PTPRT cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	PTPRT
Entrez Gene ID	104681619
Full Name	receptor-type tyrosine-protein phosphatase T
Gene Type	protein-coding
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010387969.1	XP_010386271.1	receptor-type tyrosine-protein phosphatase T
XM_030915349.1	XP_030771209.1	receptor-type tyrosine-protein phosphatase T

Pathways from BioSystems
Gene Ontology

The following PTPRT gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PTPRT 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
ORh155867	XM_010387969.1 Latest version!	Rhinopithecus roxellana receptor-type tyrosine-protein phosphatase T (LOC104681619), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
ORh248170	XM_030915349.1 Latest version!	Rhinopithecus roxellana protein tyrosine phosphatase receptor type T (PTPRT), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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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)

PTPRT ( XM_010387969.1 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_010386271.1 Rhinopithecus roxellana receptor-type tyrosine-protein phosphatase T (LOC104681619), mRNA.

Price & Availability↑

CloneID	ORh155867
Clone ID Related Accession (Same CDS sequence)	XM_010387969.1
Accession Version	XM_010387969.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2202bp) 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	2014-11-20
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Product	receptor-type tyrosine-protein phosphatase T
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010828369.1) 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 :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCAGCG CCCAGGTGAC CCCGGGGACT CCACTCTGCC TCCTCACCAC AGGTGCCTCC 
ACTCAGAATT CTAACACTGT GGAGCCAGAG AAGCAGGTGG ACAACACCGT GAAGATGGCT 
GGCGTGATCG CTGGCCTCCT CATGTTCATC ATCATTCTCC TAGGCGTGAT GCTCACCATC 
AAAAGGAGAA GAAATGCTTA TTCCTACTCC TATTACTTGA AGCTGGCCAA GAAGCAGAAG 
GAGACCCAGA GTGGAGCCCA GAGGGAGATG GGGCCTGTGG CCTCTGCTGA CAAACCCACC 
ACCAAGCTCA GCGCCAGCCG TAATGATGAA GGCTTCTCTT CTAGTTCTCA GGATGTCAAT 
GGATTCACAG ATGGCAGCCG TGGGGAGCTT TCCCAGCCCA CCCTCACGAT CCAGACTCAT 
CCCTACCGCA CCTGTGACCC TGTGGAGATG AGTTACCCCC GGGACCAGTT CCAGCCTGCC 
ATCCGGGTGG CTGACTTGCT GCAGCACATC ACGCAGATGA AGAGAGGCCA GGGCTACGGG 
TTCAAGGAGG AATACGAGGC CTTACCAGAG GGGCAGACAG CTTCGTGGGA CACAGCCAAG 
GAGGATGAAA ACCGCAATAA GAATCGATAT GGGAACATCA TATCCTACGA CCATTCCCGG 
GTGAGACTGC TGGTGCTGGA TGGAGACCCG CACTCTGACT ACATCAATGC CAACTACATT 
GACGGATACC ATCGACCTCG GCACTACATC GCAACTCAAG GTCCAATGCA GGAGACCGTA 
AAGGACTTTT GGAGAATGAT CTGGCAGGAG AACTCTGCCA GCATCGTCAT GGTCACAAAC 
CTGGTGGAAG TGGGCAGGGT GAAATGTGTG CGATACTGGC CAGATGACAC GGAGGTCTAT 
GGAGACATTA AAGTCACCCT GATTGAAACA GAGCCCCTGG CAGAATATGT CATACGCACC 
TTCACAGTCC AGAAGAAAGG CTACCATGAG ATCCGGGAGC TCCGCCTCTT CCACTTCACC 
AGCTGGCCTG ACCATGGCGT TCCCTGCTAC GCCACTGGCC TTCTGGGCTT CGTCCGCCAG 
GTCAAGTTCC TCAACCCCCC AGAAGCAGGG CCCATAGTGG TCCACTGCAG TGCTGGGGCT 
GGGCGGACTG GCTGCTTCAT TGCCATTGAC ACCATGCTTG ACATGGCCGA GAATGAAGGG 
GTGGTGGACA TCTTCAACTG CGTGCGTGAG CTCCGGGCCC AGAGGGTCAA CCTGGTACAG 
ACAGAGGAGC AGTATGTGTT TGTGCACGAT GCCATCCTGG AAGCGTGCCT CTGTGGCAAC 
ACTGCCATCC CTGTGTGTGA GTTCCGTTCT CTCTACTACA ATATCAGCAG GCTGGACCCC 
CAGACGAACT CCAGCCAAAT CAAAGATGAA TTTCAGACCC TCAACATTGT GACACCCCGT 
GTGCGGCCCG AGGACTGCAG CATTGGGCTC CTGCCCCGGA ACCATGATAA GAATCGAAGC 
ATGGACGTGC TGCCTCTGGA CCGCTGCCTG CCCTTCCTCA TCTCGGTGGA CGGAGAATCC 
AGCAATTACA TCAACGCAGC ACTGATGGAT AGCCACAAGC AACCTGCTGC CTTCGTGGTC 
ACCCAGCACC CTCTACCCAA CACCGTGGCA GACTTCTGGA GGCTGGTGTT TGATTACAAC 
TGCTCCTCTG TGGTGATGCT GAATGAGATG GACACTGCCC AGTTCTGTAT GCAGTACTGG 
CCTGAGAAGA CCTCCGGGTG CTACGGGCCC ATCCAGGTGG AGTTCGTCTC CGCAGACATC 
GACGAGGACA TCATCCACAG AATATTCCGC ATCTGTAACA TGGCCCGGCC ACAGGACGGT 
TATCGTATAG TCCAGCACCT CCAGTACATT GGCTGGCCTG CCTACCGGGA CACTCCCCCC 
TCCAAGCGCT CTCTGCTCAA AGTGGTCCGA CGACTGGAGA AGTGGCAGGA GCAGTATGAC 
GGGAGGGAGG GACGCACTGT GGTCCACTGC CTAAATGGGG GAGGCCGTAG TGGAACCTTC 
TGTGCCATCT GCAGTGTGTG TGAGATGATC CAGCAGCAAA ACATCATTGA CGTGTTCCAC 
ATCGTGAAAA CACTGCGTAA CAACAAATCC AACATGGTGG AGACCCTGGA ACAGTATAAA 
TTTGTATACG AGGTGGCACT GGAATACTTA AGCTCCTTTT AG

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

RefSeq	XP_010386271.1
CDS	1..2202
Translation	MGSAQVTPGTPLCLLTTGASTQNSNTVEPEKQVDNTVKMAGVIAGLLMFIIILLGVMLTIKRRRNAYSYSYYLKLAKKQKETQSGAQREMGPVASADKPTTKLSASRNDEGFSSSSQDVNGFTDGSRGELSQPTLTIQTHPYRTCDPVEMSYPRDQFQPAIRVADLLQHITQMKRGQGYGFKEEYEALPEGQTASWDTAKEDENRNKNRYGNIISYDHSRVRLLVLDGDPHSDYINANYIDGYHRPRHYIATQGPMQETVKDFWRMIWQENSASIVMVTNLVEVGRVKCVRYWPDDTEVYGDIKVTLIETEPLAEYVIRTFTVQKKGYHEIRELRLFHFTSWPDHGVPCYATGLLGFVRQVKFLNPPEAGPIVVHCSAGAGRTGCFIAIDTMLDMAENEGVVDIFNCVRELRAQRVNLVQTEEQYVFVHDAILEACLCGNTAIPVCEFRSLYYNISRLDPQTNSSQIKDEFQTLNIVTPRVRPEDCSIGLLPRNHDKNRSMDVLPLDRCLPFLISVDGESSNYINAALMDSHKQPAAFVVTQHPLPNTVADFWRLVFDYNCSSVVMLNEMDTAQFCMQYWPEKTSGCYGPIQVEFVSADIDEDIIHRIFRICNMARPQDGYRIVQHLQYIGWPAYRDTPPSKRSLLKVVRRLEKWQEQYDGREGRTVVHCLNGGGRSGTFCAICSVCEMIQQQNIIDVFHIVKTLRNNKSNMVETLEQYKFVYEVALEYLSSF

Target ORF information:

RefSeq Version	XM_010387969.1
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana receptor-type tyrosine-protein phosphatase T (LOC104681619), mRNA.

Target ORF information:

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

XM_010387969.1

ORF Insert Sequence:

ATGGGCAGCG CCCAGGTGAC CCCGGGGACT CCACTCTGCC TCCTCACCAC AGGTGCCTCC 
ACTCAGAATT CTAACACTGT GGAGCCAGAG AAGCAGGTGG ACAACACCGT GAAGATGGCT 
GGCGTGATCG CTGGCCTCCT CATGTTCATC ATCATTCTCC TAGGCGTGAT GCTCACCATC 
AAAAGGAGAA GAAATGCTTA TTCCTACTCC TATTACTTGA AGCTGGCCAA GAAGCAGAAG 
GAGACCCAGA GTGGAGCCCA GAGGGAGATG GGGCCTGTGG CCTCTGCTGA CAAACCCACC 
ACCAAGCTCA GCGCCAGCCG TAATGATGAA GGCTTCTCTT CTAGTTCTCA GGATGTCAAT 
GGATTCACAG ATGGCAGCCG TGGGGAGCTT TCCCAGCCCA CCCTCACGAT CCAGACTCAT 
CCCTACCGCA CCTGTGACCC TGTGGAGATG AGTTACCCCC GGGACCAGTT CCAGCCTGCC 
ATCCGGGTGG CTGACTTGCT GCAGCACATC ACGCAGATGA AGAGAGGCCA GGGCTACGGG 
TTCAAGGAGG AATACGAGGC CTTACCAGAG GGGCAGACAG CTTCGTGGGA CACAGCCAAG 
GAGGATGAAA ACCGCAATAA GAATCGATAT GGGAACATCA TATCCTACGA CCATTCCCGG 
GTGAGACTGC TGGTGCTGGA TGGAGACCCG CACTCTGACT ACATCAATGC CAACTACATT 
GACGGATACC ATCGACCTCG GCACTACATC GCAACTCAAG GTCCAATGCA GGAGACCGTA 
AAGGACTTTT GGAGAATGAT CTGGCAGGAG AACTCTGCCA GCATCGTCAT GGTCACAAAC 
CTGGTGGAAG TGGGCAGGGT GAAATGTGTG CGATACTGGC CAGATGACAC GGAGGTCTAT 
GGAGACATTA AAGTCACCCT GATTGAAACA GAGCCCCTGG CAGAATATGT CATACGCACC 
TTCACAGTCC AGAAGAAAGG CTACCATGAG ATCCGGGAGC TCCGCCTCTT CCACTTCACC 
AGCTGGCCTG ACCATGGCGT TCCCTGCTAC GCCACTGGCC TTCTGGGCTT CGTCCGCCAG 
GTCAAGTTCC TCAACCCCCC AGAAGCAGGG CCCATAGTGG TCCACTGCAG TGCTGGGGCT 
GGGCGGACTG GCTGCTTCAT TGCCATTGAC ACCATGCTTG ACATGGCCGA GAATGAAGGG 
GTGGTGGACA TCTTCAACTG CGTGCGTGAG CTCCGGGCCC AGAGGGTCAA CCTGGTACAG 
ACAGAGGAGC AGTATGTGTT TGTGCACGAT GCCATCCTGG AAGCGTGCCT CTGTGGCAAC 
ACTGCCATCC CTGTGTGTGA GTTCCGTTCT CTCTACTACA ATATCAGCAG GCTGGACCCC 
CAGACGAACT CCAGCCAAAT CAAAGATGAA TTTCAGACCC TCAACATTGT GACACCCCGT 
GTGCGGCCCG AGGACTGCAG CATTGGGCTC CTGCCCCGGA ACCATGATAA GAATCGAAGC 
ATGGACGTGC TGCCTCTGGA CCGCTGCCTG CCCTTCCTCA TCTCGGTGGA CGGAGAATCC 
AGCAATTACA TCAACGCAGC ACTGATGGAT AGCCACAAGC AACCTGCTGC CTTCGTGGTC 
ACCCAGCACC CTCTACCCAA CACCGTGGCA GACTTCTGGA GGCTGGTGTT TGATTACAAC 
TGCTCCTCTG TGGTGATGCT GAATGAGATG GACACTGCCC AGTTCTGTAT GCAGTACTGG 
CCTGAGAAGA CCTCCGGGTG CTACGGGCCC ATCCAGGTGG AGTTCGTCTC CGCAGACATC 
GACGAGGACA TCATCCACAG AATATTCCGC ATCTGTAACA TGGCCCGGCC ACAGGACGGT 
TATCGTATAG TCCAGCACCT CCAGTACATT GGCTGGCCTG CCTACCGGGA CACTCCCCCC 
TCCAAGCGCT CTCTGCTCAA AGTGGTCCGA CGACTGGAGA AGTGGCAGGA GCAGTATGAC 
GGGAGGGAGG GACGCACTGT GGTCCACTGC CTAAATGGGG GAGGCCGTAG TGGAACCTTC 
TGTGCCATCT GCAGTGTGTG TGAGATGATC CAGCAGCAAA ACATCATTGA CGTGTTCCAC 
ATCGTGAAAA CACTGCGTAA CAACAAATCC AACATGGTGG AGACCCTGGA ACAGTATAAA 
TTTGTATACG AGGTGGCACT GGAATACTTA AGCTCCTTTT AG

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

PTPRT ( XM_030915349.1 ) cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey) -> XP_030771209.1 Rhinopithecus roxellana protein tyrosine phosphatase receptor type T (PTPRT), mRNA.

Price & Availability↑

CloneID	ORh248170
Clone ID Related Accession (Same CDS sequence)	XM_030915349.1
Accession Version	XM_030915349.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4329bp) 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	2019-09-24
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Product	receptor-type tyrosine-protein phosphatase T
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044561.1) 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 Name :: Rhinopithecus roxellana 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGATTTTTC AGACTGCTTT TTACAGAGAA ACAGGTGGCT GTTCCTTTGA TGAGCACTAC 
AGCAACTGTG GTTATAGTGT GGCTCTAGGG ACCAATGGGT TCACCTGGGA GCAGATTAAC 
ACATGGGAGA AACCAATGCT GGACCAGGCG GTGCCCACAG GATCTTTCAT GATGGTGAAC 
AGCTCTGGGA GAGCCTCTGG CCAGAAGGCC CACCTTCTTC TGCCGACCCT GAAGGAGAAT 
GATACCCACT GCATCGACTT CCATTACTAC TTCTCCAGCC GTGACAGGTC CAGCCCAGGG 
GCCTTGAACG TCTACGTGAA GGTGAATGGT GGCCCCCAAG GGAACCCCGT CTGGAATGTG 
TCCGGGGTCG TCACTGAGGG CTGGGTGAAG GCAGAGCTCG CCATCAGCAC TTTCTGGCCG 
CATTTCTATC AGGTGATATT TGAATCCGTC TCATTGAAGG GTCATCCTGG CTACATTGCT 
GTGGACGAGG TCCGGGTCCT TGCTCATCCG TGCAGAAAAG CACCTCATTT TCTGCGACTC 
CAAAATGTGG AGGTGAATGT GGGGCAGAAT GCCACATTTC AGTGCATTGC TGGTGGGAAG 
TGGTCTCAGC ATGACAAGCT TTGGCTCCAG CAATGGAATG GCAGGGACAC GGCCCTGATG 
GTCACCCGTG TGGTCAACCA CAGGCGCTTC TCAGCCACGG TCAGTGTGGC AGACACTGCC 
CAGCGGAGCG TCAGCAAGTA CCGCTGTGTG ATCCGCTCTG ACGGTGGTTC TGGTGTGTCC 
AACTACGCGG AGCTGATTGT GAAAGAGCCT CCCACGCCCA TTGCTCCCCC AGAGCTGCTG 
GCTGTGGGGG CCACATACCT GTGGATCAAG CCAAATGCCA ACTCCATCAT CGGGGATGGC 
CCCATCATCC TGAAGGAAGT GGAATATCGC ACCACCACAG GCACCTGGGC AGAGACCCAC 
ATAGTCGACT CTCCCAACTA TAAGCTGTGG CATCTGGACC CCGACGTTGA GTATGAGATC 
CGAGTGCTCC TCACACGACC AGGTGAGGGG GGTACCGGAC CACCAGGGCC TCCCCTCACC 
ACCAGGACCA AGTGTGCAGA TCCGGTGCAT GGCCCACAGA ATGTGGAAAT CGTAGACATC 
CGAGCCCGGC AGCTGACCCT GCAGTGGGAG CCCTTCGGCT ACGCGGTGAC CCGCTGCCAT 
AGCTACAACC TCACCGTGCA GTACCAGTAC GTGTTCAACC AGCAGCAGTA CGAGGCCGAG 
GAGGTCATCC AGACCTCTTC CCACTACACC CTGCGAGGCC TGCGCCCCTT CATGACCATT 
CGGCTGCGAC TCCTGCTGTC TAACCCCGAG GGCCGAATGG AGAGCGAGGA GCTGGTGGTG 
CAGACTGAGG AAGACGTTCC AGGAGCTGTT CCTCTAGAAT CCATCCAAGG GGGGCCCTTT 
GAGGAGAAAA TCTACATCCA GTGGAAACCT CCCAATGAGA CCAATGGGGT CATCACGCTC 
TATGAGATCA ACTACAAGGC TGTTGGCTCG CTGGACCCAA GTGCTGACCT CTCCAGCCAG 
AGGGGGAAAG TGTTCAAGCT CCGGAATGAA ACCCACCACC TCTTTGTGGG TCTGTACCCA 
GGGACCACCT ATTCCTTCAC CATCAAGGCC AGCACAGCAA AGGGCTTTGG GCCCCCTGTC 
ACCACTCGGA TCGCCACCAA AATTTCAGCT CCATCCATGC CTGAGTATGA CACAGACACC 
CCACTGAATG AGACAGACAC GACCATCACA GTGATGCTGA AACCCGCTCA GTCCCGGGGA 
GCCCCTGTCA GTGTTTATCA GCTGGTTGTC AAGGAGGAAC GACCACAGAA GTCACGGAGG 
GCAGCTGACA TTATTGAGTG CTTTTCGGTG CCTGTGAGCT ATCGGAATGC CTCCAGCCTC 
GATTTTCTAC ACTACTTTGC TGCTGAGTTG AAGCCTGCCA ACCTGCCTGT CACCCAGCCA 
TTTACAGTGG GTGACAATAA GACATACAAT GGCTACTGGA ACCCTCCTCT CTCTCCCCTG 
AAAAGCTACA GCATCTACTT CCAGGCACTC AGCAAAGCCA ATGGAGAGAC CAAAATCAAC 
TGTGTTCGTC TGGCTACAAA AGCACCAATG GGCAGCGCCC AGGTGACCCC GGGGACTCCA 
CTCTGCCTCC TCACCACAGG TGCCTCCACT CAGAATTCTA ACACTGTGGA GCCAGAGAAG 
CAGGTGGACA ACACCGTGAA GATGGCTGGC GTGATCGCTG GCCTCCTCAT GTTCATCATC 
ATTCTCCTAG GCGTGATGCT CACCATCAAA AGGAGAAGAA ATGCTTATTC CTACTCCTAT 
TACTTGAAGC TGGCCAAGAA GCAGAAGGAG ACCCAGAGTG GAGCCCAGAG GGAGATGGGG 
CCTGTGGCCT CTGCTGACAA ACCCACCACC AAGCTCAGCG CCAGCCGTAA TGATGAAGGC 
TTCTCTTCTA GTTCTCAGGA TGTCAATGGA TTCACAGATG GCAGCCGTGG GGAGCTTTCC 
CAGCCCACCC TCACGATCCA GACTCATCCC TACCGCACCT GTGACCCTGT GGAGATGAGT 
TACCCCCGGG ACCAGTTCCA GCCTGCCATC CGGGTGGCTG ACTTGCTGCA GCACATCACG 
CAGATGAAGA GAGGCCAGGG CTACGGGTTC AAGGAGGAAT ACGAGGCCTT ACCAGAGGGG 
CAGACAGCTT CGTGGGACAC AGCCAAGGAG GATGAAAACC GCAATAAGAA TCGATATGGG 
AACATCATAT CCTACGACCA TTCCCGGGTG AGACTGCTGG TGCTGGATGG AGACCCGCAC 
TCTGACTACA TCAATGCCAA CTACATTGAC GGATACCATC GACCTCGGCA CTACATCGCA 
ACTCAAGGTC CAATGCAGGA GACCGTAAAG GACTTTTGGA GAATGATCTG GCAGGAGAAC 
TCTGCCAGCA TCGTCATGGT CACAAACCTG GTGGAAGTGG GCAGGGTGAA ATGTGTGCGA 
TACTGGCCAG ATGACACGGA GGTCTATGGA GACATTAAAG TCACCCTGAT TGAAACAGAG 
CCCCTGGCAG AATATGTCAT ACGCACCTTC ACAGTCCAGA AGAAAGGCTA CCATGAGATC 
CGGGAGCTCC GCCTCTTCCA CTTCACCAGC TGGCCTGACC ATGGCGTTCC CTGCTACGCC 
ACTGGCCTTC TGGGCTTCGT CCGCCAGGTC AAGTTCCTCA ACCCCCCAGA AGCAGGGCCC 
ATAGTGGTCC ACTGCAGTGC TGGGGCTGGG CGGACTGGCT GCTTCATTGC CATTGACACC 
ATGCTTGACA TGGCCGAGAA TGAAGGGGTG GTGGACATCT TCAACTGCGT GCGTGAGCTC 
CGGGCCCAGA GGGTCAACCT GGTACAGACA GAGGAGCAGT ATGTGTTTGT GCACGATGCC 
ATCCTGGAAG CGTGCCTCTG TGGCAACACT GCCATCCCTG TGTGTGAGTT CCGTTCTCTC 
TACTACAATA TCAGCAGGCT GGACCCCCAG ACGAACTCCA GCCAAATCAA AGATGAATTT 
CAGACCCTCA ACATTGTGAC ACCCCGTGTG CGGCCCGAGG ACTGCAGCAT TGGGCTCCTG 
CCCCGGAACC ATGATAAGAA TCGAAGCATG GACGTGCTGC CTCTGGACCG CTGCCTGCCC 
TTCCTCATCT CGGTGGACGG AGAATCCAGC AATTACATCA ACGCAGCACT GATGGATAGC 
CACAAGCAAC CTGCTGCCTT CGTGGTCACC CAGCACCCTC TACCCAACAC CGTGGCAGAC 
TTCTGGAGGC TGGTGTTTGA TTACAACTGC TCCTCTGTGG TGATGCTGAA TGAGATGGAC 
ACTGCCCAGT TCTGTATGCA GTACTGGCCT GAGAAGACCT CCGGGTGCTA CGGGCCCATC 
CAGGTGGAGT TCGTCTCCGC AGACATCGAC GAGGACATCA TCCACAGAAT ATTCCGCATC 
TGTAACATGG CCCGGCCACA GGACGGTTAT CGTATAGTCC AGCACCTCCA GTACATTGGC 
TGGCCTGCCT ACCGGGACAC TCCCCCCTCC AAGCGCTCTC TGCTCAAAGT GGTCCGACGA 
CTGGAGAAGT GGCAGGAGCA GTATGACGGG AGGGAGGGAC GCACTGTGGT CCACTGCCTA 
AATGGGGGAG GCCGTAGTGG AACCTTCTGT GCCATCTGCA GTGTGTGTGA GATGATCCAG 
CAGCAAAACA TCATTGACGT GTTCCACATC GTGAAAACAC TGCGTAACAA CAAATCCAAC 
ATGGTGGAGA CCCTGGAACA GTATAAATTT GTATACGAGG TGGCACTGGA ATACTTAAGC 
TCCTTTTAG

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

RefSeq	XP_030771209.1
CDS	1..4329
Translation	MIFQTAFYRETGGCSFDEHYSNCGYSVALGTNGFTWEQINTWEKPMLDQAVPTGSFMMVNSSGRASGQKAHLLLPTLKENDTHCIDFHYYFSSRDRSSPGALNVYVKVNGGPQGNPVWNVSGVVTEGWVKAELAISTFWPHFYQVIFESVSLKGHPGYIAVDEVRVLAHPCRKAPHFLRLQNVEVNVGQNATFQCIAGGKWSQHDKLWLQQWNGRDTALMVTRVVNHRRFSATVSVADTAQRSVSKYRCVIRSDGGSGVSNYAELIVKEPPTPIAPPELLAVGATYLWIKPNANSIIGDGPIILKEVEYRTTTGTWAETHIVDSPNYKLWHLDPDVEYEIRVLLTRPGEGGTGPPGPPLTTRTKCADPVHGPQNVEIVDIRARQLTLQWEPFGYAVTRCHSYNLTVQYQYVFNQQQYEAEEVIQTSSHYTLRGLRPFMTIRLRLLLSNPEGRMESEELVVQTEEDVPGAVPLESIQGGPFEEKIYIQWKPPNETNGVITLYEINYKAVGSLDPSADLSSQRGKVFKLRNETHHLFVGLYPGTTYSFTIKASTAKGFGPPVTTRIATKISAPSMPEYDTDTPLNETDTTITVMLKPAQSRGAPVSVYQLVVKEERPQKSRRAADIIECFSVPVSYRNASSLDFLHYFAAELKPANLPVTQPFTVGDNKTYNGYWNPPLSPLKSYSIYFQALSKANGETKINCVRLATKAPMGSAQVTPGTPLCLLTTGASTQNSNTVEPEKQVDNTVKMAGVIAGLLMFIIILLGVMLTIKRRRNAYSYSYYLKLAKKQKETQSGAQREMGPVASADKPTTKLSASRNDEGFSSSSQDVNGFTDGSRGELSQPTLTIQTHPYRTCDPVEMSYPRDQFQPAIRVADLLQHITQMKRGQGYGFKEEYEALPEGQTASWDTAKEDENRNKNRYGNIISYDHSRVRLLVLDGDPHSDYINANYIDGYHRPRHYIATQGPMQETVKDFWRMIWQENSASIVMVTNLVEVGRVKCVRYWPDDTEVYGDIKVTLIETEPLAEYVIRTFTVQKKGYHEIRELRLFHFTSWPDHGVPCYATGLLGFVRQVKFLNPPEAGPIVVHCSAGAGRTGCFIAIDTMLDMAENEGVVDIFNCVRELRAQRVNLVQTEEQYVFVHDAILEACLCGNTAIPVCEFRSLYYNISRLDPQTNSSQIKDEFQTLNIVTPRVRPEDCSIGLLPRNHDKNRSMDVLPLDRCLPFLISVDGESSNYINAALMDSHKQPAAFVVTQHPLPNTVADFWRLVFDYNCSSVVMLNEMDTAQFCMQYWPEKTSGCYGPIQVEFVSADIDEDIIHRIFRICNMARPQDGYRIVQHLQYIGWPAYRDTPPSKRSLLKVVRRLEKWQEQYDGREGRTVVHCLNGGGRSGTFCAICSVCEMIQQQNIIDVFHIVKTLRNNKSNMVETLEQYKFVYEVALEYLSSF

Target ORF information:

RefSeq Version	XM_030915349.1
Organism	Rhinopithecus roxellana(golden snub-nosed monkey)
Definition	Rhinopithecus roxellana protein tyrosine phosphatase receptor type T (PTPRT), mRNA.

Target ORF information:

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

XM_030915349.1

ORF Insert Sequence:

ATGATTTTTC AGACTGCTTT TTACAGAGAA ACAGGTGGCT GTTCCTTTGA TGAGCACTAC 
AGCAACTGTG GTTATAGTGT GGCTCTAGGG ACCAATGGGT TCACCTGGGA GCAGATTAAC 
ACATGGGAGA AACCAATGCT GGACCAGGCG GTGCCCACAG GATCTTTCAT GATGGTGAAC 
AGCTCTGGGA GAGCCTCTGG CCAGAAGGCC CACCTTCTTC TGCCGACCCT GAAGGAGAAT 
GATACCCACT GCATCGACTT CCATTACTAC TTCTCCAGCC GTGACAGGTC CAGCCCAGGG 
GCCTTGAACG TCTACGTGAA GGTGAATGGT GGCCCCCAAG GGAACCCCGT CTGGAATGTG 
TCCGGGGTCG TCACTGAGGG CTGGGTGAAG GCAGAGCTCG CCATCAGCAC TTTCTGGCCG 
CATTTCTATC AGGTGATATT TGAATCCGTC TCATTGAAGG GTCATCCTGG CTACATTGCT 
GTGGACGAGG TCCGGGTCCT TGCTCATCCG TGCAGAAAAG CACCTCATTT TCTGCGACTC 
CAAAATGTGG AGGTGAATGT GGGGCAGAAT GCCACATTTC AGTGCATTGC TGGTGGGAAG 
TGGTCTCAGC ATGACAAGCT TTGGCTCCAG CAATGGAATG GCAGGGACAC GGCCCTGATG 
GTCACCCGTG TGGTCAACCA CAGGCGCTTC TCAGCCACGG TCAGTGTGGC AGACACTGCC 
CAGCGGAGCG TCAGCAAGTA CCGCTGTGTG ATCCGCTCTG ACGGTGGTTC TGGTGTGTCC 
AACTACGCGG AGCTGATTGT GAAAGAGCCT CCCACGCCCA TTGCTCCCCC AGAGCTGCTG 
GCTGTGGGGG CCACATACCT GTGGATCAAG CCAAATGCCA ACTCCATCAT CGGGGATGGC 
CCCATCATCC TGAAGGAAGT GGAATATCGC ACCACCACAG GCACCTGGGC AGAGACCCAC 
ATAGTCGACT CTCCCAACTA TAAGCTGTGG CATCTGGACC CCGACGTTGA GTATGAGATC 
CGAGTGCTCC TCACACGACC AGGTGAGGGG GGTACCGGAC CACCAGGGCC TCCCCTCACC 
ACCAGGACCA AGTGTGCAGA TCCGGTGCAT GGCCCACAGA ATGTGGAAAT CGTAGACATC 
CGAGCCCGGC AGCTGACCCT GCAGTGGGAG CCCTTCGGCT ACGCGGTGAC CCGCTGCCAT 
AGCTACAACC TCACCGTGCA GTACCAGTAC GTGTTCAACC AGCAGCAGTA CGAGGCCGAG 
GAGGTCATCC AGACCTCTTC CCACTACACC CTGCGAGGCC TGCGCCCCTT CATGACCATT 
CGGCTGCGAC TCCTGCTGTC TAACCCCGAG GGCCGAATGG AGAGCGAGGA GCTGGTGGTG 
CAGACTGAGG AAGACGTTCC AGGAGCTGTT CCTCTAGAAT CCATCCAAGG GGGGCCCTTT 
GAGGAGAAAA TCTACATCCA GTGGAAACCT CCCAATGAGA CCAATGGGGT CATCACGCTC 
TATGAGATCA ACTACAAGGC TGTTGGCTCG CTGGACCCAA GTGCTGACCT CTCCAGCCAG 
AGGGGGAAAG TGTTCAAGCT CCGGAATGAA ACCCACCACC TCTTTGTGGG TCTGTACCCA 
GGGACCACCT ATTCCTTCAC CATCAAGGCC AGCACAGCAA AGGGCTTTGG GCCCCCTGTC 
ACCACTCGGA TCGCCACCAA AATTTCAGCT CCATCCATGC CTGAGTATGA CACAGACACC 
CCACTGAATG AGACAGACAC GACCATCACA GTGATGCTGA AACCCGCTCA GTCCCGGGGA 
GCCCCTGTCA GTGTTTATCA GCTGGTTGTC AAGGAGGAAC GACCACAGAA GTCACGGAGG 
GCAGCTGACA TTATTGAGTG CTTTTCGGTG CCTGTGAGCT ATCGGAATGC CTCCAGCCTC 
GATTTTCTAC ACTACTTTGC TGCTGAGTTG AAGCCTGCCA ACCTGCCTGT CACCCAGCCA 
TTTACAGTGG GTGACAATAA GACATACAAT GGCTACTGGA ACCCTCCTCT CTCTCCCCTG 
AAAAGCTACA GCATCTACTT CCAGGCACTC AGCAAAGCCA ATGGAGAGAC CAAAATCAAC 
TGTGTTCGTC TGGCTACAAA AGCACCAATG GGCAGCGCCC AGGTGACCCC GGGGACTCCA 
CTCTGCCTCC TCACCACAGG TGCCTCCACT CAGAATTCTA ACACTGTGGA GCCAGAGAAG 
CAGGTGGACA ACACCGTGAA GATGGCTGGC GTGATCGCTG GCCTCCTCAT GTTCATCATC 
ATTCTCCTAG GCGTGATGCT CACCATCAAA AGGAGAAGAA ATGCTTATTC CTACTCCTAT 
TACTTGAAGC TGGCCAAGAA GCAGAAGGAG ACCCAGAGTG GAGCCCAGAG GGAGATGGGG 
CCTGTGGCCT CTGCTGACAA ACCCACCACC AAGCTCAGCG CCAGCCGTAA TGATGAAGGC 
TTCTCTTCTA GTTCTCAGGA TGTCAATGGA TTCACAGATG GCAGCCGTGG GGAGCTTTCC 
CAGCCCACCC TCACGATCCA GACTCATCCC TACCGCACCT GTGACCCTGT GGAGATGAGT 
TACCCCCGGG ACCAGTTCCA GCCTGCCATC CGGGTGGCTG ACTTGCTGCA GCACATCACG 
CAGATGAAGA GAGGCCAGGG CTACGGGTTC AAGGAGGAAT ACGAGGCCTT ACCAGAGGGG 
CAGACAGCTT CGTGGGACAC AGCCAAGGAG GATGAAAACC GCAATAAGAA TCGATATGGG 
AACATCATAT CCTACGACCA TTCCCGGGTG AGACTGCTGG TGCTGGATGG AGACCCGCAC 
TCTGACTACA TCAATGCCAA CTACATTGAC GGATACCATC GACCTCGGCA CTACATCGCA 
ACTCAAGGTC CAATGCAGGA GACCGTAAAG GACTTTTGGA GAATGATCTG GCAGGAGAAC 
TCTGCCAGCA TCGTCATGGT CACAAACCTG GTGGAAGTGG GCAGGGTGAA ATGTGTGCGA 
TACTGGCCAG ATGACACGGA GGTCTATGGA GACATTAAAG TCACCCTGAT TGAAACAGAG 
CCCCTGGCAG AATATGTCAT ACGCACCTTC ACAGTCCAGA AGAAAGGCTA CCATGAGATC 
CGGGAGCTCC GCCTCTTCCA CTTCACCAGC TGGCCTGACC ATGGCGTTCC CTGCTACGCC 
ACTGGCCTTC TGGGCTTCGT CCGCCAGGTC AAGTTCCTCA ACCCCCCAGA AGCAGGGCCC 
ATAGTGGTCC ACTGCAGTGC TGGGGCTGGG CGGACTGGCT GCTTCATTGC CATTGACACC 
ATGCTTGACA TGGCCGAGAA TGAAGGGGTG GTGGACATCT TCAACTGCGT GCGTGAGCTC 
CGGGCCCAGA GGGTCAACCT GGTACAGACA GAGGAGCAGT ATGTGTTTGT GCACGATGCC 
ATCCTGGAAG CGTGCCTCTG TGGCAACACT GCCATCCCTG TGTGTGAGTT CCGTTCTCTC 
TACTACAATA TCAGCAGGCT GGACCCCCAG ACGAACTCCA GCCAAATCAA AGATGAATTT 
CAGACCCTCA ACATTGTGAC ACCCCGTGTG CGGCCCGAGG ACTGCAGCAT TGGGCTCCTG 
CCCCGGAACC ATGATAAGAA TCGAAGCATG GACGTGCTGC CTCTGGACCG CTGCCTGCCC 
TTCCTCATCT CGGTGGACGG AGAATCCAGC AATTACATCA ACGCAGCACT GATGGATAGC 
CACAAGCAAC CTGCTGCCTT CGTGGTCACC CAGCACCCTC TACCCAACAC CGTGGCAGAC 
TTCTGGAGGC TGGTGTTTGA TTACAACTGC TCCTCTGTGG TGATGCTGAA TGAGATGGAC 
ACTGCCCAGT TCTGTATGCA GTACTGGCCT GAGAAGACCT CCGGGTGCTA CGGGCCCATC 
CAGGTGGAGT TCGTCTCCGC AGACATCGAC GAGGACATCA TCCACAGAAT ATTCCGCATC 
TGTAACATGG CCCGGCCACA GGACGGTTAT CGTATAGTCC AGCACCTCCA GTACATTGGC 
TGGCCTGCCT ACCGGGACAC TCCCCCCTCC AAGCGCTCTC TGCTCAAAGT GGTCCGACGA 
CTGGAGAAGT GGCAGGAGCA GTATGACGGG AGGGAGGGAC GCACTGTGGT CCACTGCCTA 
AATGGGGGAG GCCGTAGTGG AACCTTCTGT GCCATCTGCA GTGTGTGTGA GATGATCCAG 
CAGCAAAACA TCATTGACGT GTTCCACATC GTGAAAACAC TGCGTAACAA CAAATCCAAC 
ATGGTGGAGA CCCTGGAACA GTATAAATTT GTATACGAGG TGGCACTGGA ATACTTAAGC 
TCCTTTTAG