• English
  • Sign In
    Please Sign In
    Sign In
    New to GenScript?
    Register
  • Contact Us
×
Contact us now: +1-877-436-7274

TRAPPC9 cDNA ORF clone, Sus scrofa(Pig)

Summary

Gene Symbol TRAPPC9
Entrez Gene ID 100152043
Full Name trafficking protein particle complex 9
Gene Type protein-coding
Organism Sus scrofa(Pig)
Genome

4

4|4

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_021088861.1 XP_020944520.1 LOW QUALITY PROTEIN: trafficking protein particle complex subunit 9
XM_005655332.2 XP_005655389.1 trafficking protein particle complex subunit 9

Pathways from BioSystems


Gene Ontology

The following TRAPPC9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRAPPC9 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
OSe247341 XM_021088861.1
Latest version!		 Sus scrofa trafficking protein particle complex 9 (TRAPPC9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OSe08078 XM_005655332.2
Latest version!		 Sus scrofa trafficking protein particle complex 9 (TRAPPC9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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

Reference Sequences (Refseq)


CloneID OSe247341
Clone ID Related Accession (Same CDS sequence) XM_021088861.1
Accession Version XM_021088861.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3444bp)
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 2017-05-12
Organism Sus scrofa(pig)
Product LOW QUALITY PROTEIN: trafficking protein particle complex subunit 9
Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010446.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 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## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-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
ATGAGCGTCC CGGACTACAT GCAGTGCGCG GAGGACCACC AGACCCTGCT CGTGGTGGTG 
CAGCCGGTGG GGATCGTCTC GGAGGAGAAC TTCTTCCGGA TCTACAAGCG GATCTCGTCC 
GTGAGCCAGA TCAGCGTGCG CGACTCGCAG CGCGTGCTCT ACATCCGCTA CCGGCACCAC 
TACCCGCCCG AGAACAACGA GTGGGGCGAC TTCCAGACCC ACCGCAAGGT CGTGGGCCTC 
ATCACCATCA CCGACTGCTT CTCGGCCAAG GACTGGCCGC AGACCTTCGA GAAGTTCCAC 
GTGCAGAAGG AGCTCTATGG CTCGACCCTC TACGACTCGC GGCTCCTGGT CTTCGGGCTG 
CAGGGGGAGA TCGCGGAGCA GCCGCGCACA GACGTGGCCT TCTACCCCAG CTACGAGGAC 
TGCGCGACGG TGGAGAAGCG GATCGAGGAC TTCATCGAGT CCCTCTTCAT CGTGCTCGAG 
TCCAAGCGTC TGGACCGGGC CACGGACAAG TCCGGGGACA AGATCCCCCT CCTGTGCGTC 
CCCTTTGAGA AGAAGGACTT CGTGGGGCTG GACACGGATA GTAGACATTA CAAGAAGCGG 
TGCCAGGGGC GCATGCGGAA GCACGTGGGG GATTTATGCC TGCAGGCCGG GATGCTGCAG 
GACTCCCTGG TCCATTACCA CATGGCCGTG GAGTTCCTCC GGTCCGTGAA TGACTTTTTG 
TGGCTCGGAG CTGCCCTCGA AGGGTTGTGT TCGGCTTCTG TCATCTATCA CTATCCTGGG 
GGAACCGGCG GTAAAACTGG AGCTCGAAGG TTCCAGGGTA GCTCCCTACC TGCCGAAGCA 
GCCAACAGGC ATCGACCAGG GGCACAAGAA GTTCTCATTG ACCCAGGTGC CCTCAGCACC 
AACGGCATCA ATCCAGACAC CAGCACGGAA ATTGGACGCG CCAAGAACTG CCTCAGCCCT 
GAAGACATCA TCGAAAAGTA CAAGGAGGCC ATCTCCTGTT ACGGCAAGTA CAAGAATGCT 
GGAGTGATTG AGTTAGAAGC TTGTGTCAAA GCCGTCCGCG TCCTGGCCAT CCAGAAGCGC 
AGCATGGAAG CTTCGGAATT TCTCCAGAAC GCCGTTTACA TCAACCTCCG CCAGCTCTCG 
GAGGAGGAGC GGATCCAGCG CTACAGCATC CTCTCCGAGC TCTACGAGTT GATCGGCTTC 
CACCGCAAGT CCGCCTTCTT CAAGCGCGTG GCTGCCATGC AGTGCGTGGC CCCCAGCATC 
GCGGAGCCGG GCTGGAGGGC CTGCTACAAG CTCCTCCTGG AGACACTTCC TGGCTACAGT 
CTGTCCCTGG ATCCGCAAGA CTTCAACAAA GGCACGCACC GAGGCTGGGC CGCCGTCCAG 
ATGCGTCTCC TTCACGAGTT GGTCTACGCG TCCCGGAGAA TGGGGAACCC CGCCCTCTCG 
GTCAGGCACC TGTCCTTCCT GTTACAGACC ATGCTGGACT TCTTGTCAGA TCAAGAAAAG 
AAGGACGTGA CGCAGAGCCT GGAGAACTAC ACGTCCAAGT GCCCCGGCAC CATGGAGCGC 
ATCACGCTCC CCGACGGCCT CACGCTGCCC CCGTGGCCCN TCACCAAGCT CCCCATCGTC 
AGGTGTGTGA AGCTGCTGAG CCTGCCCGCC AGCCTCCGGC CGCAGAAGAT GAAGAGCCTG 
CTGGGCCAGA GCGTGTCGGC CAAGAGCCCC TTCATCTACT CCCCGATCAC CGTGCACAGC 
CGAGGGGAGG AGAGGAGCGG GAAAATCGAT TTCCAGTGGG TGCAAGGAGA TGTGTGTGAA 
GTTCAGCTGA TGGTGTATAA CCCGATGCCG TTTGAACTGC GGGTTGAAAA CATGGGGCTG 
CTGACCAGTG GTGTGGAGTT CGAGTCTCTC CCCGCAGCGC TGTCCCTTCC CGCTGAGTCT 
GGTCTTTACC CGGTGACGCT TGTTGGGGTC CCACAGACGA CGGGGACAAT CACTGTGAAT 
GGTTACCACA CCACGGTCTT TGGCGTCTTC AGTGACTGTT TTCTGGACAA CCTCCCGGGA 
GTCAAGACCG GCGGCTCCAC GGTGGAAGTC ATTCCTGCTC TGCCCAGGCT GCAGATCAGC 
ACCTCTCTGC CCAGATCTGC GCATTCACTG CAGCCGTCCT CTGGTGACGA AGTATCTACG 
AATGTGTCCG TCCAGCTTTA CAACGGAGAA ACGCAGCACC TGGTCGTGAA ACTGGAAAAC 
ATTGGAATGG AACCCCTGGA GAAACTGGAA GTCACCTCAA AAATTCTCAC CACCAAAGAG 
AAATTGTATG GTGACTTCCT GAGCTGGCGG CTGGAAGAAA CTCTTGCCCA GTTTCCTCTG 
CAGCCTGGAA AGGTGGCCAC GTTGACCGTC TGCATCAAAG TGAAGCTGGA TTTCTCCTGC 
CAGGAGAACC TCCTCCAGGA CCTGAGTGAC GATGGCATCA GCGTGAGCGG CTTCCCGCTG 
TGCAGCCCCT CGCGCCAGGT CGTGAGGCCT CGGGCGGACA GCAAGCCCGC GAACCCAGCT 
GAGGGCAGCC GGCCTGGGGA CCCCGGCCAC GTGAAGACCC TGGAAGCAAT CCTGAATTTC 
AAATACTCCG GAGGCCCCGG CCACGTGGAA GGATATTACA GGAGCCTCGC CCTGGGGCTG 
CACGTGGAGG TGGAGCCCTC TGTGTTCTTC ACGCGCGTCA GCACGCTGCC CGCCACCAGT 
ACCCGGCAGT GCCACCTGCT CCTGGACGTC TTCAACTCCA CGGAGCACGA GCTGACGGTC 
AGTGCCCGGA GCAATGAAGA GCTCATTCTG CACGCGGGCG AGTGCCAGCG AATGGCTATT 
CAAGTGGACA AGTTCAACTT TGAGAGCTTC CCAGAGTCCC CTGAGGAGAA GGGGCAGTCG 
GCAAATTCCA AGCAGCTGGA GGAGGAGCGG CAAGAAGCCC GAGGCCTGGA GATCAACAGC 
AAGCTCGGCA TCCGCTGGAC CATCCCCTCT CTGAAGCGCA CAGGCGAGGC GAGCGTGGAA 
GGTCTCCTGA ACCAGCTGGT CCTGGGACAC CTGCAGCTGG CTCCTCTGCT GTGGGATGTG 
CTGGTGGACG GACAGCCCTG TGACCACGAG GCGGCGGCCT GCCGGGTGGG CGACCCCGTG 
CGCCTGGAGG TGCGGCTGAC CAACCGGAGC CCACGCAGCG TGGGGCCCTT CGCCCTCAGC 
GTGGTGCCCT TCCAGGACCA CCAGAACGGC GTGCACAACT ACGACCTGCA CCACGCCGTC 
TCCTTCGTGG GCTCCGGCAC CTTCTATCTG GACAAGGTGC CACCGTCGGG CCAGGCAGCC 
TGCCTTGGGG CCCTGCTCTT CCTCTACACG GGCGACTTCT TCCTCCACGT CCGCTTCCAT 
GAGGACAGCT CCAGCAAGGA GCTGCCGCCC TCCTGGTTCT GCCTGCCCAG CGTGCACGTG 
CGCGCCCTGG AGGCGCAGGC CTAG

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

RefSeq XP_020944520.1
CDS129..3572
Translation

Target ORF information:

RefSeq Version XM_021088861.1
Organism Sus scrofa(pig)
Definition Sus scrofa trafficking protein particle complex 9 (TRAPPC9), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_021088861.1

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
ATGAGCGTCC CGGACTACAT GCAGTGCGCG GAGGACCACC AGACCCTGCT CGTGGTGGTG 
CAGCCGGTGG GGATCGTCTC GGAGGAGAAC TTCTTCCGGA TCTACAAGCG GATCTCGTCC 
GTGAGCCAGA TCAGCGTGCG CGACTCGCAG CGCGTGCTCT ACATCCGCTA CCGGCACCAC 
TACCCGCCCG AGAACAACGA GTGGGGCGAC TTCCAGACCC ACCGCAAGGT CGTGGGCCTC 
ATCACCATCA CCGACTGCTT CTCGGCCAAG GACTGGCCGC AGACCTTCGA GAAGTTCCAC 
GTGCAGAAGG AGCTCTATGG CTCGACCCTC TACGACTCGC GGCTCCTGGT CTTCGGGCTG 
CAGGGGGAGA TCGCGGAGCA GCCGCGCACA GACGTGGCCT TCTACCCCAG CTACGAGGAC 
TGCGCGACGG TGGAGAAGCG GATCGAGGAC TTCATCGAGT CCCTCTTCAT CGTGCTCGAG 
TCCAAGCGTC TGGACCGGGC CACGGACAAG TCCGGGGACA AGATCCCCCT CCTGTGCGTC 
CCCTTTGAGA AGAAGGACTT CGTGGGGCTG GACACGGATA GTAGACATTA CAAGAAGCGG 
TGCCAGGGGC GCATGCGGAA GCACGTGGGG GATTTATGCC TGCAGGCCGG GATGCTGCAG 
GACTCCCTGG TCCATTACCA CATGGCCGTG GAGTTCCTCC GGTCCGTGAA TGACTTTTTG 
TGGCTCGGAG CTGCCCTCGA AGGGTTGTGT TCGGCTTCTG TCATCTATCA CTATCCTGGG 
GGAACCGGCG GTAAAACTGG AGCTCGAAGG TTCCAGGGTA GCTCCCTACC TGCCGAAGCA 
GCCAACAGGC ATCGACCAGG GGCACAAGAA GTTCTCATTG ACCCAGGTGC CCTCAGCACC 
AACGGCATCA ATCCAGACAC CAGCACGGAA ATTGGACGCG CCAAGAACTG CCTCAGCCCT 
GAAGACATCA TCGAAAAGTA CAAGGAGGCC ATCTCCTGTT ACGGCAAGTA CAAGAATGCT 
GGAGTGATTG AGTTAGAAGC TTGTGTCAAA GCCGTCCGCG TCCTGGCCAT CCAGAAGCGC 
AGCATGGAAG CTTCGGAATT TCTCCAGAAC GCCGTTTACA TCAACCTCCG CCAGCTCTCG 
GAGGAGGAGC GGATCCAGCG CTACAGCATC CTCTCCGAGC TCTACGAGTT GATCGGCTTC 
CACCGCAAGT CCGCCTTCTT CAAGCGCGTG GCTGCCATGC AGTGCGTGGC CCCCAGCATC 
GCGGAGCCGG GCTGGAGGGC CTGCTACAAG CTCCTCCTGG AGACACTTCC TGGCTACAGT 
CTGTCCCTGG ATCCGCAAGA CTTCAACAAA GGCACGCACC GAGGCTGGGC CGCCGTCCAG 
ATGCGTCTCC TTCACGAGTT GGTCTACGCG TCCCGGAGAA TGGGGAACCC CGCCCTCTCG 
GTCAGGCACC TGTCCTTCCT GTTACAGACC ATGCTGGACT TCTTGTCAGA TCAAGAAAAG 
AAGGACGTGA CGCAGAGCCT GGAGAACTAC ACGTCCAAGT GCCCCGGCAC CATGGAGCGC 
ATCACGCTCC CCGACGGCCT CACGCTGCCC CCGTGGCCCN TCACCAAGCT CCCCATCGTC 
AGGTGTGTGA AGCTGCTGAG CCTGCCCGCC AGCCTCCGGC CGCAGAAGAT GAAGAGCCTG 
CTGGGCCAGA GCGTGTCGGC CAAGAGCCCC TTCATCTACT CCCCGATCAC CGTGCACAGC 
CGAGGGGAGG AGAGGAGCGG GAAAATCGAT TTCCAGTGGG TGCAAGGAGA TGTGTGTGAA 
GTTCAGCTGA TGGTGTATAA CCCGATGCCG TTTGAACTGC GGGTTGAAAA CATGGGGCTG 
CTGACCAGTG GTGTGGAGTT CGAGTCTCTC CCCGCAGCGC TGTCCCTTCC CGCTGAGTCT 
GGTCTTTACC CGGTGACGCT TGTTGGGGTC CCACAGACGA CGGGGACAAT CACTGTGAAT 
GGTTACCACA CCACGGTCTT TGGCGTCTTC AGTGACTGTT TTCTGGACAA CCTCCCGGGA 
GTCAAGACCG GCGGCTCCAC GGTGGAAGTC ATTCCTGCTC TGCCCAGGCT GCAGATCAGC 
ACCTCTCTGC CCAGATCTGC GCATTCACTG CAGCCGTCCT CTGGTGACGA AGTATCTACG 
AATGTGTCCG TCCAGCTTTA CAACGGAGAA ACGCAGCACC TGGTCGTGAA ACTGGAAAAC 
ATTGGAATGG AACCCCTGGA GAAACTGGAA GTCACCTCAA AAATTCTCAC CACCAAAGAG 
AAATTGTATG GTGACTTCCT GAGCTGGCGG CTGGAAGAAA CTCTTGCCCA GTTTCCTCTG 
CAGCCTGGAA AGGTGGCCAC GTTGACCGTC TGCATCAAAG TGAAGCTGGA TTTCTCCTGC 
CAGGAGAACC TCCTCCAGGA CCTGAGTGAC GATGGCATCA GCGTGAGCGG CTTCCCGCTG 
TGCAGCCCCT CGCGCCAGGT CGTGAGGCCT CGGGCGGACA GCAAGCCCGC GAACCCAGCT 
GAGGGCAGCC GGCCTGGGGA CCCCGGCCAC GTGAAGACCC TGGAAGCAAT CCTGAATTTC 
AAATACTCCG GAGGCCCCGG CCACGTGGAA GGATATTACA GGAGCCTCGC CCTGGGGCTG 
CACGTGGAGG TGGAGCCCTC TGTGTTCTTC ACGCGCGTCA GCACGCTGCC CGCCACCAGT 
ACCCGGCAGT GCCACCTGCT CCTGGACGTC TTCAACTCCA CGGAGCACGA GCTGACGGTC 
AGTGCCCGGA GCAATGAAGA GCTCATTCTG CACGCGGGCG AGTGCCAGCG AATGGCTATT 
CAAGTGGACA AGTTCAACTT TGAGAGCTTC CCAGAGTCCC CTGAGGAGAA GGGGCAGTCG 
GCAAATTCCA AGCAGCTGGA GGAGGAGCGG CAAGAAGCCC GAGGCCTGGA GATCAACAGC 
AAGCTCGGCA TCCGCTGGAC CATCCCCTCT CTGAAGCGCA CAGGCGAGGC GAGCGTGGAA 
GGTCTCCTGA ACCAGCTGGT CCTGGGACAC CTGCAGCTGG CTCCTCTGCT GTGGGATGTG 
CTGGTGGACG GACAGCCCTG TGACCACGAG GCGGCGGCCT GCCGGGTGGG CGACCCCGTG 
CGCCTGGAGG TGCGGCTGAC CAACCGGAGC CCACGCAGCG TGGGGCCCTT CGCCCTCAGC 
GTGGTGCCCT TCCAGGACCA CCAGAACGGC GTGCACAACT ACGACCTGCA CCACGCCGTC 
TCCTTCGTGG GCTCCGGCAC CTTCTATCTG GACAAGGTGC CACCGTCGGG CCAGGCAGCC 
TGCCTTGGGG CCCTGCTCTT CCTCTACACG GGCGACTTCT TCCTCCACGT CCGCTTCCAT 
GAGGACAGCT CCAGCAAGGA GCTGCCGCCC TCCTGGTTCT GCCTGCCCAG CGTGCACGTG 
CGCGCCCTGG AGGCGCAGGC CTAG

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

CloneID OSe08078
Clone ID Related Accession (Same CDS sequence) XM_005655332.2
Accession Version XM_005655332.2 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
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 2015-09-10
Organism Sus scrofa(Pig)
Product trafficking protein particle complex subunit 9
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003534574.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 11, 2015 this sequence version replaced XM_005655332.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-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
ATGAGCGTCC CGGACTACAT GCAGTGCGCG GAGGACCACC AGACCCTGCT CGTGGTGGTG 
CAGCCCGTGG GGATCGTCTC GGAGGAGAAC TTCTTCCGGA TCTACAAGCG GATCTCGTCC 
GTGAGCCAGA TCAGCGTGCG CGACTCGCAG CGCGTGCTCT ACATCCGCTA CCGGCACCAC 
TACCCGCCCG AGAACAACGA GTGGGGCGAC TTCCAGACCC ACCGTAAGGT CGTGGGCCTC 
ATCACCATCA CCGACTGCTT CTCGGCCAAG GACTGGCCGC AGACCTTCGA GAAGTTCCAC 
GTGCAGAAGG AGCTCTATGG CTCGACCCTC TACGACTCGC GGCTCCTGGT CTTCGGGCTG 
CAGGGGGAGA TCGCGGAGCA GCCGCGCACA GACGTGGCCT TCTACCCCAG CTACGAGGAC 
TGCGCGACGG TGGAGAAGCG GATCGAGGAC TTCATTGAGT CCCTCTTCAT CGTGCTCGAG 
TCCAAGCGTC TGGACCGGGC CACGGACAAG TCCGGGGACA AGATCCCCCT CCTGTGCGTC 
CCCTTTGAGA AGAAGGACTT CGTGGGGCTG GACACGGATA GTAGACATTA CAAGAAGCGG 
TGCCAGGGGC GCATGCGGAA GCACGTGGGG GATTTATGCC TGCAGGCCGG GATGCTGCAG 
GACTCCCTGG TCCATTACCA CATGGCCGTG GAGTTCCTCC GGTCCGTGAA TGACTTTTTG 
TGGCTCGGAG CTGCCCTCGA AGGGTTGTGT TCGGCTTCTG TCATCTATCA CTATCCTGGG 
GGAACCGGCG GTAAAACTGG AGCTCGAAGG TTCCAGGGTA GCTCCCTACC TGCCGAAGCA 
GCCAACAGGC ATCGACCAGG GGCACAAGAA GTTCTCATTG ACCCAGGTGC CCTCAGCACC 
AACGGCATCA ATCCAGACAC CAGCACGGAA ATTGGACGCG CCAAGAACTG CCTCAGCCCT 
GAAGACATCA TCGAAAAGTA CAAGGAGGCC ATCTCCTGTT ACGGCAAGTA CAAGAACGCC 
GGAGTGATTG AGCTAGAAGC TTGTGTCAAA GCCGTCCGCG TCCTGGCCAT CCAGAAGCGC 
AGCATGGAAG CTTCGGAATT TCTCCAGAAC GCCGTTTACA TCAACCTCCG CCAGCTCTCG 
GAGGAGGAGC GGATCCAGCG CTACAGCATC CTCTCCGAGC TCTACGAGTT GATCGGCTTC 
CACCGCAAGT CCGCCTTCTT CAAGCGCGTG GCTGCCATGC AGTGCGTGGC CCCCAGCATC 
GCGGAGCCGG GCTGGAGGGC CTGCTACAAG CTCCTCCTGG AGACACTTCC TGGCTACAGT 
CTGTCCCTGG ATCCGCAAGA CTTCAACAAA GGCACGCACC GAGGCTGGGC CGCCGTCCAG 
ATGCGTCTCC TTCACGAGTT GGTCTACGCG TCCCGGAGAA TGGGGAACCC CGCCCTCTCG 
GTCAGGCACC TGTCCTTCCT GTTACAGACC ATGCTGGACT TCTTGTCAGA TCAAGAAAAG 
AAGGACGTGA CGCAGAGCCT GGAGAACTAC ACGTCCAAGT GCCCCGGCAC CATGGAGCGC 
ATCACGCTCC CCGACGGCCT CACGCTGCCC CCGGTGGCCC TTACCAAGCT CCCCATCGTC 
AGCCCACCCT CAGCTGGAAA CCGCCTCGGC TTCCCGGAGC ACCCCCTGCC GACTGCTGTC 
CCAGTGACGC TGCTGCATTT CCAGTGGGTG CAAGGAGATG TGTGTGAAGT TCAGCTGATG 
GTGTATAACC CGATGCCGTT TGAACTGCGG GTTGAAAACA TGGGGCTGCT GACCAGTGGT 
GTGGAGTTCG AGTCTCTCCC CGCAGCGCTG TCCCTTCCCG CTGAGTCTGG TCTTTACCCG 
GTGACGCTTG TTGGGGTCCC ACAGACGACG GGGACAATCA CTGTGAATGG TTACCACACC 
ACGGTCTTTG GCGTCTTCAG TGACTGTTTT CTGGACAACC TCCCGGGAGT CAAGACCGGC 
GGCTCCACGG TGGAAGTCAT TCCTGCTCTG CCCAGGCTGC AGATCAGCAC CTCTCTGCCC 
AGATCTGCGC ATTCACTGCA GCCGTCCTCT GGTGACGAAG TATCTACGAA TGTGTCCGTC 
CAGCTTTACA ACGGAGAAAC GCAGCACCTG GTCGTGAAAC TGGAAAACAT TGGAATGGAA 
CCCCTGGAGA AACTGGAAGT CACCTCAAAA ATTCTCACCA CCAAAGAGAA ATTGTATGGT 
GACTTCCTGA GCTGGCGGCT GGAAGAAACT CTTGCCCAGT TTCCTCTGCA GCCTGGAAAG 
GTGGCCACGT TGACCGTCTG CATCAAAGTG AAGCTGGATT TCTCCTGCCA GGAGAACCTC 
CTCCAGGACC TGAGTGACGA TGGCATCAGC GTGAGCGGCT TCCCGCTGTG CAGCCCCTCG 
CGCCAGGTCG TGAGGCCTCG GGCGGACAGC AAGCCCGCGA ACCCAGCTGA GGGCAGCCGG 
CCTGGGGACC CCGGCCACGT GAAGACCCTG GAAGCAATCC TGAATTTCAA ATACTCCGGA 
GGCCCCGGCC ACGTGGAAGG ATATTACAGG AGCCTCGCCC TGGGGCTGCA CGTGGAGGTG 
GAGCCCTCTG TGTTCTTCAC GCGCGTCAGC ACGCTGCCCG CCACCAGTAC CCGGCAGTGC 
CACCTGCTCC TGGACGTCTT CAACTCCACG GAGCACGAGC TGACGGTCAG TGCCCGGAGC 
AATGAAGAGC TCATTCTGCA CGCGGGCGAG TGCCAGCGAA TGGCTATTCA AGTGGACAAG 
TTCAACTTTG AGAGCTTCCC AGAGTCCCCT GAGGAGAAGG GGCAGTCGGC AAATTCCAAG 
CAGCTGGAGG AGGAGCGGCA AGAAGCCCGA GGCCTGGAGA TCAACAGCAA GCTCGGCATC 
CGCTGGACCA TCCCCTCTCT GAAGCGCACA GGCGAGGCGA GCGTGGAAGG TCTCCTGAAC 
CAGCTGGTCC TGGGACACCT GCAGCTGGCT CCTCTGCTGT GGGATGTGCT GGTGGACGGA 
CAGCCCTGTG ACCACGAGGC GGCGGCCTGC CGGGTGGGCG ACCCCGTGCG CCTGGAGGTG 
CGGCTGACCA ACCGGAGCCC ACGCAGCGTG GGGCCCTTCG CCCTCAGCGT GGTGCCCTTC 
CAGGACCACC AGAACGGCGT GCACAACTAC GACCTGCACC ACGCCGTCTC CTTCGTGGGC 
TCCGGCACCT TCTATCTGGA CAAGGTGCCA CCGTCGGGCC AGGCAGCCTG CCTTGGGGCC 
CTGCTCTTCC TCTACACGGG CGACTTCTTC CTCCACGTCC GCTTCCATGA GGACAGCTCC 
AGCAAGGAGC TGCCGCCCTC CTGGTTCTGC CTGCCCAGCG TGCACGTGCG CGCCCTGGAG 
GCGCAGGCCT AG

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

RefSeq XP_005655389.1
CDS49..3420
Translation

Target ORF information:

RefSeq Version XM_005655332.2
Organism Sus scrofa(Pig)
Definition Sus scrofa trafficking protein particle complex 9 (TRAPPC9), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 XM_005655332.2

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
ATGAGCGTCC CGGACTACAT GCAGTGCGCG GAGGACCACC AGACCCTGCT CGTGGTGGTG 
CAGCCCGTGG GGATCGTCTC GGAGGAGAAC TTCTTCCGGA TCTACAAGCG GATCTCGTCC 
GTGAGCCAGA TCAGCGTGCG CGACTCGCAG CGCGTGCTCT ACATCCGCTA CCGGCACCAC 
TACCCGCCCG AGAACAACGA GTGGGGCGAC TTCCAGACCC ACCGTAAGGT CGTGGGCCTC 
ATCACCATCA CCGACTGCTT CTCGGCCAAG GACTGGCCGC AGACCTTCGA GAAGTTCCAC 
GTGCAGAAGG AGCTCTATGG CTCGACCCTC TACGACTCGC GGCTCCTGGT CTTCGGGCTG 
CAGGGGGAGA TCGCGGAGCA GCCGCGCACA GACGTGGCCT TCTACCCCAG CTACGAGGAC 
TGCGCGACGG TGGAGAAGCG GATCGAGGAC TTCATTGAGT CCCTCTTCAT CGTGCTCGAG 
TCCAAGCGTC TGGACCGGGC CACGGACAAG TCCGGGGACA AGATCCCCCT CCTGTGCGTC 
CCCTTTGAGA AGAAGGACTT CGTGGGGCTG GACACGGATA GTAGACATTA CAAGAAGCGG 
TGCCAGGGGC GCATGCGGAA GCACGTGGGG GATTTATGCC TGCAGGCCGG GATGCTGCAG 
GACTCCCTGG TCCATTACCA CATGGCCGTG GAGTTCCTCC GGTCCGTGAA TGACTTTTTG 
TGGCTCGGAG CTGCCCTCGA AGGGTTGTGT TCGGCTTCTG TCATCTATCA CTATCCTGGG 
GGAACCGGCG GTAAAACTGG AGCTCGAAGG TTCCAGGGTA GCTCCCTACC TGCCGAAGCA 
GCCAACAGGC ATCGACCAGG GGCACAAGAA GTTCTCATTG ACCCAGGTGC CCTCAGCACC 
AACGGCATCA ATCCAGACAC CAGCACGGAA ATTGGACGCG CCAAGAACTG CCTCAGCCCT 
GAAGACATCA TCGAAAAGTA CAAGGAGGCC ATCTCCTGTT ACGGCAAGTA CAAGAACGCC 
GGAGTGATTG AGCTAGAAGC TTGTGTCAAA GCCGTCCGCG TCCTGGCCAT CCAGAAGCGC 
AGCATGGAAG CTTCGGAATT TCTCCAGAAC GCCGTTTACA TCAACCTCCG CCAGCTCTCG 
GAGGAGGAGC GGATCCAGCG CTACAGCATC CTCTCCGAGC TCTACGAGTT GATCGGCTTC 
CACCGCAAGT CCGCCTTCTT CAAGCGCGTG GCTGCCATGC AGTGCGTGGC CCCCAGCATC 
GCGGAGCCGG GCTGGAGGGC CTGCTACAAG CTCCTCCTGG AGACACTTCC TGGCTACAGT 
CTGTCCCTGG ATCCGCAAGA CTTCAACAAA GGCACGCACC GAGGCTGGGC CGCCGTCCAG 
ATGCGTCTCC TTCACGAGTT GGTCTACGCG TCCCGGAGAA TGGGGAACCC CGCCCTCTCG 
GTCAGGCACC TGTCCTTCCT GTTACAGACC ATGCTGGACT TCTTGTCAGA TCAAGAAAAG 
AAGGACGTGA CGCAGAGCCT GGAGAACTAC ACGTCCAAGT GCCCCGGCAC CATGGAGCGC 
ATCACGCTCC CCGACGGCCT CACGCTGCCC CCGGTGGCCC TTACCAAGCT CCCCATCGTC 
AGCCCACCCT CAGCTGGAAA CCGCCTCGGC TTCCCGGAGC ACCCCCTGCC GACTGCTGTC 
CCAGTGACGC TGCTGCATTT CCAGTGGGTG CAAGGAGATG TGTGTGAAGT TCAGCTGATG 
GTGTATAACC CGATGCCGTT TGAACTGCGG GTTGAAAACA TGGGGCTGCT GACCAGTGGT 
GTGGAGTTCG AGTCTCTCCC CGCAGCGCTG TCCCTTCCCG CTGAGTCTGG TCTTTACCCG 
GTGACGCTTG TTGGGGTCCC ACAGACGACG GGGACAATCA CTGTGAATGG TTACCACACC 
ACGGTCTTTG GCGTCTTCAG TGACTGTTTT CTGGACAACC TCCCGGGAGT CAAGACCGGC 
GGCTCCACGG TGGAAGTCAT TCCTGCTCTG CCCAGGCTGC AGATCAGCAC CTCTCTGCCC 
AGATCTGCGC ATTCACTGCA GCCGTCCTCT GGTGACGAAG TATCTACGAA TGTGTCCGTC 
CAGCTTTACA ACGGAGAAAC GCAGCACCTG GTCGTGAAAC TGGAAAACAT TGGAATGGAA 
CCCCTGGAGA AACTGGAAGT CACCTCAAAA ATTCTCACCA CCAAAGAGAA ATTGTATGGT 
GACTTCCTGA GCTGGCGGCT GGAAGAAACT CTTGCCCAGT TTCCTCTGCA GCCTGGAAAG 
GTGGCCACGT TGACCGTCTG CATCAAAGTG AAGCTGGATT TCTCCTGCCA GGAGAACCTC 
CTCCAGGACC TGAGTGACGA TGGCATCAGC GTGAGCGGCT TCCCGCTGTG CAGCCCCTCG 
CGCCAGGTCG TGAGGCCTCG GGCGGACAGC AAGCCCGCGA ACCCAGCTGA GGGCAGCCGG 
CCTGGGGACC CCGGCCACGT GAAGACCCTG GAAGCAATCC TGAATTTCAA ATACTCCGGA 
GGCCCCGGCC ACGTGGAAGG ATATTACAGG AGCCTCGCCC TGGGGCTGCA CGTGGAGGTG 
GAGCCCTCTG TGTTCTTCAC GCGCGTCAGC ACGCTGCCCG CCACCAGTAC CCGGCAGTGC 
CACCTGCTCC TGGACGTCTT CAACTCCACG GAGCACGAGC TGACGGTCAG TGCCCGGAGC 
AATGAAGAGC TCATTCTGCA CGCGGGCGAG TGCCAGCGAA TGGCTATTCA AGTGGACAAG 
TTCAACTTTG AGAGCTTCCC AGAGTCCCCT GAGGAGAAGG GGCAGTCGGC AAATTCCAAG 
CAGCTGGAGG AGGAGCGGCA AGAAGCCCGA GGCCTGGAGA TCAACAGCAA GCTCGGCATC 
CGCTGGACCA TCCCCTCTCT GAAGCGCACA GGCGAGGCGA GCGTGGAAGG TCTCCTGAAC 
CAGCTGGTCC TGGGACACCT GCAGCTGGCT CCTCTGCTGT GGGATGTGCT GGTGGACGGA 
CAGCCCTGTG ACCACGAGGC GGCGGCCTGC CGGGTGGGCG ACCCCGTGCG CCTGGAGGTG 
CGGCTGACCA ACCGGAGCCC ACGCAGCGTG GGGCCCTTCG CCCTCAGCGT GGTGCCCTTC 
CAGGACCACC AGAACGGCGT GCACAACTAC GACCTGCACC ACGCCGTCTC CTTCGTGGGC 
TCCGGCACCT TCTATCTGGA CAAGGTGCCA CCGTCGGGCC AGGCAGCCTG CCTTGGGGCC 
CTGCTCTTCC TCTACACGGG CGACTTCTTC CTCCACGTCC GCTTCCATGA GGACAGCTCC 
AGCAAGGAGC TGCCGCCCTC CTGGTTCTGC CTGCCCAGCG TGCACGTGCG CGCCCTGGAG 
GCGCAGGCCT AG

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

PubMed