TRAK2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TRAK2
Entrez Gene ID	100473096
Full Name	trafficking kinesin protein 2
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011220547.2	XP_011218849.1	trafficking kinesin-binding protein 2 isoform X1
XM_002915848.3	XP_002915894.1	trafficking kinesin-binding protein 2 isoform X1
XM_019796008.1	XP_019651567.1	trafficking kinesin-binding protein 2 isoform X2

Pathways from BioSystems
Gene Ontology

The following TRAK2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRAK2 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)
OAc03486	XM_002915848.3 Latest version!	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc03486	XM_011220547.2 Latest version!	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc90425	XM_019796008.1 Latest version!	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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

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

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

Reference Sequences (Refseq)

TRAK2 ( XM_011220547.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011218849.1 Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc03486
Clone ID Related Accession (Same CDS sequence)	XM_011220547.2 , XM_002915848.3
Accession Version	XM_011220547.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2730bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	trafficking kinesin-binding protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217395.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011220547.1. ##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##

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCGAGTCTC TAGCAGCTGA GATTGAGGGG 
ACCATGCGAA AAAAGTTGAG TTTGGATGAG GAATCTTCTC TCTTTAAACA AAAAGCCCAA 
CAGAAACGGG TATTTGATAC GGTCAAGGTT GCCAATGACA CACGAGGCCG CTCCATCCCT 
TTCCCAGCTC TGCTACCCAT TCCAGGGTCC AACCGTTCAA GCGTCATCAT GACGGCAAAA 
CCTTTTGAAT CTGGTTTACG ACAAACAGAG GACAAAACAC TCCTGAATCA GGGGAGCAAC 
TCAGAAGAGG TTTCAGAGAA CGTTCAGAAG GTGGGGCAAC CAGGACCCTC TGGAGATAGT 
GATTTGGCCA CAGCACTGCA TCGCCTTAGT CTGCGGCGAC AGAACTACTT AAGTGAGAAG 
CAGTACTTTG CTGAAGAATG GGAGCGGAAG ATCCAGGTTC TGGCTGACCA GAAAGAAGGG 
GTTAGTGGCT GCGGCACCCC CACGGAGAGC CTTGCCTCGC TCTGCACTGA CCAGTCAGAG 
ATCACAGACC TCAGCAGTGC CAGTTGCCTT CGAGGTTTTA TGCCTGAAAA ATTACAAATT 
GTCAAGCCTC TTGAAGGATC ACAAACTTTA CACCACTGGC AGCAGCTTGC TCAACCAAAT 
TTAGGAACCA TTCTTGACCC ACGACCAGGT GTCATCACTA AAGGCTTTAC CCAGTTGCCC 
AAGGATGCCA TCTATCACCT CTCAGATTTA GAAGAGGATG AAGAGGAAGG TATCACTTTT 
CAAGTGGAAC AGAAACCTTC AGTATCCAAG CCAGTAACAG GAATCTTCCT TCCAGCTATT 
ACTTCAGCTG GTGGTCCAGT TACAGTTGCA ACCTCAAACC CAGGCAAGTG TCTGTCATGC 
ACAAACTCGA CATTCACCTT CACTACCTGT AGGATATTGC ATCCTTCTGA TATCACTCAG 
GTTACCCCCA GCTCTGGGTT CCCTTCATTA TCCTGTGGAA GTGGTGGTAG CAGTTCATCA 
AACACGGCGG TGAATTCTCC TGCTATGTCC TATAGACTCA GCATTGGTGA ATCTGTTACC 
AACCGACGAG ATTCCACTAT AACCTTCAGT AGCACCGTGA GCTTGGCCAA ACTTCTGCAA 
GAGCGAGGCA TTTCTGCTAA AGTGTATCAC AGCCCAGTTT CAGAGAGCCC CCTCCTCCAG 
CCTATCCCTA AAGCCCTGGC TATTCCTTCC ACACCACCAA ATTCACCATC TCACTCACCT 
TGCCCTTCTC CTTTGCCCTT TGAGCCTCGA GTGCATCTCT CTGAAAATTT TTTGGCCTCC 
CGACCAGCTG AAACATTCCT CCAGGAGATG TATGGTTTGA GACCTACCCG GAACCCTCCT 
GATCCTGGCC AGTTGAAGAT GAACTTAGTG GACAGGCTCA AGAGACTGGG GATAGCCAGA 
GTGATCAAGA CCCCTGATGC ACAGGAAAAT GGAAGAAGCC AAGAGGCAGA AATTGGTCTT 
CAAAGACCGG ACTCTGCTGT TTATTTAAAT TCAGGTAGCA ATTTATTGAG TGGACTGAGG 
AGGAATCAGA GTCTTCCAGT CATGATGGGT AGCTTGGGCA CCCCAGTTTG CACAACTTCA 
CCGAAAATGG ATATCCTGAA GGAAGACTGA

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

RefSeq	XP_011218849.1
CDS	322..3051
Translation	MSQSQNAIFISPTGEENLMNISHRDSESITDVCSNEDLPEVELVNLLEEQLPQYKLRVDSLFLYENQDWTQSPHQQQHASDAFSPVLAEETFHYMILGTDRVEQMTKTYNDIDMVTHLLAERDRDLELAARIGQALLKRNHVLSEQNEALEEQLGQAFDQVNQLQHELSKKDELLRIVSIASEESETDSSCSTPLRFNESFSLSQGLLQLDMLQEKLKELEEENMALRSKACHIKTETITYEEKEQQLVNDCVKELRETNAQMSRMTEELSGKSDELTRYQEEISSLLSQIVDLQHKVKEHVIEKEELRLHLQASKDAQRQLTMELHELQDRNMECLGMLHESQEEIKELRSRSGPAAHLYFSQSCGAFSGESLAAEIEGTMRKKLSLDEESSLFKQKAQQKRVFDTVKVANDTRGRSIPFPALLPIPGSNRSSVIMTAKPFESGLRQTEDKTLLNQGSNSEEVSENVQKVGQPGPSGDSDLATALHRLSLRRQNYLSEKQYFAEEWERKIQVLADQKEGVSGCGTPTESLASLCTDQSEITDLSSASCLRGFMPEKLQIVKPLEGSQTLHHWQQLAQPNLGTILDPRPGVITKGFTQLPKDAIYHLSDLEEDEEEGITFQVEQKPSVSKPVTGIFLPAITSAGGPVTVATSNPGKCLSCTNSTFTFTTCRILHPSDITQVTPSSGFPSLSCGSGGSSSSNTAVNSPAMSYRLSIGESVTNRRDSTITFSSTVSLAKLLQERGISAKVYHSPVSESPLLQPIPKALAIPSTPPNSPSHSPCPSPLPFEPRVHLSENFLASRPAETFLQEMYGLRPTRNPPDPGQLKMNLVDRLKRLGIARVIKTPDAQENGRSQEAEIGLQRPDSAVYLNSGSNLLSGLRRNQSLPVMMGSLGTPVCTTSPKMDILKED

Target ORF information:

RefSeq Version	XM_011220547.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X2, mRNA.

Target ORF information:

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

XM_011220547.2

ORF Insert Sequence:

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCGAGTCTC TAGCAGCTGA GATTGAGGGG 
ACCATGCGAA AAAAGTTGAG TTTGGATGAG GAATCTTCTC TCTTTAAACA AAAAGCCCAA 
CAGAAACGGG TATTTGATAC GGTCAAGGTT GCCAATGACA CACGAGGCCG CTCCATCCCT 
TTCCCAGCTC TGCTACCCAT TCCAGGGTCC AACCGTTCAA GCGTCATCAT GACGGCAAAA 
CCTTTTGAAT CTGGTTTACG ACAAACAGAG GACAAAACAC TCCTGAATCA GGGGAGCAAC 
TCAGAAGAGG TTTCAGAGAA CGTTCAGAAG GTGGGGCAAC CAGGACCCTC TGGAGATAGT 
GATTTGGCCA CAGCACTGCA TCGCCTTAGT CTGCGGCGAC AGAACTACTT AAGTGAGAAG 
CAGTACTTTG CTGAAGAATG GGAGCGGAAG ATCCAGGTTC TGGCTGACCA GAAAGAAGGG 
GTTAGTGGCT GCGGCACCCC CACGGAGAGC CTTGCCTCGC TCTGCACTGA CCAGTCAGAG 
ATCACAGACC TCAGCAGTGC CAGTTGCCTT CGAGGTTTTA TGCCTGAAAA ATTACAAATT 
GTCAAGCCTC TTGAAGGATC ACAAACTTTA CACCACTGGC AGCAGCTTGC TCAACCAAAT 
TTAGGAACCA TTCTTGACCC ACGACCAGGT GTCATCACTA AAGGCTTTAC CCAGTTGCCC 
AAGGATGCCA TCTATCACCT CTCAGATTTA GAAGAGGATG AAGAGGAAGG TATCACTTTT 
CAAGTGGAAC AGAAACCTTC AGTATCCAAG CCAGTAACAG GAATCTTCCT TCCAGCTATT 
ACTTCAGCTG GTGGTCCAGT TACAGTTGCA ACCTCAAACC CAGGCAAGTG TCTGTCATGC 
ACAAACTCGA CATTCACCTT CACTACCTGT AGGATATTGC ATCCTTCTGA TATCACTCAG 
GTTACCCCCA GCTCTGGGTT CCCTTCATTA TCCTGTGGAA GTGGTGGTAG CAGTTCATCA 
AACACGGCGG TGAATTCTCC TGCTATGTCC TATAGACTCA GCATTGGTGA ATCTGTTACC 
AACCGACGAG ATTCCACTAT AACCTTCAGT AGCACCGTGA GCTTGGCCAA ACTTCTGCAA 
GAGCGAGGCA TTTCTGCTAA AGTGTATCAC AGCCCAGTTT CAGAGAGCCC CCTCCTCCAG 
CCTATCCCTA AAGCCCTGGC TATTCCTTCC ACACCACCAA ATTCACCATC TCACTCACCT 
TGCCCTTCTC CTTTGCCCTT TGAGCCTCGA GTGCATCTCT CTGAAAATTT TTTGGCCTCC 
CGACCAGCTG AAACATTCCT CCAGGAGATG TATGGTTTGA GACCTACCCG GAACCCTCCT 
GATCCTGGCC AGTTGAAGAT GAACTTAGTG GACAGGCTCA AGAGACTGGG GATAGCCAGA 
GTGATCAAGA CCCCTGATGC ACAGGAAAAT GGAAGAAGCC AAGAGGCAGA AATTGGTCTT 
CAAAGACCGG ACTCTGCTGT TTATTTAAAT TCAGGTAGCA ATTTATTGAG TGGACTGAGG 
AGGAATCAGA GTCTTCCAGT CATGATGGGT AGCTTGGGCA CCCCAGTTTG CACAACTTCA 
CCGAAAATGG ATATCCTGAA GGAAGACTGA

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

TRAK2 ( XM_002915848.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002915894.1 Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc03486
Clone ID Related Accession (Same CDS sequence)	XM_011220547.2 , XM_002915848.3
Accession Version	XM_002915848.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2730bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	trafficking kinesin-binding protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217395.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002915848.2. ##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##

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCGAGTCTC TAGCAGCTGA GATTGAGGGG 
ACCATGCGAA AAAAGTTGAG TTTGGATGAG GAATCTTCTC TCTTTAAACA AAAAGCCCAA 
CAGAAACGGG TATTTGATAC GGTCAAGGTT GCCAATGACA CACGAGGCCG CTCCATCCCT 
TTCCCAGCTC TGCTACCCAT TCCAGGGTCC AACCGTTCAA GCGTCATCAT GACGGCAAAA 
CCTTTTGAAT CTGGTTTACG ACAAACAGAG GACAAAACAC TCCTGAATCA GGGGAGCAAC 
TCAGAAGAGG TTTCAGAGAA CGTTCAGAAG GTGGGGCAAC CAGGACCCTC TGGAGATAGT 
GATTTGGCCA CAGCACTGCA TCGCCTTAGT CTGCGGCGAC AGAACTACTT AAGTGAGAAG 
CAGTACTTTG CTGAAGAATG GGAGCGGAAG ATCCAGGTTC TGGCTGACCA GAAAGAAGGG 
GTTAGTGGCT GCGGCACCCC CACGGAGAGC CTTGCCTCGC TCTGCACTGA CCAGTCAGAG 
ATCACAGACC TCAGCAGTGC CAGTTGCCTT CGAGGTTTTA TGCCTGAAAA ATTACAAATT 
GTCAAGCCTC TTGAAGGATC ACAAACTTTA CACCACTGGC AGCAGCTTGC TCAACCAAAT 
TTAGGAACCA TTCTTGACCC ACGACCAGGT GTCATCACTA AAGGCTTTAC CCAGTTGCCC 
AAGGATGCCA TCTATCACCT CTCAGATTTA GAAGAGGATG AAGAGGAAGG TATCACTTTT 
CAAGTGGAAC AGAAACCTTC AGTATCCAAG CCAGTAACAG GAATCTTCCT TCCAGCTATT 
ACTTCAGCTG GTGGTCCAGT TACAGTTGCA ACCTCAAACC CAGGCAAGTG TCTGTCATGC 
ACAAACTCGA CATTCACCTT CACTACCTGT AGGATATTGC ATCCTTCTGA TATCACTCAG 
GTTACCCCCA GCTCTGGGTT CCCTTCATTA TCCTGTGGAA GTGGTGGTAG CAGTTCATCA 
AACACGGCGG TGAATTCTCC TGCTATGTCC TATAGACTCA GCATTGGTGA ATCTGTTACC 
AACCGACGAG ATTCCACTAT AACCTTCAGT AGCACCGTGA GCTTGGCCAA ACTTCTGCAA 
GAGCGAGGCA TTTCTGCTAA AGTGTATCAC AGCCCAGTTT CAGAGAGCCC CCTCCTCCAG 
CCTATCCCTA AAGCCCTGGC TATTCCTTCC ACACCACCAA ATTCACCATC TCACTCACCT 
TGCCCTTCTC CTTTGCCCTT TGAGCCTCGA GTGCATCTCT CTGAAAATTT TTTGGCCTCC 
CGACCAGCTG AAACATTCCT CCAGGAGATG TATGGTTTGA GACCTACCCG GAACCCTCCT 
GATCCTGGCC AGTTGAAGAT GAACTTAGTG GACAGGCTCA AGAGACTGGG GATAGCCAGA 
GTGATCAAGA CCCCTGATGC ACAGGAAAAT GGAAGAAGCC AAGAGGCAGA AATTGGTCTT 
CAAAGACCGG ACTCTGCTGT TTATTTAAAT TCAGGTAGCA ATTTATTGAG TGGACTGAGG 
AGGAATCAGA GTCTTCCAGT CATGATGGGT AGCTTGGGCA CCCCAGTTTG CACAACTTCA 
CCGAAAATGG ATATCCTGAA GGAAGACTGA

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

RefSeq	XP_002915894.1
CDS	284..3013
Translation	MSQSQNAIFISPTGEENLMNISHRDSESITDVCSNEDLPEVELVNLLEEQLPQYKLRVDSLFLYENQDWTQSPHQQQHASDAFSPVLAEETFHYMILGTDRVEQMTKTYNDIDMVTHLLAERDRDLELAARIGQALLKRNHVLSEQNEALEEQLGQAFDQVNQLQHELSKKDELLRIVSIASEESETDSSCSTPLRFNESFSLSQGLLQLDMLQEKLKELEEENMALRSKACHIKTETITYEEKEQQLVNDCVKELRETNAQMSRMTEELSGKSDELTRYQEEISSLLSQIVDLQHKVKEHVIEKEELRLHLQASKDAQRQLTMELHELQDRNMECLGMLHESQEEIKELRSRSGPAAHLYFSQSCGAFSGESLAAEIEGTMRKKLSLDEESSLFKQKAQQKRVFDTVKVANDTRGRSIPFPALLPIPGSNRSSVIMTAKPFESGLRQTEDKTLLNQGSNSEEVSENVQKVGQPGPSGDSDLATALHRLSLRRQNYLSEKQYFAEEWERKIQVLADQKEGVSGCGTPTESLASLCTDQSEITDLSSASCLRGFMPEKLQIVKPLEGSQTLHHWQQLAQPNLGTILDPRPGVITKGFTQLPKDAIYHLSDLEEDEEEGITFQVEQKPSVSKPVTGIFLPAITSAGGPVTVATSNPGKCLSCTNSTFTFTTCRILHPSDITQVTPSSGFPSLSCGSGGSSSSNTAVNSPAMSYRLSIGESVTNRRDSTITFSSTVSLAKLLQERGISAKVYHSPVSESPLLQPIPKALAIPSTPPNSPSHSPCPSPLPFEPRVHLSENFLASRPAETFLQEMYGLRPTRNPPDPGQLKMNLVDRLKRLGIARVIKTPDAQENGRSQEAEIGLQRPDSAVYLNSGSNLLSGLRRNQSLPVMMGSLGTPVCTTSPKMDILKED

Target ORF information:

RefSeq Version	XM_002915848.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X1, mRNA.

Target ORF information:

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

XM_002915848.3

ORF Insert Sequence:

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCGAGTCTC TAGCAGCTGA GATTGAGGGG 
ACCATGCGAA AAAAGTTGAG TTTGGATGAG GAATCTTCTC TCTTTAAACA AAAAGCCCAA 
CAGAAACGGG TATTTGATAC GGTCAAGGTT GCCAATGACA CACGAGGCCG CTCCATCCCT 
TTCCCAGCTC TGCTACCCAT TCCAGGGTCC AACCGTTCAA GCGTCATCAT GACGGCAAAA 
CCTTTTGAAT CTGGTTTACG ACAAACAGAG GACAAAACAC TCCTGAATCA GGGGAGCAAC 
TCAGAAGAGG TTTCAGAGAA CGTTCAGAAG GTGGGGCAAC CAGGACCCTC TGGAGATAGT 
GATTTGGCCA CAGCACTGCA TCGCCTTAGT CTGCGGCGAC AGAACTACTT AAGTGAGAAG 
CAGTACTTTG CTGAAGAATG GGAGCGGAAG ATCCAGGTTC TGGCTGACCA GAAAGAAGGG 
GTTAGTGGCT GCGGCACCCC CACGGAGAGC CTTGCCTCGC TCTGCACTGA CCAGTCAGAG 
ATCACAGACC TCAGCAGTGC CAGTTGCCTT CGAGGTTTTA TGCCTGAAAA ATTACAAATT 
GTCAAGCCTC TTGAAGGATC ACAAACTTTA CACCACTGGC AGCAGCTTGC TCAACCAAAT 
TTAGGAACCA TTCTTGACCC ACGACCAGGT GTCATCACTA AAGGCTTTAC CCAGTTGCCC 
AAGGATGCCA TCTATCACCT CTCAGATTTA GAAGAGGATG AAGAGGAAGG TATCACTTTT 
CAAGTGGAAC AGAAACCTTC AGTATCCAAG CCAGTAACAG GAATCTTCCT TCCAGCTATT 
ACTTCAGCTG GTGGTCCAGT TACAGTTGCA ACCTCAAACC CAGGCAAGTG TCTGTCATGC 
ACAAACTCGA CATTCACCTT CACTACCTGT AGGATATTGC ATCCTTCTGA TATCACTCAG 
GTTACCCCCA GCTCTGGGTT CCCTTCATTA TCCTGTGGAA GTGGTGGTAG CAGTTCATCA 
AACACGGCGG TGAATTCTCC TGCTATGTCC TATAGACTCA GCATTGGTGA ATCTGTTACC 
AACCGACGAG ATTCCACTAT AACCTTCAGT AGCACCGTGA GCTTGGCCAA ACTTCTGCAA 
GAGCGAGGCA TTTCTGCTAA AGTGTATCAC AGCCCAGTTT CAGAGAGCCC CCTCCTCCAG 
CCTATCCCTA AAGCCCTGGC TATTCCTTCC ACACCACCAA ATTCACCATC TCACTCACCT 
TGCCCTTCTC CTTTGCCCTT TGAGCCTCGA GTGCATCTCT CTGAAAATTT TTTGGCCTCC 
CGACCAGCTG AAACATTCCT CCAGGAGATG TATGGTTTGA GACCTACCCG GAACCCTCCT 
GATCCTGGCC AGTTGAAGAT GAACTTAGTG GACAGGCTCA AGAGACTGGG GATAGCCAGA 
GTGATCAAGA CCCCTGATGC ACAGGAAAAT GGAAGAAGCC AAGAGGCAGA AATTGGTCTT 
CAAAGACCGG ACTCTGCTGT TTATTTAAAT TCAGGTAGCA ATTTATTGAG TGGACTGAGG 
AGGAATCAGA GTCTTCCAGT CATGATGGGT AGCTTGGGCA CCCCAGTTTG CACAACTTCA 
CCGAAAATGG ATATCCTGAA GGAAGACTGA

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

TRAK2 ( XM_019796008.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019651567.1 Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X3, mRNA.

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CloneID	OAc90425
Clone ID Related Accession (Same CDS sequence)	XM_019796008.1
Accession Version	XM_019796008.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2727bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	trafficking kinesin-binding protein 2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217395.1) 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##

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCTCTCTAG CAGCTGAGAT TGAGGGGACC 
ATGCGAAAAA AGTTGAGTTT GGATGAGGAA TCTTCTCTCT TTAAACAAAA AGCCCAACAG 
AAACGGGTAT TTGATACGGT CAAGGTTGCC AATGACACAC GAGGCCGCTC CATCCCTTTC 
CCAGCTCTGC TACCCATTCC AGGGTCCAAC CGTTCAAGCG TCATCATGAC GGCAAAACCT 
TTTGAATCTG GTTTACGACA AACAGAGGAC AAAACACTCC TGAATCAGGG GAGCAACTCA 
GAAGAGGTTT CAGAGAACGT TCAGAAGGTG GGGCAACCAG GACCCTCTGG AGATAGTGAT 
TTGGCCACAG CACTGCATCG CCTTAGTCTG CGGCGACAGA ACTACTTAAG TGAGAAGCAG 
TACTTTGCTG AAGAATGGGA GCGGAAGATC CAGGTTCTGG CTGACCAGAA AGAAGGGGTT 
AGTGGCTGCG GCACCCCCAC GGAGAGCCTT GCCTCGCTCT GCACTGACCA GTCAGAGATC 
ACAGACCTCA GCAGTGCCAG TTGCCTTCGA GGTTTTATGC CTGAAAAATT ACAAATTGTC 
AAGCCTCTTG AAGGATCACA AACTTTACAC CACTGGCAGC AGCTTGCTCA ACCAAATTTA 
GGAACCATTC TTGACCCACG ACCAGGTGTC ATCACTAAAG GCTTTACCCA GTTGCCCAAG 
GATGCCATCT ATCACCTCTC AGATTTAGAA GAGGATGAAG AGGAAGGTAT CACTTTTCAA 
GTGGAACAGA AACCTTCAGT ATCCAAGCCA GTAACAGGAA TCTTCCTTCC AGCTATTACT 
TCAGCTGGTG GTCCAGTTAC AGTTGCAACC TCAAACCCAG GCAAGTGTCT GTCATGCACA 
AACTCGACAT TCACCTTCAC TACCTGTAGG ATATTGCATC CTTCTGATAT CACTCAGGTT 
ACCCCCAGCT CTGGGTTCCC TTCATTATCC TGTGGAAGTG GTGGTAGCAG TTCATCAAAC 
ACGGCGGTGA ATTCTCCTGC TATGTCCTAT AGACTCAGCA TTGGTGAATC TGTTACCAAC 
CGACGAGATT CCACTATAAC CTTCAGTAGC ACCGTGAGCT TGGCCAAACT TCTGCAAGAG 
CGAGGCATTT CTGCTAAAGT GTATCACAGC CCAGTTTCAG AGAGCCCCCT CCTCCAGCCT 
ATCCCTAAAG CCCTGGCTAT TCCTTCCACA CCACCAAATT CACCATCTCA CTCACCTTGC 
CCTTCTCCTT TGCCCTTTGA GCCTCGAGTG CATCTCTCTG AAAATTTTTT GGCCTCCCGA 
CCAGCTGAAA CATTCCTCCA GGAGATGTAT GGTTTGAGAC CTACCCGGAA CCCTCCTGAT 
CCTGGCCAGT TGAAGATGAA CTTAGTGGAC AGGCTCAAGA GACTGGGGAT AGCCAGAGTG 
ATCAAGACCC CTGATGCACA GGAAAATGGA AGAAGCCAAG AGGCAGAAAT TGGTCTTCAA 
AGACCGGACT CTGCTGTTTA TTTAAATTCA GGTAGCAATT TATTGAGTGG ACTGAGGAGG 
AATCAGAGTC TTCCAGTCAT GATGGGTAGC TTGGGCACCC CAGTTTGCAC AACTTCACCG 
AAAATGGATA TCCTGAAGGA AGACTGA

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

RefSeq	XP_019651567.1
CDS	284..3010
Translation	MSQSQNAIFISPTGEENLMNISHRDSESITDVCSNEDLPEVELVNLLEEQLPQYKLRVDSLFLYENQDWTQSPHQQQHASDAFSPVLAEETFHYMILGTDRVEQMTKTYNDIDMVTHLLAERDRDLELAARIGQALLKRNHVLSEQNEALEEQLGQAFDQVNQLQHELSKKDELLRIVSIASEESETDSSCSTPLRFNESFSLSQGLLQLDMLQEKLKELEEENMALRSKACHIKTETITYEEKEQQLVNDCVKELRETNAQMSRMTEELSGKSDELTRYQEEISSLLSQIVDLQHKVKEHVIEKEELRLHLQASKDAQRQLTMELHELQDRNMECLGMLHESQEEIKELRSRSGPAAHLYFSQSCGAFSGSLAAEIEGTMRKKLSLDEESSLFKQKAQQKRVFDTVKVANDTRGRSIPFPALLPIPGSNRSSVIMTAKPFESGLRQTEDKTLLNQGSNSEEVSENVQKVGQPGPSGDSDLATALHRLSLRRQNYLSEKQYFAEEWERKIQVLADQKEGVSGCGTPTESLASLCTDQSEITDLSSASCLRGFMPEKLQIVKPLEGSQTLHHWQQLAQPNLGTILDPRPGVITKGFTQLPKDAIYHLSDLEEDEEEGITFQVEQKPSVSKPVTGIFLPAITSAGGPVTVATSNPGKCLSCTNSTFTFTTCRILHPSDITQVTPSSGFPSLSCGSGGSSSSNTAVNSPAMSYRLSIGESVTNRRDSTITFSSTVSLAKLLQERGISAKVYHSPVSESPLLQPIPKALAIPSTPPNSPSHSPCPSPLPFEPRVHLSENFLASRPAETFLQEMYGLRPTRNPPDPGQLKMNLVDRLKRLGIARVIKTPDAQENGRSQEAEIGLQRPDSAVYLNSGSNLLSGLRRNQSLPVMMGSLGTPVCTTSPKMDILKED

Target ORF information:

RefSeq Version	XM_019796008.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca trafficking kinesin protein 2 (TRAK2), transcript variant X3, mRNA.

Target ORF information:

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

XM_019796008.1

ORF Insert Sequence:

ATGAGTCAAT CACAGAATGC CATTTTTATA TCACCAACAG GTGAAGAAAA CCTCATGAAT 
ATCAGTCACA GAGACTCAGA GAGTATTACT GATGTCTGCT CCAATGAGGA TCTCCCTGAA 
GTTGAGCTGG TGAATCTGCT GGAAGAACAG CTCCCCCAGT ATAAGCTAAG AGTAGACTCT 
CTCTTTCTAT ATGAAAATCA AGACTGGACT CAGTCCCCAC ACCAGCAGCA GCATGCGTCT 
GATGCCTTCT CTCCAGTCCT TGCTGAAGAG ACTTTCCATT ATATGATTCT AGGCACAGAC 
AGGGTGGAGC AGATGACCAA AACTTACAAT GATATTGACA TGGTTACACA CCTCCTGGCA 
GAGAGAGATC GTGATCTGGA GCTAGCTGCT CGAATCGGAC AAGCTCTCTT AAAAAGGAAC 
CATGTCTTGT CTGAGCAGAA TGAAGCCCTG GAGGAGCAAT TGGGACAAGC CTTTGATCAA 
GTTAACCAAC TGCAGCATGA GCTGTCCAAG AAAGATGAAT TACTTCGAAT TGTCTCTATT 
GCTTCTGAAG AGAGTGAAAC TGATTCCAGC TGTTCTACAC CTCTCCGGTT CAATGAGTCC 
TTTAGCTTAT CTCAAGGTTT GCTGCAGTTG GACATGCTGC AAGAAAAACT CAAGGAACTG 
GAAGAGGAGA ATATGGCTCT TCGATCCAAG GCTTGTCACA TAAAGACAGA AACTATTACC 
TATGAAGAGA AGGAACAACA GCTTGTCAAT GACTGTGTTA AAGAACTTCG TGAAACAAAT 
GCTCAGATGT CCAGAATGAC TGAAGAATTA TCTGGGAAGA GTGATGAACT AACTCGGTAC 
CAAGAAGAGA TCTCCTCTCT CTTGTCTCAA ATTGTAGATC TTCAGCACAA AGTTAAAGAA 
CATGTGATTG AGAAGGAGGA ACTGAGACTT CACCTACAAG CTTCCAAAGA TGCCCAAAGA 
CAGCTGACAA TGGAGCTGCA TGAGTTACAA GACAGGAATA TGGAGTGTCT AGGAATGTTA 
CATGAATCCC AAGAAGAAAT AAAGGAACTT CGAAGTAGAT CTGGCCCTGC TGCTCATCTT 
TACTTCTCAC AGTCATGTGG AGCTTTCTCT GGCTCTCTAG CAGCTGAGAT TGAGGGGACC 
ATGCGAAAAA AGTTGAGTTT GGATGAGGAA TCTTCTCTCT TTAAACAAAA AGCCCAACAG 
AAACGGGTAT TTGATACGGT CAAGGTTGCC AATGACACAC GAGGCCGCTC CATCCCTTTC 
CCAGCTCTGC TACCCATTCC AGGGTCCAAC CGTTCAAGCG TCATCATGAC GGCAAAACCT 
TTTGAATCTG GTTTACGACA AACAGAGGAC AAAACACTCC TGAATCAGGG GAGCAACTCA 
GAAGAGGTTT CAGAGAACGT TCAGAAGGTG GGGCAACCAG GACCCTCTGG AGATAGTGAT 
TTGGCCACAG CACTGCATCG CCTTAGTCTG CGGCGACAGA ACTACTTAAG TGAGAAGCAG 
TACTTTGCTG AAGAATGGGA GCGGAAGATC CAGGTTCTGG CTGACCAGAA AGAAGGGGTT 
AGTGGCTGCG GCACCCCCAC GGAGAGCCTT GCCTCGCTCT GCACTGACCA GTCAGAGATC 
ACAGACCTCA GCAGTGCCAG TTGCCTTCGA GGTTTTATGC CTGAAAAATT ACAAATTGTC 
AAGCCTCTTG AAGGATCACA AACTTTACAC CACTGGCAGC AGCTTGCTCA ACCAAATTTA 
GGAACCATTC TTGACCCACG ACCAGGTGTC ATCACTAAAG GCTTTACCCA GTTGCCCAAG 
GATGCCATCT ATCACCTCTC AGATTTAGAA GAGGATGAAG AGGAAGGTAT CACTTTTCAA 
GTGGAACAGA AACCTTCAGT ATCCAAGCCA GTAACAGGAA TCTTCCTTCC AGCTATTACT 
TCAGCTGGTG GTCCAGTTAC AGTTGCAACC TCAAACCCAG GCAAGTGTCT GTCATGCACA 
AACTCGACAT TCACCTTCAC TACCTGTAGG ATATTGCATC CTTCTGATAT CACTCAGGTT 
ACCCCCAGCT CTGGGTTCCC TTCATTATCC TGTGGAAGTG GTGGTAGCAG TTCATCAAAC 
ACGGCGGTGA ATTCTCCTGC TATGTCCTAT AGACTCAGCA TTGGTGAATC TGTTACCAAC 
CGACGAGATT CCACTATAAC CTTCAGTAGC ACCGTGAGCT TGGCCAAACT TCTGCAAGAG 
CGAGGCATTT CTGCTAAAGT GTATCACAGC CCAGTTTCAG AGAGCCCCCT CCTCCAGCCT 
ATCCCTAAAG CCCTGGCTAT TCCTTCCACA CCACCAAATT CACCATCTCA CTCACCTTGC 
CCTTCTCCTT TGCCCTTTGA GCCTCGAGTG CATCTCTCTG AAAATTTTTT GGCCTCCCGA 
CCAGCTGAAA CATTCCTCCA GGAGATGTAT GGTTTGAGAC CTACCCGGAA CCCTCCTGAT 
CCTGGCCAGT TGAAGATGAA CTTAGTGGAC AGGCTCAAGA GACTGGGGAT AGCCAGAGTG 
ATCAAGACCC CTGATGCACA GGAAAATGGA AGAAGCCAAG AGGCAGAAAT TGGTCTTCAA 
AGACCGGACT CTGCTGTTTA TTTAAATTCA GGTAGCAATT TATTGAGTGG ACTGAGGAGG 
AATCAGAGTC TTCCAGTCAT GATGGGTAGC TTGGGCACCC CAGTTTGCAC AACTTCACCG 
AAAATGGATA TCCTGAAGGA AGACTGA

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

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TRAK2 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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