT AGAAGAGCCA 
    ATTACTGTGG AAGTGGCTTT TAGAAACCCT TTAAAAGTTC CGCTTTTGCT GTCTGATTTG 
    TCATTACTCT GGAAGTTTCA GCCTAAAGAT GCCAGTGGGA AAGACATTGA AAAAGTGAAA 
    GAACGAGTTA CAGGTGAACC TGAAATGATT GGAACTGAAG TTATTTCAGA ATTCTTAATT 
    AACAGTGAAG AATCTAAAGT GGCAAGACTG AAGCTCTTCC CCCACCACAC AGGGGAGCTG 
    CACATTCTGG GAGTTGTGTA TAGTCTTGGC ACTATTCAGG GCTCCGTGAC AGTAGATGGC 
    ATTGGTGCTC TTCCTGGATG TCACACAGGA AAACATTCTC TGAGTATGTC AGTACGAGGG 
    AGACAGGATT TAGAAATTCA AGGCCCTCGA CTTAACAATA CAAAGGAAGA GAAGACGTCT 
    GTAAAGTACG GTCCTGACCG ACGTTTAGAT CCTATAGTCA CAGAGGAGAT GCCGCTGCTG 
    GAGGTGTTCT TTATACATTT TCCTACAGGG CTCCTCTGTG GAGAAATCCG AAAAGCATAT 
    GTAGAGTTTG TCAATGTCAG CAAATGTCCT CTGACTGGAC TGAAAGTTGT GTCTAAACGT 
    CCAGAGTTCT TCACTTTTGG TGGCAATACT GCTGCTCTAA CACCGCTGAG CCCCTCTGCA 
    TCTGAGAACT GCAGTGCCTA TAAGACGGTT GTAACAGCTT CCCCCTCCTT GGGGACAGCA 
    CTTGTGTCAA CAGCATCATC TATGGACTTT GGAACTGGCA CTGGACAGCA GCTGGAGGCC 
    ATTCCTGTCC CCCTTCCTGA CTCCGTGCTG CTTCCCGGAG CTTCCATCCA GCTGCCAATG 
    TGGCTTCGTG GGCCAGATGA AGAGGGTGTC CATGAAATTA ACTTTTTATT TTACTATGAA 
    AGTGTTAAAA AGCAGCCTAA AAAACGACAC AGAATATTAA GACACACTGC AGTTATTTGT 
    ACTAGCCGGT CTTTGAATGT GCGAGCGACT GTCTGCAGAA GTAATTCACT TGAAGATGAA 
    GAAGGCAGGG GCGGCAATAT GCTAGTCTTC GTGGATGTAG AAAATACTAA TACTAGTGAA 
    GCGGGGGTTA AGGAGTTCCA CATGGTGCAG GTGTCAAGCA GTAGCAAGCA CTGGCAGCTC 
    CACAAATCCG TGAATATCTC CGAAAACAAA GATGCCAAGC TTGCCAGTAG GGAGAAGGGA 
    AAGTTTTGCT TCAAGGCAGT AAGATGTAAA CAAAAAGAAG GTGGTATACA GTCCTCAGAA 
    AAATACACTT TTGCAGATAT CATCTTTGGA AATGAACAGA TAATAAGTTC AGCAAGTCCG 
    TGTGCAGATT TCTTTTACCG AAGTTTATCC TCAGAGTTGA AGAAAACACA AGATCAGCTT 
    TCCACATATT CAGAGAAACA GGCCACAGAG GGTGCTGTGA GGCTGATTGA GAAGTGCAGT 
    GAGGTGGACC TGAGCATCAT CATCCTGTGG AAGGCATACG TTGTAGAAGA TAACAAGCAG 
    CTTATTTTAG AAGGCCAGCA TCACGTTGTT GTTCGCACTG TTGGGAAAGA AGCCTTTTCA 
    CACTCTCAGA AAGAGGAGCC ACCAGAAATG GAACTATTAA AGTTTTTCAG GCCAGAAAAC 
    ACTACAGTTT CCACAAGACC ATCAGTAGAT CAGCTTTCTA ATCTCATTAA AACAAGTCTC 
    CACTATCCGG AGTCATTTCA CCATCCATTT CATCAGAAAA GCCTTTGCTT AGTCCCAGTC 
    ACCCTTTTAC TTTCTAACTG TTCTAAGGCT GATGTAGATG TAATAGTTGA TCTCCGGCAT 
    AAAACAACAA GTCCCGAGGC ACTGGAAACT CACGGATCAT TCACGTGGCT TGGACAGACA 
    CAGTATAAGC TCCAGCTGAA AAGCCAAGAG ATGCACAGTT TGCAGCTGAA GGCATGCTTT 
    GTTCATACAG GCGTTTATAA CCTTGGAACT CCAAGAGTAT TCGCCAAGTT ATCGGATCAC 
    GTTACAGTAT TTGAAACAAG TCAGCAGAAC TCCATGCCTG CTCTGATTAT CATCAATAAC 
    GCGTGA

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

    Trappc8 ( XM_021150458.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006117.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv35671
    Clone ID Related Accession (Same CDS sequence) XM_021150458.2 , XM_021150458.1
    Accession Version XM_021150458.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4254bp)
    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 trafficking protein particle complex subunit 8 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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_021150458.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCATA GATGGCCTAC CAAATAACTT CAGAATTCAT 
    CCACTTCAAA TAGACCAATG CGGTGACCCT CCTAACAATA CCGACGGCTC AGATTATGCA 
    AAGGCTGCTT CTTCAGTGCA CGAGGCAAAG AAAGCAAGTA CCATAGTGAT TCGTGGTGCT 
    TGCTTAACAC TTACTGATCA TGATAGAATC CGACAGTTTA TACAAGAGTT TACATTCCGT 
    GGCCTTTTGC CACACATAGA GAAAACAATT CGTCAGTTAA ACGATCAGCT AATATCAAGG 
    AAAGGTTTGA GTCGATCTCT GTTTTCTGCC ACTAAGAAAT GGTTTAGTGG TAGTAAAGTT 
    CCAGAAAAGA GCATTAATGA GCTGAAGAAT ACATCTGGGT TGTTGTATCC GCCAGAAGCA 
    CCTGAGCTTC AGATCAGGAA GATGGCTGAC TTGTGCTTTT TGGTGCAACA TTATGATTTG 
    GCTTACAGTT GTTATCACAC TGCAAAGAAG GATTTTCTTA ACGATCAAGC AATGCTTTAT 
    GCAGCAGGTG CCTTGGAAAT GGCAGCAGTG TCAGCCTTTC TTCAGCCAGG AGCTCCTAGG 
    CCATACCCTG CTCATTACAT GGACACAGCA ATTCAGACAT ACAGGGATAT CTGCAAGAAT 
    ATGGTGTTGG CTGAAAGATG CGTGTTGCTT AGTGCTGAAA TTTTAAAAAG TCAAAGCAAG 
    TACTCAGAGG CTGCAGCTCT TCTAATACGA TTGACAAGTG AGGATTCTGA TCTCCGAAGT 
    GCCCTTCTTT TGGAACAGGC TGCACATTGC TTCATAAACA TGAAGAGTCC CATGGTTAGA 
    AAATACGCAT TTCATATGAT CCTGGCAGGC CACCGTTTCA GTAAAGCAGG GCAGAAAAAG 
    CATGCTTTGC GCTGCTATTG TCAAGCCATG CAAGTTTACA AAGGAAAGGG CTGGTCTCTA 
    GCAGAGGATC ACATCAACTT CACCATTGGG CGCCAGTCCT ATACTCTGAG GCAGCTGGAC 
    AATGCTGTTT CTGCTTTTAG ACACATTTTA ATCAATGAAA GCAAACAGTC TGCTGCTCAG 
    CAAGGAGCCT TCCTCAGAGA ATATCTTTAT GTTTATAAGA ATGTAAATCA GCTGTCACCA 
    GATGGCCCTT TACCACAGCT TCCCTTACCA TACATTAACA GTTCAGCAAC ACGAGTTTTC 
    TTTGGCCATG ACAGACGACC AGCAGATGGT GAAAAGCAAG CGGCTACTCA TATAAGTCTT 
    GATCAAGAAT ATGACTCTGA GTCATCCCAG CAGTGGCGAG AACTTGAGGA ACATGTTGTG 
    GCTGTGGCTA ATAAAGGAGT AATTCCATCT AGTTTCTATC CTACACAGTA TTGTTTGAAC 
    AGTTACTCCG ATAACTCCAG ATTTCCACTT GCAGTTGTAG AAGAGCCAAT TACTGTGGAA 
    GTGGCTTTTA GAAACCCTTT AAAAGTTCCG CTTTTGCTGT CTGATTTGTC ATTACTCTGG 
    AAGTTTCAGC CTAAAGATGC CAGTGGGAAA GACATTGAAA AAGTGAAAGA ACGAGTTACA 
    GGTGAACCTG AAATGATTGG AACTGAAGTT ATTTCAGAAT TCTTAATTAA CAGTGAAGAA 
    TCTAAAGTGG CAAGACTGAA GCTCTTCCCC CACCACACAG GGGAGCTGCA CATTCTGGGA 
    GTTGTGTATA GTCTTGGCAC TATTCAGGGC TCCGTGACAG TAGATGGCAT TGGTGCTCTT 
    CCTGGATGTC ACACAGGAAA ACATTCTCTG AGTATGTCAG TACGAGGGAG ACAGGATTTA 
    GAAATTCAAG GCCCTCGACT TAACAATACA AAGGAAGAGA AGACGTCTGT AAAGTACGGT 
    CCTGACCGAC GTTTAGATCC TATAGTCACA GAGGAGATGC CGCTGCTGGA GGTGTTCTTT 
    ATACATTTTC CTACAGGGCT CCTCTGTGGA GAAATCCGAA AAGCATATGT AGAGTTTGTC 
    AATGTCAGCA AATGTCCTCT GACTGGACTG AAAGTTGTGT CTAAACGTCC AGAGTTCTTC 
    ACTTTTGGTG GCAATACTGC TGCTCTAACA CCGCTGAGCC CCTCTGCATC TGAGAACTGC 
    AGTGCCTATA AGACGGTTGT AACAGCTTCC CCCTCCTTGG GGACAGCACT TGTGTCAACA 
    GCATCATCTA TGGACTTTGG AACTGGCACT GGACAGCAGC TGGAGGCCAT TCCTGTCCCC 
    CTTCCTGACT CCGTGCTGCT TCCCGGAGCT TCCATCCAGC TGCCAATGTG GCTTCGTGGG 
    CCAGATGAAG AGGGTGTCCA TGAAATTAAC TTTTTATTTT ACTATGAAAG TGTTAAAAAG 
    CAGCCTAAAA AACGACACAG AATATTAAGA CACACTGCAG TTATTTGTAC TAGCCGGTCT 
    TTGAATGTGC GAGCGACTGT CTGCAGAAGT AATTCACTTG AAGATGAAGA AGGCAGGGGC 
    GGCAATATGC TAGTCTTCGT GGATGTAGAA AATACTAATA CTAGTGAAGC GGGGGTTAAG 
    GAGTTCCACA TGGTGCAGGT GTCAAGCAGT AGCAAGCACT GGCAGCTCCA CAAATCCGTG 
    AATATCTCCG AAAACAAAGA TGCCAAGCTT GCCAGTAGGG AGAAGGGAAA GTTTTGCTTC 
    AAGGCAGTAA GATGTAAACA AAAAGAAGGT GGTATACAGT CCTCAGAAAA ATACACTTTT 
    GCAGATATCA TCTTTGGAAA TGAACAGATA ATAAGTTCAG CAAGTCCGTG TGCAGATTTC 
    TTTTACCGAA GTTTATCCTC AGAGTTGAAG AAAACACAAG ATCAGCTTTC CACATATTCA 
    GAGAAACAGG CCACAGAGGG TGCTGTGAGG CTGATTGAGA AGTGCAGTGA GGTGGACCTG 
    AGCATCATCA TCCTGTGGAA GGCATACGTT GTAGAAGATA ACAAGCAGCT TATTTTAGAA 
    GGCCAGCATC ACGTTGTTGT TCGCACTGTT GGGAAAGAAG CCTTTTCACA CTCTCAGAAA 
    GAGGAGCCAC CAGAAATGGA ACTATTAAAG TTTTTCAGGC CAGAAAACAC TACAGTTTCC 
    ACAAGACCAT CAGTAGATCA GCTTTCTAAT CTCATTAAAA CAAGTCTCCA CTATCCGGAG 
    TCATTTCACC ATCCATTTCA TCAGAAAAGC CTTTGCTTAG TCCCAGTCAC CCTTTTACTT 
    TCTAACTGTT CTAAGGCTGA TGTAGATGTA ATAGTTGATC TCCGGCATAA AACAACAAGT 
    CCCGAGGCAC TGGAAACTCA CGGATCATTC ACGTGGCTTG GACAGACACA GTATAAGCTC 
    CAGCTGAAAA GCCAAGAGAT GCACAGTTTG CAGCTGAAGG CATGCTTTGT TCATACAGGC 
    GTTTATAACC TTGGAACTCC AAGAGTATTC GCCAAGTTAT CGGATCACGT TACAGTATTT 
    GAAACAAGTC AGCAGAACTC CATGCCTGCT CTGATTATCA TCAATAACGC GTGA

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

    RefSeq XP_021006117.1
    CDS320..4573
    Translation

    Target ORF information:

    RefSeq Version XM_021150458.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021150458.2

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCATA GATGGCCTAC CAAATAACTT CAGAATTCAT 
    CCACTTCAAA TAGACCAATG CGGTGACCCT CCTAACAATA CCGACGGCTC AGATTATGCA 
    AAGGCTGCTT CTTCAGTGCA CGAGGCAAAG AAAGCAAGTA CCATAGTGAT TCGTGGTGCT 
    TGCTTAACAC TTACTGATCA TGATAGAATC CGACAGTTTA TACAAGAGTT TACATTCCGT 
    GGCCTTTTGC CACACATAGA GAAAACAATT CGTCAGTTAA ACGATCAGCT AATATCAAGG 
    AAAGGTTTGA GTCGATCTCT GTTTTCTGCC ACTAAGAAAT GGTTTAGTGG TAGTAAAGTT 
    CCAGAAAAGA GCATTAATGA GCTGAAGAAT ACATCTGGGT TGTTGTATCC GCCAGAAGCA 
    CCTGAGCTTC AGATCAGGAA GATGGCTGAC TTGTGCTTTT TGGTGCAACA TTATGATTTG 
    GCTTACAGTT GTTATCACAC TGCAAAGAAG GATTTTCTTA ACGATCAAGC AATGCTTTAT 
    GCAGCAGGTG CCTTGGAAAT GGCAGCAGTG TCAGCCTTTC TTCAGCCAGG AGCTCCTAGG 
    CCATACCCTG CTCATTACAT GGACACAGCA ATTCAGACAT ACAGGGATAT CTGCAAGAAT 
    ATGGTGTTGG CTGAAAGATG CGTGTTGCTT AGTGCTGAAA TTTTAAAAAG TCAAAGCAAG 
    TACTCAGAGG CTGCAGCTCT TCTAATACGA TTGACAAGTG AGGATTCTGA TCTCCGAAGT 
    GCCCTTCTTT TGGAACAGGC TGCACATTGC TTCATAAACA TGAAGAGTCC CATGGTTAGA 
    AAATACGCAT TTCATATGAT CCTGGCAGGC CACCGTTTCA GTAAAGCAGG GCAGAAAAAG 
    CATGCTTTGC GCTGCTATTG TCAAGCCATG CAAGTTTACA AAGGAAAGGG CTGGTCTCTA 
    GCAGAGGATC ACATCAACTT CACCATTGGG CGCCAGTCCT ATACTCTGAG GCAGCTGGAC 
    AATGCTGTTT CTGCTTTTAG ACACATTTTA ATCAATGAAA GCAAACAGTC TGCTGCTCAG 
    CAAGGAGCCT TCCTCAGAGA ATATCTTTAT GTTTATAAGA ATGTAAATCA GCTGTCACCA 
    GATGGCCCTT TACCACAGCT TCCCTTACCA TACATTAACA GTTCAGCAAC ACGAGTTTTC 
    TTTGGCCATG ACAGACGACC AGCAGATGGT GAAAAGCAAG CGGCTACTCA TATAAGTCTT 
    GATCAAGAAT ATGACTCTGA GTCATCCCAG CAGTGGCGAG AACTTGAGGA ACATGTTGTG 
    GCTGTGGCTA ATAAAGGAGT AATTCCATCT AGTTTCTATC CTACACAGTA TTGTTTGAAC 
    AGTTACTCCG ATAACTCCAG ATTTCCACTT GCAGTTGTAG AAGAGCCAAT TACTGTGGAA 
    GTGGCTTTTA GAAACCCTTT AAAAGTTCCG CTTTTGCTGT CTGATTTGTC ATTACTCTGG 
    AAGTTTCAGC CTAAAGATGC CAGTGGGAAA GACATTGAAA AAGTGAAAGA ACGAGTTACA 
    GGTGAACCTG AAATGATTGG AACTGAAGTT ATTTCAGAAT TCTTAATTAA CAGTGAAGAA 
    TCTAAAGTGG CAAGACTGAA GCTCTTCCCC CACCACACAG GGGAGCTGCA CATTCTGGGA 
    GTTGTGTATA GTCTTGGCAC TATTCAGGGC TCCGTGACAG TAGATGGCAT TGGTGCTCTT 
    CCTGGATGTC ACACAGGAAA ACATTCTCTG AGTATGTCAG TACGAGGGAG ACAGGATTTA 
    GAAATTCAAG GCCCTCGACT TAACAATACA AAGGAAGAGA AGACGTCTGT AAAGTACGGT 
    CCTGACCGAC GTTTAGATCC TATAGTCACA GAGGAGATGC CGCTGCTGGA GGTGTTCTTT 
    ATACATTTTC CTACAGGGCT CCTCTGTGGA GAAATCCGAA AAGCATATGT AGAGTTTGTC 
    AATGTCAGCA AATGTCCTCT GACTGGACTG AAAGTTGTGT CTAAACGTCC AGAGTTCTTC 
    ACTTTTGGTG GCAATACTGC TGCTCTAACA CCGCTGAGCC CCTCTGCATC TGAGAACTGC 
    AGTGCCTATA AGACGGTTGT AACAGCTTCC CCCTCCTTGG GGACAGCACT TGTGTCAACA 
    GCATCATCTA TGGACTTTGG AACTGGCACT GGACAGCAGC TGGAGGCCAT TCCTGTCCCC 
    CTTCCTGACT CCGTGCTGCT TCCCGGAGCT TCCATCCAGC TGCCAATGTG GCTTCGTGGG 
    CCAGATGAAG AGGGTGTCCA TGAAATTAAC TTTTTATTTT ACTATGAAAG TGTTAAAAAG 
    CAGCCTAAAA AACGACACAG AATATTAAGA CACACTGCAG TTATTTGTAC TAGCCGGTCT 
    TTGAATGTGC GAGCGACTGT CTGCAGAAGT AATTCACTTG AAGATGAAGA AGGCAGGGGC 
    GGCAATATGC TAGTCTTCGT GGATGTAGAA AATACTAATA CTAGTGAAGC GGGGGTTAAG 
    GAGTTCCACA TGGTGCAGGT GTCAAGCAGT AGCAAGCACT GGCAGCTCCA CAAATCCGTG 
    AATATCTCCG AAAACAAAGA TGCCAAGCTT GCCAGTAGGG AGAAGGGAAA GTTTTGCTTC 
    AAGGCAGTAA GATGTAAACA AAAAGAAGGT GGTATACAGT CCTCAGAAAA ATACACTTTT 
    GCAGATATCA TCTTTGGAAA TGAACAGATA ATAAGTTCAG CAAGTCCGTG TGCAGATTTC 
    TTTTACCGAA GTTTATCCTC AGAGTTGAAG AAAACACAAG ATCAGCTTTC CACATATTCA 
    GAGAAACAGG CCACAGAGGG TGCTGTGAGG CTGATTGAGA AGTGCAGTGA GGTGGACCTG 
    AGCATCATCA TCCTGTGGAA GGCATACGTT GTAGAAGATA ACAAGCAGCT TATTTTAGAA 
    GGCCAGCATC ACGTTGTTGT TCGCACTGTT GGGAAAGAAG CCTTTTCACA CTCTCAGAAA 
    GAGGAGCCAC CAGAAATGGA ACTATTAAAG TTTTTCAGGC CAGAAAACAC TACAGTTTCC 
    ACAAGACCAT CAGTAGATCA GCTTTCTAAT CTCATTAAAA CAAGTCTCCA CTATCCGGAG 
    TCATTTCACC ATCCATTTCA TCAGAAAAGC CTTTGCTTAG TCCCAGTCAC CCTTTTACTT 
    TCTAACTGTT CTAAGGCTGA TGTAGATGTA ATAGTTGATC TCCGGCATAA AACAACAAGT 
    CCCGAGGCAC TGGAAACTCA CGGATCATTC ACGTGGCTTG GACAGACACA GTATAAGCTC 
    CAGCTGAAAA GCCAAGAGAT GCACAGTTTG CAGCTGAAGG CATGCTTTGT TCATACAGGC 
    GTTTATAACC TTGGAACTCC AAGAGTATTC GCCAAGTTAT CGGATCACGT TACAGTATTT 
    GAAACAAGTC AGCAGAACTC CATGCCTGCT CTGATTATCA TCAATAACGC GTGA

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

    Trappc8 ( XM_021150458.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021006117.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv35671
    Clone ID Related Accession (Same CDS sequence) XM_021150458.2 , XM_021150458.1
    Accession Version XM_021150458.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4254bp)
    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 trafficking protein particle complex subunit 8 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCATA GATGGCCTAC CAAATAACTT CAGAATTCAT 
    CCACTTCAAA TAGACCAATG CGGTGACCCT CCTAACAATA CCGACGGCTC AGATTATGCA 
    AAGGCTGCTT CTTCAGTGCA CGAGGCAAAG AAAGCAAGTA CCATAGTGAT TCGTGGTGCT 
    TGCTTAACAC TTACTGATCA TGATAGAATC CGACAGTTTA TACAAGAGTT TACATTCCGT 
    GGCCTTTTGC CACACATAGA GAAAACAATT CGTCAGTTAA ACGATCAGCT AATATCAAGG 
    AAAGGTTTGA GTCGATCTCT GTTTTCTGCC ACTAAGAAAT GGTTTAGTGG TAGTAAAGTT 
    CCAGAAAAGA GCATTAATGA GCTGAAGAAT ACATCTGGGT TGTTGTATCC GCCAGAAGCA 
    CCTGAGCTTC AGATCAGGAA GATGGCTGAC TTGTGCTTTT TGGTGCAACA TTATGATTTG 
    GCTTACAGTT GTTATCACAC TGCAAAGAAG GATTTTCTTA ACGATCAAGC AATGCTTTAT 
    GCAGCAGGTG CCTTGGAAAT GGCAGCAGTG TCAGCCTTTC TTCAGCCAGG AGCTCCTAGG 
    CCATACCCTG CTCATTACAT GGACACAGCA ATTCAGACAT ACAGGGATAT CTGCAAGAAT 
    ATGGTGTTGG CTGAAAGATG CGTGTTGCTT AGTGCTGAAA TTTTAAAAAG TCAAAGCAAG 
    TACTCAGAGG CTGCAGCTCT TCTAATACGA TTGACAAGTG AGGATTCTGA TCTCCGAAGT 
    GCCCTTCTTT TGGAACAGGC TGCACATTGC TTCATAAACA TGAAGAGTCC CATGGTTAGA 
    AAATACGCAT TTCATATGAT CCTGGCAGGC CACCGTTTCA GTAAAGCAGG GCAGAAAAAG 
    CATGCTTTGC GCTGCTATTG TCAAGCCATG CAAGTTTACA AAGGAAAGGG CTGGTCTCTA 
    GCAGAGGATC ACATCAACTT CACCATTGGG CGCCAGTCCT ATACTCTGAG GCAGCTGGAC 
    AATGCTGTTT CTGCTTTTAG ACACATTTTA ATCAATGAAA GCAAACAGTC TGCTGCTCAG 
    CAAGGAGCCT TCCTCAGAGA ATATCTTTAT GTTTATAAGA ATGTAAATCA GCTGTCACCA 
    GATGGCCCTT TACCACAGCT TCCCTTACCA TACATTAACA GTTCAGCAAC ACGAGTTTTC 
    TTTGGCCATG ACAGACGACC AGCAGATGGT GAAAAGCAAG CGGCTACTCA TATAAGTCTT 
    GATCAAGAAT ATGACTCTGA GTCATCCCAG CAGTGGCGAG AACTTGAGGA ACATGTTGTG 
    GCTGTGGCTA ATAAAGGAGT AATTCCATCT AGTTTCTATC CTACACAGTA TTGTTTGAAC 
    AGTTACTCCG ATAACTCCAG ATTTCCACTT GCAGTTGTAG AAGAGCCAAT TACTGTGGAA 
    GTGGCTTTTA GAAACCCTTT AAAAGTTCCG CTTTTGCTGT CTGATTTGTC ATTACTCTGG 
    AAGTTTCAGC CTAAAGATGC CAGTGGGAAA GACATTGAAA AAGTGAAAGA ACGAGTTACA 
    GGTGAACCTG AAATGATTGG AACTGAAGTT ATTTCAGAAT TCTTAATTAA CAGTGAAGAA 
    TCTAAAGTGG CAAGACTGAA GCTCTTCCCC CACCACACAG GGGAGCTGCA CATTCTGGGA 
    GTTGTGTATA GTCTTGGCAC TATTCAGGGC TCCGTGACAG TAGATGGCAT TGGTGCTCTT 
    CCTGGATGTC ACACAGGAAA ACATTCTCTG AGTATGTCAG TACGAGGGAG ACAGGATTTA 
    GAAATTCAAG GCCCTCGACT TAACAATACA AAGGAAGAGA AGACGTCTGT AAAGTACGGT 
    CCTGACCGAC GTTTAGATCC TATAGTCACA GAGGAGATGC CGCTGCTGGA GGTGTTCTTT 
    ATACATTTTC CTACAGGGCT CCTCTGTGGA GAAATCCGAA AAGCATATGT AGAGTTTGTC 
    AATGTCAGCA AATGTCCTCT GACTGGACTG AAAGTTGTGT CTAAACGTCC AGAGTTCTTC 
    ACTTTTGGTG GCAATACTGC TGCTCTAACA CCGCTGAGCC CCTCTGCATC TGAGAACTGC 
    AGTGCCTATA AGACGGTTGT AACAGCTTCC CCCTCCTTGG GGACAGCACT TGTGTCAACA 
    GCATCATCTA TGGACTTTGG AACTGGCACT GGACAGCAGC TGGAGGCCAT TCCTGTCCCC 
    CTTCCTGACT CCGTGCTGCT TCCCGGAGCT TCCATCCAGC TGCCAATGTG GCTTCGTGGG 
    CCAGATGAAG AGGGTGTCCA TGAAATTAAC TTTTTATTTT ACTATGAAAG TGTTAAAAAG 
    CAGCCTAAAA AACGACACAG AATATTAAGA CACACTGCAG TTATTTGTAC TAGCCGGTCT 
    TTGAATGTGC GAGCGACTGT CTGCAGAAGT AATTCACTTG AAGATGAAGA AGGCAGGGGC 
    GGCAATATGC TAGTCTTCGT GGATGTAGAA AATACTAATA CTAGTGAAGC GGGGGTTAAG 
    GAGTTCCACA TGGTGCAGGT GTCAAGCAGT AGCAAGCACT GGCAGCTCCA CAAATCCGTG 
    AATATCTCCG AAAACAAAGA TGCCAAGCTT GCCAGTAGGG AGAAGGGAAA GTTTTGCTTC 
    AAGGCAGTAA GATGTAAACA AAAAGAAGGT GGTATACAGT CCTCAGAAAA ATACACTTTT 
    GCAGATATCA TCTTTGGAAA TGAACAGATA ATAAGTTCAG CAAGTCCGTG TGCAGATTTC 
    TTTTACCGAA GTTTATCCTC AGAGTTGAAG AAAACACAAG ATCAGCTTTC CACATATTCA 
    GAGAAACAGG CCACAGAGGG TGCTGTGAGG CTGATTGAGA AGTGCAGTGA GGTGGACCTG 
    AGCATCATCA TCCTGTGGAA GGCATACGTT GTAGAAGATA ACAAGCAGCT TATTTTAGAA 
    GGCCAGCATC ACGTTGTTGT TCGCACTGTT GGGAAAGAAG CCTTTTCACA CTCTCAGAAA 
    GAGGAGCCAC CAGAAATGGA ACTATTAAAG TTTTTCAGGC CAGAAAACAC TACAGTTTCC 
    ACAAGACCAT CAGTAGATCA GCTTTCTAAT CTCATTAAAA CAAGTCTCCA CTATCCGGAG 
    TCATTTCACC ATCCATTTCA TCAGAAAAGC CTTTGCTTAG TCCCAGTCAC CCTTTTACTT 
    TCTAACTGTT CTAAGGCTGA TGTAGATGTA ATAGTTGATC TCCGGCATAA AACAACAAGT 
    CCCGAGGCAC TGGAAACTCA CGGATCATTC ACGTGGCTTG GACAGACACA GTATAAGCTC 
    CAGCTGAAAA GCCAAGAGAT GCACAGTTTG CAGCTGAAGG CATGCTTTGT TCATACAGGC 
    GTTTATAACC TTGGAACTCC AAGAGTATTC GCCAAGTTAT CGGATCACGT TACAGTATTT 
    GAAACAAGTC AGCAGAACTC CATGCCTGCT CTGATTATCA TCAATAACGC GTGA

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

    RefSeq XP_021006117.1
    CDS2..4255
    Translation

    Target ORF information:

    RefSeq Version XM_021150458.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021150458.1

    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
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCATA GATGGCCTAC CAAATAACTT CAGAATTCAT 
    CCACTTCAAA TAGACCAATG CGGTGACCCT CCTAACAATA CCGACGGCTC AGATTATGCA 
    AAGGCTGCTT CTTCAGTGCA CGAGGCAAAG AAAGCAAGTA CCATAGTGAT TCGTGGTGCT 
    TGCTTAACAC TTACTGATCA TGATAGAATC CGACAGTTTA TACAAGAGTT TACATTCCGT 
    GGCCTTTTGC CACACATAGA GAAAACAATT CGTCAGTTAA ACGATCAGCT AATATCAAGG 
    AAAGGTTTGA GTCGATCTCT GTTTTCTGCC ACTAAGAAAT GGTTTAGTGG TAGTAAAGTT 
    CCAGAAAAGA GCATTAATGA GCTGAAGAAT ACATCTGGGT TGTTGTATCC GCCAGAAGCA 
    CCTGAGCTTC AGATCAGGAA GATGGCTGAC TTGTGCTTTT TGGTGCAACA TTATGATTTG 
    GCTTACAGTT GTTATCACAC TGCAAAGAAG GATTTTCTTA ACGATCAAGC AATGCTTTAT 
    GCAGCAGGTG CCTTGGAAAT GGCAGCAGTG TCAGCCTTTC TTCAGCCAGG AGCTCCTAGG 
    CCATACCCTG CTCATTACAT GGACACAGCA ATTCAGACAT ACAGGGATAT CTGCAAGAAT 
    ATGGTGTTGG CTGAAAGATG CGTGTTGCTT AGTGCTGAAA TTTTAAAAAG TCAAAGCAAG 
    TACTCAGAGG CTGCAGCTCT TCTAATACGA TTGACAAGTG AGGATTCTGA TCTCCGAAGT 
    GCCCTTCTTT TGGAACAGGC TGCACATTGC TTCATAAACA TGAAGAGTCC CATGGTTAGA 
    AAATACGCAT TTCATATGAT CCTGGCAGGC CACCGTTTCA GTAAAGCAGG GCAGAAAAAG 
    CATGCTTTGC GCTGCTATTG TCAAGCCATG CAAGTTTACA AAGGAAAGGG CTGGTCTCTA 
    GCAGAGGATC ACATCAACTT CACCATTGGG CGCCAGTCCT ATACTCTGAG GCAGCTGGAC 
    AATGCTGTTT CTGCTTTTAG ACACATTTTA ATCAATGAAA GCAAACAGTC TGCTGCTCAG 
    CAAGGAGCCT TCCTCAGAGA ATATCTTTAT GTTTATAAGA ATGTAAATCA GCTGTCACCA 
    GATGGCCCTT TACCACAGCT TCCCTTACCA TACATTAACA GTTCAGCAAC ACGAGTTTTC 
    TTTGGCCATG ACAGACGACC AGCAGATGGT GAAAAGCAAG CGGCTACTCA TATAAGTCTT 
    GATCAAGAAT ATGACTCTGA GTCATCCCAG CAGTGGCGAG AACTTGAGGA ACATGTTGTG 
    GCTGTGGCTA ATAAAGGAGT AATTCCATCT AGTTTCTATC CTACACAGTA TTGTTTGAAC 
    AGTTACTCCG ATAACTCCAG ATTTCCACTT GCAGTTGTAG AAGAGCCAAT TACTGTGGAA 
    GTGGCTTTTA GAAACCCTTT AAAAGTTCCG CTTTTGCTGT CTGATTTGTC ATTACTCTGG 
    AAGTTTCAGC CTAAAGATGC CAGTGGGAAA GACATTGAAA AAGTGAAAGA ACGAGTTACA 
    GGTGAACCTG AAATGATTGG AACTGAAGTT ATTTCAGAAT TCTTAATTAA CAGTGAAGAA 
    TCTAAAGTGG CAAGACTGAA GCTCTTCCCC CACCACACAG GGGAGCTGCA CATTCTGGGA 
    GTTGTGTATA GTCTTGGCAC TATTCAGGGC TCCGTGACAG TAGATGGCAT TGGTGCTCTT 
    CCTGGATGTC ACACAGGAAA ACATTCTCTG AGTATGTCAG TACGAGGGAG ACAGGATTTA 
    GAAATTCAAG GCCCTCGACT TAACAATACA AAGGAAGAGA AGACGTCTGT AAAGTACGGT 
    CCTGACCGAC GTTTAGATCC TATAGTCACA GAGGAGATGC CGCTGCTGGA GGTGTTCTTT 
    ATACATTTTC CTACAGGGCT CCTCTGTGGA GAAATCCGAA AAGCATATGT AGAGTTTGTC 
    AATGTCAGCA AATGTCCTCT GACTGGACTG AAAGTTGTGT CTAAACGTCC AGAGTTCTTC 
    ACTTTTGGTG GCAATACTGC TGCTCTAACA CCGCTGAGCC CCTCTGCATC TGAGAACTGC 
    AGTGCCTATA AGACGGTTGT AACAGCTTCC CCCTCCTTGG GGACAGCACT TGTGTCAACA 
    GCATCATCTA TGGACTTTGG AACTGGCACT GGACAGCAGC TGGAGGCCAT TCCTGTCCCC 
    CTTCCTGACT CCGTGCTGCT TCCCGGAGCT TCCATCCAGC TGCCAATGTG GCTTCGTGGG 
    CCAGATGAAG AGGGTGTCCA TGAAATTAAC TTTTTATTTT ACTATGAAAG TGTTAAAAAG 
    CAGCCTAAAA AACGACACAG AATATTAAGA CACACTGCAG TTATTTGTAC TAGCCGGTCT 
    TTGAATGTGC GAGCGACTGT CTGCAGAAGT AATTCACTTG AAGATGAAGA AGGCAGGGGC 
    GGCAATATGC TAGTCTTCGT GGATGTAGAA AATACTAATA CTAGTGAAGC GGGGGTTAAG 
    GAGTTCCACA TGGTGCAGGT GTCAAGCAGT AGCAAGCACT GGCAGCTCCA CAAATCCGTG 
    AATATCTCCG AAAACAAAGA TGCCAAGCTT GCCAGTAGGG AGAAGGGAAA GTTTTGCTTC 
    AAGGCAGTAA GATGTAAACA AAAAGAAGGT GGTATACAGT CCTCAGAAAA ATACACTTTT 
    GCAGATATCA TCTTTGGAAA TGAACAGATA ATAAGTTCAG CAAGTCCGTG TGCAGATTTC 
    TTTTACCGAA GTTTATCCTC AGAGTTGAAG AAAACACAAG ATCAGCTTTC CACATATTCA 
    GAGAAACAGG CCACAGAGGG TGCTGTGAGG CTGATTGAGA AGTGCAGTGA GGTGGACCTG 
    AGCATCATCA TCCTGTGGAA GGCATACGTT GTAGAAGATA ACAAGCAGCT TATTTTAGAA 
    GGCCAGCATC ACGTTGTTGT TCGCACTGTT GGGAAAGAAG CCTTTTCACA CTCTCAGAAA 
    GAGGAGCCAC CAGAAATGGA ACTATTAAAG TTTTTCAGGC CAGAAAACAC TACAGTTTCC 
    ACAAGACCAT CAGTAGATCA GCTTTCTAAT CTCATTAAAA CAAGTCTCCA CTATCCGGAG 
    TCATTTCACC ATCCATTTCA TCAGAAAAGC CTTTGCTTAG TCCCAGTCAC CCTTTTACTT 
    TCTAACTGTT CTAAGGCTGA TGTAGATGTA ATAGTTGATC TCCGGCATAA AACAACAAGT 
    CCCGAGGCAC TGGAAACTCA CGGATCATTC ACGTGGCTTG GACAGACACA GTATAAGCTC 
    CAGCTGAAAA GCCAAGAGAT GCACAGTTTG CAGCTGAAGG CATGCTTTGT TCATACAGGC 
    GTTTATAACC TTGGAACTCC AAGAGTATTC GCCAAGTTAT CGGATCACGT TACAGTATTT 
    GAAACAAGTC AGCAGAACTC CATGCCTGCT CTGATTATCA TCAATAACGC GTGA

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

    Trappc8 ( XM_029471852.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029327712.1 Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv70618
    Clone ID Related Accession (Same CDS sequence) XM_029471852.1
    Accession Version XM_029471852.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4209bp)
    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 trafficking protein particle complex subunit 8 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034587.1) 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
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAAC CAATGCGGTG ACCCTCCTAA CAATACCGAC 
    GGCTCAGATT ATGCAAAGGC TGCTTCTTCA GTGCACGAGG CAAAGAAAGC AAGTACCATA 
    GTGATTCGTG GTGCTTGCTT AACACTTACT GATCATGATA GAATCCGACA GTTTATACAA 
    GAGTTTACAT TCCGTGGCCT TTTGCCACAC ATAGAGAAAA CAATTCGTCA GTTAAACGAT 
    CAGCTAATAT CAAGGAAAGG TTTGAGTCGA TCTCTGTTTT CTGCCACTAA GAAATGGTTT 
    AGTGGTAGTA AAGTTCCAGA AAAGAGCATT AATGAGCTGA AGAATACATC TGGGTTGTTG 
    TATCCGCCAG AAGCACCTGA GCTTCAGATC AGGAAGATGG CTGACTTGTG CTTTTTGGTG 
    CAACATTATG ATTTGGCTTA CAGTTGTTAT CACACTGCAA AGAAGGATTT TCTTAACGAT 
    CAAGCAATGC TTTATGCAGC AGGTGCCTTG GAAATGGCAG CAGTGTCAGC CTTTCTTCAG 
    CCAGGAGCTC CTAGGCCATA CCCTGCTCAT TACATGGACA CAGCAATTCA GACATACAGG 
    GATATCTGCA AGAATATGGT GTTGGCTGAA AGATGCGTGT TGCTTAGTGC TGAAATTTTA 
    AAAAGTCAAA GCAAGTACTC AGAGGCTGCA GCTCTTCTAA TACGATTGAC AAGTGAGGAT 
    TCTGATCTCC GAAGTGCCCT TCTTTTGGAA CAGGCTGCAC ATTGCTTCAT AAACATGAAG 
    AGTCCCATGG TTAGAAAATA CGCATTTCAT ATGATCCTGG CAGGCCACCG TTTCAGTAAA 
    GCAGGGCAGA AAAAGCATGC TTTGCGCTGC TATTGTCAAG CCATGCAAGT TTACAAAGGA 
    AAGGGCTGGT CTCTAGCAGA GGATCACATC AACTTCACCA TTGGGCGCCA GTCCTATACT 
    CTGAGGCAGC TGGACAATGC TGTTTCTGCT TTTAGACACA TTTTAATCAA TGAAAGCAAA 
    CAGTCTGCTG CTCAGCAAGG AGCCTTCCTC AGAGAATATC TTTATGTTTA TAAGAATGTA 
    AATCAGCTGT CACCAGATGG CCCTTTACCA CAGCTTCCCT TACCATACAT TAACAGTTCA 
    GCAACACGAG TTTTCTTTGG CCATGACAGA CGACCAGCAG ATGGTGAAAA GCAAGCGGCT 
    ACTCATATAA GTCTTGATCA AGAATATGAC TCTGAGTCAT CCCAGCAGTG GCGAGAACTT 
    GAGGAACATG TTGTGGCTGT GGCTAATAAA GGAGTAATTC CATCTAGTTT CTATCCTACA 
    CAGTATTGTT TGAACAGTTA CTCCGATAAC TCCAGATTTC CACTTGCAGT TGTAGAAGAG 
    CCAATTACTG TGGAAGTGGC TTTTAGAAAC CCTTTAAAAG TTCCGCTTTT GCTGTCTGAT 
    TTGTCATTAC TCTGGAAGTT TCAGCCTAAA GATGCCAGTG GGAAAGACAT TGAAAAAGTG 
    AAAGAACGAG TTACAGGTGA ACCTGAAATG ATTGGAACTG AAGTTATTTC AGAATTCTTA 
    ATTAACAGTG AAGAATCTAA AGTGGCAAGA CTGAAGCTCT TCCCCCACCA CACAGGGGAG 
    CTGCACATTC TGGGAGTTGT GTATAGTCTT GGCACTATTC AGGGCTCCGT GACAGTAGAT 
    GGCATTGGTG CTCTTCCTGG ATGTCACACA GGAAAACATT CTCTGAGTAT GTCAGTACGA 
    GGGAGACAGG ATTTAGAAAT TCAAGGCCCT CGACTTAACA ATACAAAGGA AGAGAAGACG 
    TCTGTAAAGT ACGGTCCTGA CCGACGTTTA GATCCTATAG TCACAGAGGA GATGCCGCTG 
    CTGGAGGTGT TCTTTATACA TTTTCCTACA GGGCTCCTCT GTGGAGAAAT CCGAAAAGCA 
    TATGTAGAGT TTGTCAATGT CAGCAAATGT CCTCTGACTG GACTGAAAGT TGTGTCTAAA 
    CGTCCAGAGT TCTTCACTTT TGGTGGCAAT ACTGCTGCTC TAACACCGCT GAGCCCCTCT 
    GCATCTGAGA ACTGCAGTGC CTATAAGACG GTTGTAACAG CTTCCCCCTC CTTGGGGACA 
    GCACTTGTGT CAACAGCATC ATCTATGGAC TTTGGAACTG GCACTGGACA GCAGCTGGAG 
    GCCATTCCTG TCCCCCTTCC TGACTCCGTG CTGCTTCCCG GAGCTTCCAT CCAGCTGCCA 
    ATGTGGCTTC GTGGGCCAGA TGAAGAGGGT GTCCATGAAA TTAACTTTTT ATTTTACTAT 
    GAAAGTGTTA AAAAGCAGCC TAAAAAACGA CACAGAATAT TAAGACACAC TGCAGTTATT 
    TGTACTAGCC GGTCTTTGAA TGTGCGAGCG ACTGTCTGCA GAAGTAATTC ACTTGAAGAT 
    GAAGAAGGCA GGGGCGGCAA TATGCTAGTC TTCGTGGATG TAGAAAATAC TAATACTAGT 
    GAAGCGGGGG TTAAGGAGTT CCACATGGTG CAGGTGTCAA GCAGTAGCAA GCACTGGCAG 
    CTCCACAAAT CCGTGAATAT CTCCGAAAAC AAAGATGCCA AGCTTGCCAG TAGGGAGAAG 
    GGAAAGTTTT GCTTCAAGGC AGTAAGATGT AAACAAAAAG AAGGTGGTAT ACAGTCCTCA 
    GAAAAATACA CTTTTGCAGA TATCATCTTT GGAAATGAAC AGATAATAAG TTCAGCAAGT 
    CCGTGTGCAG ATTTCTTTTA CCGAAGTTTA TCCTCAGAGT TGAAGAAAAC ACAAGATCAG 
    CTTTCCACAT ATTCAGAGAA ACAGGCCACA GAGGGTGCTG TGAGGCTGAT TGAGAAGTGC 
    AGTGAGGTGG ACCTGAGCAT CATCATCCTG TGGAAGGCAT ACGTTGTAGA AGATAACAAG 
    CAGCTTATTT TAGAAGGCCA GCATCACGTT GTTGTTCGCA CTGTTGGGAA AGAAGCCTTT 
    TCACACTCTC AGAAAGAGGA GCCACCAGAA ATGGAACTAT TAAAGTTTTT CAGGCCAGAA 
    AACACTACAG TTTCCACAAG ACCATCAGTA GATCAGCTTT CTAATCTCAT TAAAACAAGT 
    CTCCACTATC CGGAGTCATT TCACCATCCA TTTCATCAGA AAAGCCTTTG CTTAGTCCCA 
    GTCACCCTTT TACTTTCTAA CTGTTCTAAG GCTGATGTAG ATGTAATAGT TGATCTCCGG 
    CATAAAACAA CAAGTCCCGA GGCACTGGAA ACTCACGGAT CATTCACGTG GCTTGGACAG 
    ACACAGTATA AGCTCCAGCT GAAAAGCCAA GAGATGCACA GTTTGCAGCT GAAGGCATGC 
    TTTGTTCATA CAGGCGTTTA TAACCTTGGA ACTCCAAGAG TATTCGCCAA GTTATCGGAT 
    CACGTTACAG TATTTGAAAC AAGTCAGCAG AACTCCATGC CTGCTCTGAT TATCATCAAT 
    AACGCGTGA

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

    RefSeq XP_029327712.1
    CDS320..4528
    Translation

    Target ORF information:

    RefSeq Version XM_029471852.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli trafficking protein particle complex 8 (Trappc8), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029471852.1

    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
    ATGGCCCAGT GCGTGCAGTC GGTGCAGGAG CTCATCCCCG ACTCCTTCGT CCCCTGCGTC 
    GCCGCGCTAT GCAGCGACGA AGCCGAGCGG CTCACCCGCC TCAACCACCT CAGCTTCTCC 
    GAGCTGCTCA AGCCCTTCTC TCGCCTCACT TCCGAAGTTC ACATGAGGGA TCCTAATAAT 
    CAACTGCATA TAATTAAAAA TTTGAAGATA GCAGTAAGCA ACATTGTCAC CCAGCCACCT 
    CAGCCGGGAG CCATTGGGAA GCTTTTGAAT GATGTTGTTT CTGGCAGCCA GCCTGCAGAA 
    GGATTAGTCG CTAATGTGAT TACAGCAGGA GATTATGACC TTAACATAAG TGCTACTACT 
    CCATGGTTTG AGTCTTACAG AGAGACCTTT CTGCAGTCCA TGCCAGCATC AGATCATGAG 
    TTTCTGAATC ACTATTTAGC ATGTATGCTG GTGGCATCAT CTGGTGAAGC TGAACCTATG 
    GAACAATTTT CAAAGTTGTC ACAGGAACAG CATCGAATTC AGCACAACAA TGATTATTCC 
    TACCCTAAGT GGTTTATCCC AAATACACTT AAATATTACG TGCTTTTGCA TGATGTAACT 
    TCAGGAGATG AACAGAGAGC TGAATCAGTT TATGAAGAAA TGAAGCAGAA ATATGGAACT 
    CAGGGTTGCT ATTTACTTAA AATCAATTCT CGAGCACCAA ATCGAGCATC AGATGAACAG 
    ATACCAGATC CGTGGAGTCA GTATCTCCAG AAAAATAGTA TTCAAAACCA GGAATCATAT 
    GAAGATGGCC CTTGTACTAT GACCTCCAAC CAATGCGGTG ACCCTCCTAA CAATACCGAC 
    GGCTCAGATT ATGCAAAGGC TGCTTCTTCA GTGCACGAGG CAAAGAAAGC AAGTACCATA 
    GTGATTCGTG GTGCTTGCTT AACACTTACT GATCATGATA GAATCCGACA GTTTATACAA 
    GAGTTTACAT TCCGTGGCCT TTTGCCACAC ATAGAGAAAA CAATTCGTCA GTTAAACGAT 
    CAGCTAATAT CAAGGAAAGG TTTGAGTCGA TCTCTGTTTT CTGCCACTAA GAAATGGTTT 
    AGTGGTAGTA AAGTTCCAGA AAAGAGCATT AATGAGCTGA AGAATACATC TGGGTTGTTG 
    TATCCGCCAG AAGCACCTGA GCTTCAGATC AGGAAGATGG CTGACTTGTG CTTTTTGGTG 
    CAACATTATG ATTTGGCTTA CAGTTGTTAT CACACTGCAA AGAAGGATTT TCTTAACGAT 
    CAAGCAATGC TTTATGCAGC AGGTGCCTTG GAAATGGCAG CAGTGTCAGC CTTTCTTCAG 
    CCAGGAGCTC CTAGGCCATA CCCTGCTCAT TACATGGACA CAGCAATTCA GACATACAGG 
    GATATCTGCA AGAATATGGT GTTGGCTGAA AGATGCGTGT TGCTTAGTGC TGAAATTTTA 
    AAAAGTCAAA GCAAGTACTC AGAGGCTGCA GCTCTTCTAA TACGATTGAC AAGTGAGGAT 
    TCTGATCTCC GAAGTGCCCT TCTTTTGGAA CAGGCTGCAC ATTGCTTCAT AAACATGAAG 
    AGTCCCATGG TTAGAAAATA CGCATTTCAT ATGATCCTGG CAGGCCACCG TTTCAGTAAA 
    GCAGGGCAGA AAAAGCATGC TTTGCGCTGC TATTGTCAAG CCATGCAAGT TTACAAAGGA 
    AAGGGCTGGT CTCTAGCAGA GGATCACATC AACTTCACCA TTGGGCGCCA GTCCTATACT 
    CTGAGGCAGC TGGACAATGC TGTTTCTGCT TTTAGACACA TTTTAATCAA TGAAAGCAAA 
    CAGTCTGCTG CTCAGCAAGG AGCCTTCCTC AGAGAATATC TTTATGTTTA TAAGAATGTA 
    AATCAGCTGT CACCAGATGG CCCTTTACCA CAGCTTCCCT TACCATACAT TAACAGTTCA 
    GCAACACGAG TTTTCTTTGG CCATGACAGA CGACCAGCAG ATGGTGAAAA GCAAGCGGCT 
    ACTCATATAA GTCTTGATCA AGAATATGAC TCTGAGTCAT CCCAGCAGTG GCGAGAACTT 
    GAGGAACATG TTGTGGCTGT GGCTAATAAA GGAGTAATTC CATCTAGTTT CTATCCTACA 
    CAGTATTGTT TGAACAGTTA CTCCGATAAC TCCAGATTTC CACTTGCAGT TGTAGAAGAG 
    CCAATTACTG TGGAAGTGGC TTTTAGAAAC CCTTTAAAAG TTCCGCTTTT GCTGTCTGAT 
    TTGTCATTAC TCTGGAAGTT TCAGCCTAAA GATGCCAGTG GGAAAGACAT TGAAAAAGTG 
    AAAGAACGAG TTACAGGTGA ACCTGAAATG ATTGGAACTG AAGTTATTTC AGAATTCTTA 
    ATTAACAGTG AAGAATCTAA AGTGGCAAGA CTGAAGCTCT TCCCCCACCA CACAGGGGAG 
    CTGCACATTC TGGGAGTTGT GTATAGTCTT GGCACTATTC AGGGCTCCGT GACAGTAGAT 
    GGCATTGGTG CTCTTCCTGG ATGTCACACA GGAAAACATT CTCTGAGTAT GTCAGTACGA 
    GGGAGACAGG ATTTAGAAAT TCAAGGCCCT CGACTTAACA ATACAAAGGA AGAGAAGACG 
    TCTGTAAAGT ACGGTCCTGA CCGACGTTTA GATCCTATAG TCACAGAGGA GATGCCGCTG 
    CTGGAGGTGT TCTTTATACA TTTTCCTACA GGGCTCCTCT GTGGAGAAAT CCGAAAAGCA 
    TATGTAGAGT TTGTCAATGT CAGCAAATGT CCTCTGACTG GACTGAAAGT TGTGTCTAAA 
    CGTCCAGAGT TCTTCACTTT TGGTGGCAAT ACTGCTGCTC TAACACCGCT GAGCCCCTCT 
    GCATCTGAGA ACTGCAGTGC CTATAAGACG GTTGTAACAG CTTCCCCCTC CTTGGGGACA 
    GCACTTGTGT CAACAGCATC ATCTATGGAC TTTGGAACTG GCACTGGACA GCAGCTGGAG 
    GCCATTCCTG TCCCCCTTCC TGACTCCGTG CTGCTTCCCG GAGCTTCCAT CCAGCTGCCA 
    ATGTGGCTTC GTGGGCCAGA TGAAGAGGGT GTCCATGAAA TTAACTTTTT ATTTTACTAT 
    GAAAGTGTTA AAAAGCAGCC TAAAAAACGA CACAGAATAT TAAGACACAC TGCAGTTATT 
    TGTACTAGCC GGTCTTTGAA TGTGCGAGCG ACTGTCTGCA GAAGTAATTC ACTTGAAGAT 
    GAAGAAGGCA GGGGCGGCAA TATGCTAGTC TTCGTGGATG TAGAAAATAC TAATACTAGT 
    GAAGCGGGGG TTAAGGAGTT CCACATGGTG CAGGTGTCAA GCAGTAGCAA GCACTGGCAG 
    CTCCACAAAT CCGTGAATAT CTCCGAAAAC AAAGATGCCA AGCTTGCCAG TAGGGAGAAG 
    GGAAAGTTTT GCTTCAAGGC AGTAAGATGT AAACAAAAAG AAGGTGGTAT ACAGTCCTCA 
    GAAAAATACA CTTTTGCAGA TATCATCTTT GGAAATGAAC AGATAATAAG TTCAGCAAGT 
    CCGTGTGCAG ATTTCTTTTA CCGAAGTTTA TCCTCAGAGT TGAAGAAAAC ACAAGATCAG 
    CTTTCCACAT ATTCAGAGAA ACAGGCCACA GAGGGTGCTG TGAGGCTGAT TGAGAAGTGC 
    AGTGAGGTGG ACCTGAGCAT CATCATCCTG TGGAAGGCAT ACGTTGTAGA AGATAACAAG 
    CAGCTTATTT TAGAAGGCCA GCATCACGTT GTTGTTCGCA CTGTTGGGAA AGAAGCCTTT 
    TCACACTCTC AGAAAGAGGA GCCACCAGAA ATGGAACTAT TAAAGTTTTT CAGGCCAGAA 
    AACACTACAG TTTCCACAAG ACCATCAGTA GATCAGCTTT CTAATCTCAT TAAAACAAGT 
    CTCCACTATC CGGAGTCATT TCACCATCCA TTTCATCAGA AAAGCCTTTG CTTAGTCCCA 
    GTCACCCTTT TACTTTCTAA CTGTTCTAAG GCTGATGTAG ATGTAATAGT TGATCTCCGG 
    CATAAAACAA CAAGTCCCGA GGCACTGGAA ACTCACGGAT CATTCACGTG GCTTGGACAG 
    ACACAGTATA AGCTCCAGCT GAAAAGCCAA GAGATGCACA GTTTGCAGCT GAAGGCATGC 
    TTTGTTCATA CAGGCGTTTA TAACCTTGGA ACTCCAAGAG TATTCGCCAA GTTATCGGAT 
    CACGTTACAG TATTTGAAAC AAGTCAGCAG AACTCCATGC CTGCTCTGAT TATCATCAAT 
    AACGCGTGA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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