TRAPPC11 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TRAPPC11
Entrez Gene ID	100471253
Full Name	trafficking protein particle complex 11
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011237479.2	XP_011235781.1	trafficking protein particle complex subunit 11
XM_019810435.1	XP_019665994.1	trafficking protein particle complex subunit 11

Pathways from BioSystems
Gene Ontology

The following TRAPPC11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRAPPC11 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
OAc23537	XM_019810435.1 Latest version!	Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAc23537	XM_011237479.2 Latest version!	Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

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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)

TRAPPC11 ( XM_011237479.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011235781.1 Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc23537
Clone ID Related Accession (Same CDS sequence)	XM_011237479.2 , XM_019810435.1
Accession Version	XM_011237479.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3402bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	trafficking protein particle complex subunit 11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217325.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011237479.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCCCTA CACAGTGGGA CTTCCCTGTG GAATTATGTT GTCGGCCTAT GGCTTTTGTT 
ACCCTCACGG GCCTGGATGT AGTTTATAAT GCTGTTCATC GAGCTGTCTG GGATGCTTTC 
TGTGCCAATC GGAGGGCTGA TCGGGTACCA ATTTCTTTTA AGGTGCTCCC AGGTGACCAT 
GAGTATCCCA AATGTAGACC TAAGAGAACT TCCTATGAAT GGTACATTCC TAAGGGGATC 
TTAAAGACTG GCTGGATGAA TAAACATCTG AATCTGGTGC CGGCCCTGGT GGTTGTGTTC 
TATGAACTGG ACTGGGATGA GCCCCAGTGG AAAGAAAAGC AGTCCGAGTG CGCTACCAGA 
GTGGAAATCG TCAGGCAAAG TTTACAAGGG AGAAACACAA AAGTTGCAGT GGTTCTGATT 
CAGAAGAAAA CCCCTTTGCC CCCAGGAGAA GATGTCACTG CGTCAGAAAG GGCCGCAGCT 
TTGTGTAACG CGTGTGAACT CTCAGGAAAG TCTTTGTTTG TACTGCCCCA CACTGACCAC 
CTGGTGGGTT ATATTATAAG ATTAGAAAAT GCCTTTTATG AACACGCACA GACTTATTAC 
TACACGGAGA TCAGAAGAGT GAAATCTCAT AAAGAATTTT TGAATAAAAC AACACACCAG 
CTTTTATTTG TTAGACATCA GTTCAAAATA GCTTTCTTCA GTGAATTGAA ACAAGATACA 
CAAAATGCTC TGAAGAATTA TAGGACCGCC TATAATCTTG TACATGAATT GCGAGCCCAT 
GAAACTAATA TTCTGGAAAT AAAGACTATG GCAGGATTTA TAAACTACAA GATCTGTAGG 
CTCTGTTTTC AGCACAACAC CCCATTGGAT GCAATTGCTC AGTTCCGAAA ACACATTGAC 
TTGTGTAAGA AAAAAATCGG AAGTGCGGAG TTGTCTTTTG AGCATGCTGC ATGGATGTCT 
AAACAATTCC AGGCCTTTGG AGATTTATTT GATGAAGCTA TTAAGTTAGG GTTGACAGCT 
ATTCAAACTC AGAATCCTGG TTTCTATTAC CAGCAGGCAG CATACTATGC CCAGGAACGG 
AAACAGCTTG CAAAAACCCT CTGTAACCAT GAAGCTTCTG TAACGTATCC TAATCCTGAT 
CCGTTAGAAA CACAAACAGG CGTTCTTGAC TTTTATGGAC AGAGATCATG GCGACAAGGA 
ATACTAAGTT TTGATCTTTC TGATCCTGAA AAAGAGAAGT TGGGAATTCT TGCCATTCAG 
CTGAAGGAGA GAAGTGTTGT TCACTCTGAA ATAATAATAA CTCTTCTGAG CAATGCTGTT 
GCACAATTTA AGAAGTATAA ATGTCCAAGA ATGAAAAGTC ATCTAATGGT TCAAATGGGA 
GAAGAGTATT ATTATGCAAA GGATTATACC AAAGCTTTGA AGTTGCTGGA TTACGTGATG 
TGTGATTATC GGAGTGAAGG ATGGTGGACC CTGCTCACGT CTATATTGAC CACAGCTCTG 
AAGTGCTCCT ACCTCATGGC CCAATTAAAA GATTACATTA CTTACTCCCT AGAACTCCTT 
GGAAGAGCTT CAACTCTGAA AGATGACCAG AAATCTCGGA TCGAAAAGAA CCTCATAAAT 
GTTCTGATGA ATGAGAGTCC TGATCCGGAA CCCGACTGTG ATGTCTTAGC TGTGAAAACG 
GCTCAGAAGC TGTGGTCAGA CCGCGTCTCC CTGGCCGGCA GCAATGTCTT CACGATAGGG 
GTGCAGGACT TCGTGCCGTT CGTACAATGC AAAGCCAAGT TTCATGCCCC GAGTTTTCAT 
GTTGATGTTC CTGTGCGGTT TGATATCTAT CTGAAGGCTG ACTGTCCACA TCCCATTCGG 
TTTTCCAAGC TTTGTGTCAG CTTTAATAAT CAGGAATATA ACCAGTTCTG TGTAATCGAA 
GAAGCAACCA AAGCAAGTGA AGTTTTGGAA AATTTGACTC AGGGAAAGAT GTGCTTAGTT 
CCCGGTAAAA CAAGGAAGTT TTTATTTAAA TTTGTTGCAA AAACTGAAGA CGTGGGAAAG 
AAAATTGAGA TTACTTCGGT AGATCTGGTT CTGGGCCTCG AGACGGGAAG ATGTGTGGTT 
TTGAATTGGC AAGGAGGAGG AGGGGACGCC GCTTCCTCCC AAGAAGCCTT GCAGGCCTCA 
CGTTCTTTCA AAAGACGGCC TAAGCTCCCC GACAATGAGC TTCACTGGGA CAGCATAGTC 
ATTCAGGCAA GCACAATGAT CATCTCCAGA GTTCCAAACA TTTCTGTCCA TCTGCGACAT 
GACCCTCCTG CCCTGACTAA TGAAATGTAT TGTTTGGTTG TGACCGTTGA GTCCCACGAG 
AAGACCCAAA TCAGAGACGT GAAGCTCACT GCTGGTTTAA AACCTGGACA GGATGCCAAT 
TTAACTCAGA AAACACATGT GTCTCTTCAT GGAACAGAAC TGTGTGATGA GTCCTACCCG 
GCTTTACTCA CCGACATTCC TGTGGGAGAC TTACATCCGG GGGAACAGCT AGAAAAAATG 
TTGTACGTTC GCTGTGGAAC AGTTGGTTCA AGAATGTTTC TCGTGTATGT TTCTTACCTG 
ATCAATACAA CTATTGAAGA CAAAGAAATT GTTTGCAAGT GTCACAAGGA TGAAACTGTA 
ACTATAGAAA CTGTCTTTCC ATTTGATGTC GCGGTTAAAT TTGTCTCTAC AAAGTTTGAG 
CACCTGGAAA GGGTCTATGC GGACATCCCC TTTCTATTGA TGACGGACCT TTTAAGTGCC 
TCACCTTGGG CCCTCACTGT TGTATCCAGT GAGCTCCAGC TTGCTCCTTC TATGACCCCG 
GTGGATCAGC TGGAGTCCCA AGTGGACAAA GTTGTCTTAC AGACTGGAGA GAGTGCTAGT 
GAATGCTTTT GTCTTCGGTG CCCATCTGTT GGAAATGTTG AAGGTGGAGT AGCAACTGGG 
CATTATATTA TCTCCTGGAA GAGGACCTCA GCCATGGGAA ACGTCCCCGT CATCAGTACT 
GTCATCACTC TGCCACACGT GATCGTAGAA AACATTCCTC TCCACGTGAA TGCAGATCTG 
CCATCATTTG GGCGTGTCCG AGAATCCTTA CCTGTCAGGT ATCACCTACA GAATAAGACT 
GACTTAGTTC AAGATGTGGA GGTTTCTGTG GAGCCCAGTG ATGCCTTCAT GTTCTCAGGT 
CTTAAACAGA TTCGATTACG GATCCTCCCT GGCACCGAAC AGGAAATGTT GTATAATTTC 
TACCCTCTGA TGGCCGGATA CCAGCAGCTG CCGTCTGTCA ACGTCACCCT GCTCAGATTT 
CCTCACTTCA CAAATCAGCT GCTCCGACGT TTCATACCTA CCAGTATTTT TGTAAAGCCA 
CAGGGCCGGC TCATGGATGA TACCTCGATT GCCGCCGCCT GA

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

RefSeq	XP_011235781.1
CDS	198..3599
Translation	MSPTQWDFPVELCCRPMAFVTLTGLDVVYNAVHRAVWDAFCANRRADRVPISFKVLPGDHEYPKCRPKRTSYEWYIPKGILKTGWMNKHLNLVPALVVVFYELDWDEPQWKEKQSECATRVEIVRQSLQGRNTKVAVVLIQKKTPLPPGEDVTASERAAALCNACELSGKSLFVLPHTDHLVGYIIRLENAFYEHAQTYYYTEIRRVKSHKEFLNKTTHQLLFVRHQFKIAFFSELKQDTQNALKNYRTAYNLVHELRAHETNILEIKTMAGFINYKICRLCFQHNTPLDAIAQFRKHIDLCKKKIGSAELSFEHAAWMSKQFQAFGDLFDEAIKLGLTAIQTQNPGFYYQQAAYYAQERKQLAKTLCNHEASVTYPNPDPLETQTGVLDFYGQRSWRQGILSFDLSDPEKEKLGILAIQLKERSVVHSEIIITLLSNAVAQFKKYKCPRMKSHLMVQMGEEYYYAKDYTKALKLLDYVMCDYRSEGWWTLLTSILTTALKCSYLMAQLKDYITYSLELLGRASTLKDDQKSRIEKNLINVLMNESPDPEPDCDVLAVKTAQKLWSDRVSLAGSNVFTIGVQDFVPFVQCKAKFHAPSFHVDVPVRFDIYLKADCPHPIRFSKLCVSFNNQEYNQFCVIEEATKASEVLENLTQGKMCLVPGKTRKFLFKFVAKTEDVGKKIEITSVDLVLGLETGRCVVLNWQGGGGDAASSQEALQASRSFKRRPKLPDNELHWDSIVIQASTMIISRVPNISVHLRHDPPALTNEMYCLVVTVESHEKTQIRDVKLTAGLKPGQDANLTQKTHVSLHGTELCDESYPALLTDIPVGDLHPGEQLEKMLYVRCGTVGSRMFLVYVSYLINTTIEDKEIVCKCHKDETVTIETVFPFDVAVKFVSTKFEHLERVYADIPFLLMTDLLSASPWALTVVSSELQLAPSMTPVDQLESQVDKVVLQTGESASECFCLRCPSVGNVEGGVATGHYIISWKRTSAMGNVPVISTVITLPHVIVENIPLHVNADLPSFGRVRESLPVRYHLQNKTDLVQDVEVSVEPSDAFMFSGLKQIRLRILPGTEQEMLYNFYPLMAGYQQLPSVNVTLLRFPHFTNQLLRRFIPTSIFVKPQGRLMDDTSIAAA

Target ORF information:

RefSeq Version	XM_011237479.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011237479.2

ORF Insert Sequence:

ATGAGCCCTA CACAGTGGGA CTTCCCTGTG GAATTATGTT GTCGGCCTAT GGCTTTTGTT 
ACCCTCACGG GCCTGGATGT AGTTTATAAT GCTGTTCATC GAGCTGTCTG GGATGCTTTC 
TGTGCCAATC GGAGGGCTGA TCGGGTACCA ATTTCTTTTA AGGTGCTCCC AGGTGACCAT 
GAGTATCCCA AATGTAGACC TAAGAGAACT TCCTATGAAT GGTACATTCC TAAGGGGATC 
TTAAAGACTG GCTGGATGAA TAAACATCTG AATCTGGTGC CGGCCCTGGT GGTTGTGTTC 
TATGAACTGG ACTGGGATGA GCCCCAGTGG AAAGAAAAGC AGTCCGAGTG CGCTACCAGA 
GTGGAAATCG TCAGGCAAAG TTTACAAGGG AGAAACACAA AAGTTGCAGT GGTTCTGATT 
CAGAAGAAAA CCCCTTTGCC CCCAGGAGAA GATGTCACTG CGTCAGAAAG GGCCGCAGCT 
TTGTGTAACG CGTGTGAACT CTCAGGAAAG TCTTTGTTTG TACTGCCCCA CACTGACCAC 
CTGGTGGGTT ATATTATAAG ATTAGAAAAT GCCTTTTATG AACACGCACA GACTTATTAC 
TACACGGAGA TCAGAAGAGT GAAATCTCAT AAAGAATTTT TGAATAAAAC AACACACCAG 
CTTTTATTTG TTAGACATCA GTTCAAAATA GCTTTCTTCA GTGAATTGAA ACAAGATACA 
CAAAATGCTC TGAAGAATTA TAGGACCGCC TATAATCTTG TACATGAATT GCGAGCCCAT 
GAAACTAATA TTCTGGAAAT AAAGACTATG GCAGGATTTA TAAACTACAA GATCTGTAGG 
CTCTGTTTTC AGCACAACAC CCCATTGGAT GCAATTGCTC AGTTCCGAAA ACACATTGAC 
TTGTGTAAGA AAAAAATCGG AAGTGCGGAG TTGTCTTTTG AGCATGCTGC ATGGATGTCT 
AAACAATTCC AGGCCTTTGG AGATTTATTT GATGAAGCTA TTAAGTTAGG GTTGACAGCT 
ATTCAAACTC AGAATCCTGG TTTCTATTAC CAGCAGGCAG CATACTATGC CCAGGAACGG 
AAACAGCTTG CAAAAACCCT CTGTAACCAT GAAGCTTCTG TAACGTATCC TAATCCTGAT 
CCGTTAGAAA CACAAACAGG CGTTCTTGAC TTTTATGGAC AGAGATCATG GCGACAAGGA 
ATACTAAGTT TTGATCTTTC TGATCCTGAA AAAGAGAAGT TGGGAATTCT TGCCATTCAG 
CTGAAGGAGA GAAGTGTTGT TCACTCTGAA ATAATAATAA CTCTTCTGAG CAATGCTGTT 
GCACAATTTA AGAAGTATAA ATGTCCAAGA ATGAAAAGTC ATCTAATGGT TCAAATGGGA 
GAAGAGTATT ATTATGCAAA GGATTATACC AAAGCTTTGA AGTTGCTGGA TTACGTGATG 
TGTGATTATC GGAGTGAAGG ATGGTGGACC CTGCTCACGT CTATATTGAC CACAGCTCTG 
AAGTGCTCCT ACCTCATGGC CCAATTAAAA GATTACATTA CTTACTCCCT AGAACTCCTT 
GGAAGAGCTT CAACTCTGAA AGATGACCAG AAATCTCGGA TCGAAAAGAA CCTCATAAAT 
GTTCTGATGA ATGAGAGTCC TGATCCGGAA CCCGACTGTG ATGTCTTAGC TGTGAAAACG 
GCTCAGAAGC TGTGGTCAGA CCGCGTCTCC CTGGCCGGCA GCAATGTCTT CACGATAGGG 
GTGCAGGACT TCGTGCCGTT CGTACAATGC AAAGCCAAGT TTCATGCCCC GAGTTTTCAT 
GTTGATGTTC CTGTGCGGTT TGATATCTAT CTGAAGGCTG ACTGTCCACA TCCCATTCGG 
TTTTCCAAGC TTTGTGTCAG CTTTAATAAT CAGGAATATA ACCAGTTCTG TGTAATCGAA 
GAAGCAACCA AAGCAAGTGA AGTTTTGGAA AATTTGACTC AGGGAAAGAT GTGCTTAGTT 
CCCGGTAAAA CAAGGAAGTT TTTATTTAAA TTTGTTGCAA AAACTGAAGA CGTGGGAAAG 
AAAATTGAGA TTACTTCGGT AGATCTGGTT CTGGGCCTCG AGACGGGAAG ATGTGTGGTT 
TTGAATTGGC AAGGAGGAGG AGGGGACGCC GCTTCCTCCC AAGAAGCCTT GCAGGCCTCA 
CGTTCTTTCA AAAGACGGCC TAAGCTCCCC GACAATGAGC TTCACTGGGA CAGCATAGTC 
ATTCAGGCAA GCACAATGAT CATCTCCAGA GTTCCAAACA TTTCTGTCCA TCTGCGACAT 
GACCCTCCTG CCCTGACTAA TGAAATGTAT TGTTTGGTTG TGACCGTTGA GTCCCACGAG 
AAGACCCAAA TCAGAGACGT GAAGCTCACT GCTGGTTTAA AACCTGGACA GGATGCCAAT 
TTAACTCAGA AAACACATGT GTCTCTTCAT GGAACAGAAC TGTGTGATGA GTCCTACCCG 
GCTTTACTCA CCGACATTCC TGTGGGAGAC TTACATCCGG GGGAACAGCT AGAAAAAATG 
TTGTACGTTC GCTGTGGAAC AGTTGGTTCA AGAATGTTTC TCGTGTATGT TTCTTACCTG 
ATCAATACAA CTATTGAAGA CAAAGAAATT GTTTGCAAGT GTCACAAGGA TGAAACTGTA 
ACTATAGAAA CTGTCTTTCC ATTTGATGTC GCGGTTAAAT TTGTCTCTAC AAAGTTTGAG 
CACCTGGAAA GGGTCTATGC GGACATCCCC TTTCTATTGA TGACGGACCT TTTAAGTGCC 
TCACCTTGGG CCCTCACTGT TGTATCCAGT GAGCTCCAGC TTGCTCCTTC TATGACCCCG 
GTGGATCAGC TGGAGTCCCA AGTGGACAAA GTTGTCTTAC AGACTGGAGA GAGTGCTAGT 
GAATGCTTTT GTCTTCGGTG CCCATCTGTT GGAAATGTTG AAGGTGGAGT AGCAACTGGG 
CATTATATTA TCTCCTGGAA GAGGACCTCA GCCATGGGAA ACGTCCCCGT CATCAGTACT 
GTCATCACTC TGCCACACGT GATCGTAGAA AACATTCCTC TCCACGTGAA TGCAGATCTG 
CCATCATTTG GGCGTGTCCG AGAATCCTTA CCTGTCAGGT ATCACCTACA GAATAAGACT 
GACTTAGTTC AAGATGTGGA GGTTTCTGTG GAGCCCAGTG ATGCCTTCAT GTTCTCAGGT 
CTTAAACAGA TTCGATTACG GATCCTCCCT GGCACCGAAC AGGAAATGTT GTATAATTTC 
TACCCTCTGA TGGCCGGATA CCAGCAGCTG CCGTCTGTCA ACGTCACCCT GCTCAGATTT 
CCTCACTTCA CAAATCAGCT GCTCCGACGT TTCATACCTA CCAGTATTTT TGTAAAGCCA 
CAGGGCCGGC TCATGGATGA TACCTCGATT GCCGCCGCCT GA

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

TRAPPC11 ( XM_019810435.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019665994.1 Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc23537
Clone ID Related Accession (Same CDS sequence)	XM_011237479.2 , XM_019810435.1
Accession Version	XM_019810435.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3402bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	trafficking protein particle complex subunit 11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217325.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCCCTA CACAGTGGGA CTTCCCTGTG GAATTATGTT GTCGGCCTAT GGCTTTTGTT 
ACCCTCACGG GCCTGGATGT AGTTTATAAT GCTGTTCATC GAGCTGTCTG GGATGCTTTC 
TGTGCCAATC GGAGGGCTGA TCGGGTACCA ATTTCTTTTA AGGTGCTCCC AGGTGACCAT 
GAGTATCCCA AATGTAGACC TAAGAGAACT TCCTATGAAT GGTACATTCC TAAGGGGATC 
TTAAAGACTG GCTGGATGAA TAAACATCTG AATCTGGTGC CGGCCCTGGT GGTTGTGTTC 
TATGAACTGG ACTGGGATGA GCCCCAGTGG AAAGAAAAGC AGTCCGAGTG CGCTACCAGA 
GTGGAAATCG TCAGGCAAAG TTTACAAGGG AGAAACACAA AAGTTGCAGT GGTTCTGATT 
CAGAAGAAAA CCCCTTTGCC CCCAGGAGAA GATGTCACTG CGTCAGAAAG GGCCGCAGCT 
TTGTGTAACG CGTGTGAACT CTCAGGAAAG TCTTTGTTTG TACTGCCCCA CACTGACCAC 
CTGGTGGGTT ATATTATAAG ATTAGAAAAT GCCTTTTATG AACACGCACA GACTTATTAC 
TACACGGAGA TCAGAAGAGT GAAATCTCAT AAAGAATTTT TGAATAAAAC AACACACCAG 
CTTTTATTTG TTAGACATCA GTTCAAAATA GCTTTCTTCA GTGAATTGAA ACAAGATACA 
CAAAATGCTC TGAAGAATTA TAGGACCGCC TATAATCTTG TACATGAATT GCGAGCCCAT 
GAAACTAATA TTCTGGAAAT AAAGACTATG GCAGGATTTA TAAACTACAA GATCTGTAGG 
CTCTGTTTTC AGCACAACAC CCCATTGGAT GCAATTGCTC AGTTCCGAAA ACACATTGAC 
TTGTGTAAGA AAAAAATCGG AAGTGCGGAG TTGTCTTTTG AGCATGCTGC ATGGATGTCT 
AAACAATTCC AGGCCTTTGG AGATTTATTT GATGAAGCTA TTAAGTTAGG GTTGACAGCT 
ATTCAAACTC AGAATCCTGG TTTCTATTAC CAGCAGGCAG CATACTATGC CCAGGAACGG 
AAACAGCTTG CAAAAACCCT CTGTAACCAT GAAGCTTCTG TAACGTATCC TAATCCTGAT 
CCGTTAGAAA CACAAACAGG CGTTCTTGAC TTTTATGGAC AGAGATCATG GCGACAAGGA 
ATACTAAGTT TTGATCTTTC TGATCCTGAA AAAGAGAAGT TGGGAATTCT TGCCATTCAG 
CTGAAGGAGA GAAGTGTTGT TCACTCTGAA ATAATAATAA CTCTTCTGAG CAATGCTGTT 
GCACAATTTA AGAAGTATAA ATGTCCAAGA ATGAAAAGTC ATCTAATGGT TCAAATGGGA 
GAAGAGTATT ATTATGCAAA GGATTATACC AAAGCTTTGA AGTTGCTGGA TTACGTGATG 
TGTGATTATC GGAGTGAAGG ATGGTGGACC CTGCTCACGT CTATATTGAC CACAGCTCTG 
AAGTGCTCCT ACCTCATGGC CCAATTAAAA GATTACATTA CTTACTCCCT AGAACTCCTT 
GGAAGAGCTT CAACTCTGAA AGATGACCAG AAATCTCGGA TCGAAAAGAA CCTCATAAAT 
GTTCTGATGA ATGAGAGTCC TGATCCGGAA CCCGACTGTG ATGTCTTAGC TGTGAAAACG 
GCTCAGAAGC TGTGGTCAGA CCGCGTCTCC CTGGCCGGCA GCAATGTCTT CACGATAGGG 
GTGCAGGACT TCGTGCCGTT CGTACAATGC AAAGCCAAGT TTCATGCCCC GAGTTTTCAT 
GTTGATGTTC CTGTGCGGTT TGATATCTAT CTGAAGGCTG ACTGTCCACA TCCCATTCGG 
TTTTCCAAGC TTTGTGTCAG CTTTAATAAT CAGGAATATA ACCAGTTCTG TGTAATCGAA 
GAAGCAACCA AAGCAAGTGA AGTTTTGGAA AATTTGACTC AGGGAAAGAT GTGCTTAGTT 
CCCGGTAAAA CAAGGAAGTT TTTATTTAAA TTTGTTGCAA AAACTGAAGA CGTGGGAAAG 
AAAATTGAGA TTACTTCGGT AGATCTGGTT CTGGGCCTCG AGACGGGAAG ATGTGTGGTT 
TTGAATTGGC AAGGAGGAGG AGGGGACGCC GCTTCCTCCC AAGAAGCCTT GCAGGCCTCA 
CGTTCTTTCA AAAGACGGCC TAAGCTCCCC GACAATGAGC TTCACTGGGA CAGCATAGTC 
ATTCAGGCAA GCACAATGAT CATCTCCAGA GTTCCAAACA TTTCTGTCCA TCTGCGACAT 
GACCCTCCTG CCCTGACTAA TGAAATGTAT TGTTTGGTTG TGACCGTTGA GTCCCACGAG 
AAGACCCAAA TCAGAGACGT GAAGCTCACT GCTGGTTTAA AACCTGGACA GGATGCCAAT 
TTAACTCAGA AAACACATGT GTCTCTTCAT GGAACAGAAC TGTGTGATGA GTCCTACCCG 
GCTTTACTCA CCGACATTCC TGTGGGAGAC TTACATCCGG GGGAACAGCT AGAAAAAATG 
TTGTACGTTC GCTGTGGAAC AGTTGGTTCA AGAATGTTTC TCGTGTATGT TTCTTACCTG 
ATCAATACAA CTATTGAAGA CAAAGAAATT GTTTGCAAGT GTCACAAGGA TGAAACTGTA 
ACTATAGAAA CTGTCTTTCC ATTTGATGTC GCGGTTAAAT TTGTCTCTAC AAAGTTTGAG 
CACCTGGAAA GGGTCTATGC GGACATCCCC TTTCTATTGA TGACGGACCT TTTAAGTGCC 
TCACCTTGGG CCCTCACTGT TGTATCCAGT GAGCTCCAGC TTGCTCCTTC TATGACCCCG 
GTGGATCAGC TGGAGTCCCA AGTGGACAAA GTTGTCTTAC AGACTGGAGA GAGTGCTAGT 
GAATGCTTTT GTCTTCGGTG CCCATCTGTT GGAAATGTTG AAGGTGGAGT AGCAACTGGG 
CATTATATTA TCTCCTGGAA GAGGACCTCA GCCATGGGAA ACGTCCCCGT CATCAGTACT 
GTCATCACTC TGCCACACGT GATCGTAGAA AACATTCCTC TCCACGTGAA TGCAGATCTG 
CCATCATTTG GGCGTGTCCG AGAATCCTTA CCTGTCAGGT ATCACCTACA GAATAAGACT 
GACTTAGTTC AAGATGTGGA GGTTTCTGTG GAGCCCAGTG ATGCCTTCAT GTTCTCAGGT 
CTTAAACAGA TTCGATTACG GATCCTCCCT GGCACCGAAC AGGAAATGTT GTATAATTTC 
TACCCTCTGA TGGCCGGATA CCAGCAGCTG CCGTCTGTCA ACGTCACCCT GCTCAGATTT 
CCTCACTTCA CAAATCAGCT GCTCCGACGT TTCATACCTA CCAGTATTTT TGTAAAGCCA 
CAGGGCCGGC TCATGGATGA TACCTCGATT GCCGCCGCCT GA

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

RefSeq	XP_019665994.1
CDS	40..3441
Translation	MSPTQWDFPVELCCRPMAFVTLTGLDVVYNAVHRAVWDAFCANRRADRVPISFKVLPGDHEYPKCRPKRTSYEWYIPKGILKTGWMNKHLNLVPALVVVFYELDWDEPQWKEKQSECATRVEIVRQSLQGRNTKVAVVLIQKKTPLPPGEDVTASERAAALCNACELSGKSLFVLPHTDHLVGYIIRLENAFYEHAQTYYYTEIRRVKSHKEFLNKTTHQLLFVRHQFKIAFFSELKQDTQNALKNYRTAYNLVHELRAHETNILEIKTMAGFINYKICRLCFQHNTPLDAIAQFRKHIDLCKKKIGSAELSFEHAAWMSKQFQAFGDLFDEAIKLGLTAIQTQNPGFYYQQAAYYAQERKQLAKTLCNHEASVTYPNPDPLETQTGVLDFYGQRSWRQGILSFDLSDPEKEKLGILAIQLKERSVVHSEIIITLLSNAVAQFKKYKCPRMKSHLMVQMGEEYYYAKDYTKALKLLDYVMCDYRSEGWWTLLTSILTTALKCSYLMAQLKDYITYSLELLGRASTLKDDQKSRIEKNLINVLMNESPDPEPDCDVLAVKTAQKLWSDRVSLAGSNVFTIGVQDFVPFVQCKAKFHAPSFHVDVPVRFDIYLKADCPHPIRFSKLCVSFNNQEYNQFCVIEEATKASEVLENLTQGKMCLVPGKTRKFLFKFVAKTEDVGKKIEITSVDLVLGLETGRCVVLNWQGGGGDAASSQEALQASRSFKRRPKLPDNELHWDSIVIQASTMIISRVPNISVHLRHDPPALTNEMYCLVVTVESHEKTQIRDVKLTAGLKPGQDANLTQKTHVSLHGTELCDESYPALLTDIPVGDLHPGEQLEKMLYVRCGTVGSRMFLVYVSYLINTTIEDKEIVCKCHKDETVTIETVFPFDVAVKFVSTKFEHLERVYADIPFLLMTDLLSASPWALTVVSSELQLAPSMTPVDQLESQVDKVVLQTGESASECFCLRCPSVGNVEGGVATGHYIISWKRTSAMGNVPVISTVITLPHVIVENIPLHVNADLPSFGRVRESLPVRYHLQNKTDLVQDVEVSVEPSDAFMFSGLKQIRLRILPGTEQEMLYNFYPLMAGYQQLPSVNVTLLRFPHFTNQLLRRFIPTSIFVKPQGRLMDDTSIAAA

Target ORF information:

RefSeq Version	XM_019810435.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca trafficking protein particle complex 11 (TRAPPC11), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019810435.1

ORF Insert Sequence:

ATGAGCCCTA CACAGTGGGA CTTCCCTGTG GAATTATGTT GTCGGCCTAT GGCTTTTGTT 
ACCCTCACGG GCCTGGATGT AGTTTATAAT GCTGTTCATC GAGCTGTCTG GGATGCTTTC 
TGTGCCAATC GGAGGGCTGA TCGGGTACCA ATTTCTTTTA AGGTGCTCCC AGGTGACCAT 
GAGTATCCCA AATGTAGACC TAAGAGAACT TCCTATGAAT GGTACATTCC TAAGGGGATC 
TTAAAGACTG GCTGGATGAA TAAACATCTG AATCTGGTGC CGGCCCTGGT GGTTGTGTTC 
TATGAACTGG ACTGGGATGA GCCCCAGTGG AAAGAAAAGC AGTCCGAGTG CGCTACCAGA 
GTGGAAATCG TCAGGCAAAG TTTACAAGGG AGAAACACAA AAGTTGCAGT GGTTCTGATT 
CAGAAGAAAA CCCCTTTGCC CCCAGGAGAA GATGTCACTG CGTCAGAAAG GGCCGCAGCT 
TTGTGTAACG CGTGTGAACT CTCAGGAAAG TCTTTGTTTG TACTGCCCCA CACTGACCAC 
CTGGTGGGTT ATATTATAAG ATTAGAAAAT GCCTTTTATG AACACGCACA GACTTATTAC 
TACACGGAGA TCAGAAGAGT GAAATCTCAT AAAGAATTTT TGAATAAAAC AACACACCAG 
CTTTTATTTG TTAGACATCA GTTCAAAATA GCTTTCTTCA GTGAATTGAA ACAAGATACA 
CAAAATGCTC TGAAGAATTA TAGGACCGCC TATAATCTTG TACATGAATT GCGAGCCCAT 
GAAACTAATA TTCTGGAAAT AAAGACTATG GCAGGATTTA TAAACTACAA GATCTGTAGG 
CTCTGTTTTC AGCACAACAC CCCATTGGAT GCAATTGCTC AGTTCCGAAA ACACATTGAC 
TTGTGTAAGA AAAAAATCGG AAGTGCGGAG TTGTCTTTTG AGCATGCTGC ATGGATGTCT 
AAACAATTCC AGGCCTTTGG AGATTTATTT GATGAAGCTA TTAAGTTAGG GTTGACAGCT 
ATTCAAACTC AGAATCCTGG TTTCTATTAC CAGCAGGCAG CATACTATGC CCAGGAACGG 
AAACAGCTTG CAAAAACCCT CTGTAACCAT GAAGCTTCTG TAACGTATCC TAATCCTGAT 
CCGTTAGAAA CACAAACAGG CGTTCTTGAC TTTTATGGAC AGAGATCATG GCGACAAGGA 
ATACTAAGTT TTGATCTTTC TGATCCTGAA AAAGAGAAGT TGGGAATTCT TGCCATTCAG 
CTGAAGGAGA GAAGTGTTGT TCACTCTGAA ATAATAATAA CTCTTCTGAG CAATGCTGTT 
GCACAATTTA AGAAGTATAA ATGTCCAAGA ATGAAAAGTC ATCTAATGGT TCAAATGGGA 
GAAGAGTATT ATTATGCAAA GGATTATACC AAAGCTTTGA AGTTGCTGGA TTACGTGATG 
TGTGATTATC GGAGTGAAGG ATGGTGGACC CTGCTCACGT CTATATTGAC CACAGCTCTG 
AAGTGCTCCT ACCTCATGGC CCAATTAAAA GATTACATTA CTTACTCCCT AGAACTCCTT 
GGAAGAGCTT CAACTCTGAA AGATGACCAG AAATCTCGGA TCGAAAAGAA CCTCATAAAT 
GTTCTGATGA ATGAGAGTCC TGATCCGGAA CCCGACTGTG ATGTCTTAGC TGTGAAAACG 
GCTCAGAAGC TGTGGTCAGA CCGCGTCTCC CTGGCCGGCA GCAATGTCTT CACGATAGGG 
GTGCAGGACT TCGTGCCGTT CGTACAATGC AAAGCCAAGT TTCATGCCCC GAGTTTTCAT 
GTTGATGTTC CTGTGCGGTT TGATATCTAT CTGAAGGCTG ACTGTCCACA TCCCATTCGG 
TTTTCCAAGC TTTGTGTCAG CTTTAATAAT CAGGAATATA ACCAGTTCTG TGTAATCGAA 
GAAGCAACCA AAGCAAGTGA AGTTTTGGAA AATTTGACTC AGGGAAAGAT GTGCTTAGTT 
CCCGGTAAAA CAAGGAAGTT TTTATTTAAA TTTGTTGCAA AAACTGAAGA CGTGGGAAAG 
AAAATTGAGA TTACTTCGGT AGATCTGGTT CTGGGCCTCG AGACGGGAAG ATGTGTGGTT 
TTGAATTGGC AAGGAGGAGG AGGGGACGCC GCTTCCTCCC AAGAAGCCTT GCAGGCCTCA 
CGTTCTTTCA AAAGACGGCC TAAGCTCCCC GACAATGAGC TTCACTGGGA CAGCATAGTC 
ATTCAGGCAA GCACAATGAT CATCTCCAGA GTTCCAAACA TTTCTGTCCA TCTGCGACAT 
GACCCTCCTG CCCTGACTAA TGAAATGTAT TGTTTGGTTG TGACCGTTGA GTCCCACGAG 
AAGACCCAAA TCAGAGACGT GAAGCTCACT GCTGGTTTAA AACCTGGACA GGATGCCAAT 
TTAACTCAGA AAACACATGT GTCTCTTCAT GGAACAGAAC TGTGTGATGA GTCCTACCCG 
GCTTTACTCA CCGACATTCC TGTGGGAGAC TTACATCCGG GGGAACAGCT AGAAAAAATG 
TTGTACGTTC GCTGTGGAAC AGTTGGTTCA AGAATGTTTC TCGTGTATGT TTCTTACCTG 
ATCAATACAA CTATTGAAGA CAAAGAAATT GTTTGCAAGT GTCACAAGGA TGAAACTGTA 
ACTATAGAAA CTGTCTTTCC ATTTGATGTC GCGGTTAAAT TTGTCTCTAC AAAGTTTGAG 
CACCTGGAAA GGGTCTATGC GGACATCCCC TTTCTATTGA TGACGGACCT TTTAAGTGCC 
TCACCTTGGG CCCTCACTGT TGTATCCAGT GAGCTCCAGC TTGCTCCTTC TATGACCCCG 
GTGGATCAGC TGGAGTCCCA AGTGGACAAA GTTGTCTTAC AGACTGGAGA GAGTGCTAGT 
GAATGCTTTT GTCTTCGGTG CCCATCTGTT GGAAATGTTG AAGGTGGAGT AGCAACTGGG 
CATTATATTA TCTCCTGGAA GAGGACCTCA GCCATGGGAA ACGTCCCCGT CATCAGTACT 
GTCATCACTC TGCCACACGT GATCGTAGAA AACATTCCTC TCCACGTGAA TGCAGATCTG 
CCATCATTTG GGCGTGTCCG AGAATCCTTA CCTGTCAGGT ATCACCTACA GAATAAGACT 
GACTTAGTTC AAGATGTGGA GGTTTCTGTG GAGCCCAGTG ATGCCTTCAT GTTCTCAGGT 
CTTAAACAGA TTCGATTACG GATCCTCCCT GGCACCGAAC AGGAAATGTT GTATAATTTC 
TACCCTCTGA TGGCCGGATA CCAGCAGCTG CCGTCTGTCA ACGTCACCCT GCTCAGATTT 
CCTCACTTCA CAAATCAGCT GCTCCGACGT TTCATACCTA CCAGTATTTT TGTAAAGCCA 
CAGGGCCGGC TCATGGATGA TACCTCGATT GCCGCCGCCT GA

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

PubMed

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TRAPPC11 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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