PRRT3 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	PRRT3
Entrez Gene ID	103053125
Full Name	proline rich transmembrane protein 3
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015887596.1	XP_015743082.1	proline-rich transmembrane protein 3
XM_007425375.3	XP_007425437.2	proline-rich transmembrane protein 3
XM_025164865.1	XP_025020633.1	proline-rich transmembrane protein 3
XM_007425375.2	XP_007425437.2	proline-rich transmembrane protein 3
XM_025164864.1	XP_025020632.1	proline-rich transmembrane protein 3

Pathways from BioSystems
Gene Ontology

The following PRRT3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PRRT3 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)
OPy04817	XM_015887596.1 Latest version!	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPy04817	XM_025164864.1 Latest version!	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPy04817	XM_007425375.3 Latest version!	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPy04817	XM_025164865.1 Latest version!	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
View Old Accession Versions >>
OPy04817	XM_007425375.2	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
Hide Old Accession Versions >>

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

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

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

Reference Sequences (Refseq)

PRRT3 ( XM_015887596.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_015743082.1 Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPy04817
Clone ID Related Accession (Same CDS sequence)	XM_015887596.1 , XM_007425375.3 , XM_025164865.1 , XM_007425375.2 , XM_025164864.1
Accession Version	XM_015887596.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	proline-rich transmembrane protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532549.1) 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 :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

RefSeq	XP_015743082.1
CDS	213..3509
Translation	MAAVGLFLVWSVLLPALLLALYLPTPENSTWHLSLNSAPELSLLEVSSKMSLRRALPAIPHSDSSAHEFSSGDGELKNENRRGASPTGHPGAAISMMQFELPEKGAPASSSGGLLAPHLTEESLVLPTEGFSRVQGEVEDTGSITLEQSPEQGKKEFSLPSSGMSNINMSTLVVASLPTSPRLQASELLVSQEEILPSIHQAGFKHGLPATTLSPRPTVSTIPLATFPVTRSHVRWEAAEGTKPKDNTLRGWPGNKVPEQELLGQNPTTAKYLASYRSRQVYSGLPGQEELSTSPLRHVTQGDTQNLPGQDRDILSMTSTSQEGIVTPLIGKGQNFAHAPASSHPPISDDHFPVSFTPTLSEEPNPHLRSTHWNLIPDTTQQPRLWDMDGMGKTIFHSSSATPGIGEMHDIAEPQRVRGAVNPKVSLPYFGSSTPGQSPSKVQDDPGTKHSGAAWKHPSGQSSTGVSTTSARVLATPRRGLIQVTTQRVMQHPQLPKPDPSRPARPPASSPPCPGLGNTCHQLLPNQTLLRWGELEHTLSFAWGLHVYGSGVLFLLLSLLSLACLGGSLSVHGWHLPHVLAASALLLAFGVLRTTFFLADPYGSRGQLPARAVRLLYTVPFPLLLSTFMVLLLRLLHQARLQVLPPRWQSLPLWAALSSLHSIILLGADLLSPPVHLAVPVGLHTLSCTAGLCLLPATVFVYWLLRHSRGMEGTLEPGLWREAWVLLASSGLALPCCGLQFYGVLWLSGSLGQPDVFTWGWWFVQFWFRIGELALSFILALLAWQALCQHRGATEHSCWAKLLSYFCAYRKAEVPEYPNNCYDWPGGVLEKVPSHNLNNNLIRNSPGGGGGGSLLWALKDSNELRAGAGQGSSPPPRRAGYGPKCPNVAAAAMGRSYTSICFERESVLSLAELEFRPPSPINLSRSIDEALFREHLVRESIFLRSSLRFPARQDSCASLRGDCSTLSHAAQPLLAQPRRSSDPDCLYSLARTSSAGEPLGHGLASEPATDTSLDSFSRTSFSRASLKISWNPWRHGLSSPESLPSEELPSQQLRVLAEDLPPAPSSSAPNSEREARKSFLALSKQVDSRSLSSDTIEL

Target ORF information:

RefSeq Version	XM_015887596.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.

Target ORF information:

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

XM_015887596.1

ORF Insert Sequence:

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

PRRT3 ( XM_007425375.3 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007425437.2 Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPy04817
Clone ID Related Accession (Same CDS sequence)	XM_015887596.1 , XM_007425375.3 , XM_025164865.1 , XM_007425375.2 , XM_025164864.1
Accession Version	XM_007425375.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	proline-rich transmembrane protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532549.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007425375.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

RefSeq	XP_007425437.2
CDS	574..3870
Translation	MAAVGLFLVWSVLLPALLLALYLPTPENSTWHLSLNSAPELSLLEVSSKMSLRRALPAIPHSDSSAHEFSSGDGELKNENRRGASPTGHPGAAISMMQFELPEKGAPASSSGGLLAPHLTEESLVLPTEGFSRVQGEVEDTGSITLEQSPEQGKKEFSLPSSGMSNINMSTLVVASLPTSPRLQASELLVSQEEILPSIHQAGFKHGLPATTLSPRPTVSTIPLATFPVTRSHVRWEAAEGTKPKDNTLRGWPGNKVPEQELLGQNPTTAKYLASYRSRQVYSGLPGQEELSTSPLRHVTQGDTQNLPGQDRDILSMTSTSQEGIVTPLIGKGQNFAHAPASSHPPISDDHFPVSFTPTLSEEPNPHLRSTHWNLIPDTTQQPRLWDMDGMGKTIFHSSSATPGIGEMHDIAEPQRVRGAVNPKVSLPYFGSSTPGQSPSKVQDDPGTKHSGAAWKHPSGQSSTGVSTTSARVLATPRRGLIQVTTQRVMQHPQLPKPDPSRPARPPASSPPCPGLGNTCHQLLPNQTLLRWGELEHTLSFAWGLHVYGSGVLFLLLSLLSLACLGGSLSVHGWHLPHVLAASALLLAFGVLRTTFFLADPYGSRGQLPARAVRLLYTVPFPLLLSTFMVLLLRLLHQARLQVLPPRWQSLPLWAALSSLHSIILLGADLLSPPVHLAVPVGLHTLSCTAGLCLLPATVFVYWLLRHSRGMEGTLEPGLWREAWVLLASSGLALPCCGLQFYGVLWLSGSLGQPDVFTWGWWFVQFWFRIGELALSFILALLAWQALCQHRGATEHSCWAKLLSYFCAYRKAEVPEYPNNCYDWPGGVLEKVPSHNLNNNLIRNSPGGGGGGSLLWALKDSNELRAGAGQGSSPPPRRAGYGPKCPNVAAAAMGRSYTSICFERESVLSLAELEFRPPSPINLSRSIDEALFREHLVRESIFLRSSLRFPARQDSCASLRGDCSTLSHAAQPLLAQPRRSSDPDCLYSLARTSSAGEPLGHGLASEPATDTSLDSFSRTSFSRASLKISWNPWRHGLSSPESLPSEELPSQQLRVLAEDLPPAPSSSAPNSEREARKSFLALSKQVDSRSLSSDTIEL

Target ORF information:

RefSeq Version	XM_007425375.3
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.

Target ORF information:

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

XM_007425375.3

ORF Insert Sequence:

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

PRRT3 ( XM_025164865.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025020633.1 Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OPy04817
Clone ID Related Accession (Same CDS sequence)	XM_015887596.1 , XM_007425375.3 , XM_025164865.1 , XM_007425375.2 , XM_025164864.1
Accession Version	XM_025164865.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	proline-rich transmembrane protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532549.1) 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 :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

RefSeq	XP_025020633.1
CDS	504..3800
Translation	MAAVGLFLVWSVLLPALLLALYLPTPENSTWHLSLNSAPELSLLEVSSKMSLRRALPAIPHSDSSAHEFSSGDGELKNENRRGASPTGHPGAAISMMQFELPEKGAPASSSGGLLAPHLTEESLVLPTEGFSRVQGEVEDTGSITLEQSPEQGKKEFSLPSSGMSNINMSTLVVASLPTSPRLQASELLVSQEEILPSIHQAGFKHGLPATTLSPRPTVSTIPLATFPVTRSHVRWEAAEGTKPKDNTLRGWPGNKVPEQELLGQNPTTAKYLASYRSRQVYSGLPGQEELSTSPLRHVTQGDTQNLPGQDRDILSMTSTSQEGIVTPLIGKGQNFAHAPASSHPPISDDHFPVSFTPTLSEEPNPHLRSTHWNLIPDTTQQPRLWDMDGMGKTIFHSSSATPGIGEMHDIAEPQRVRGAVNPKVSLPYFGSSTPGQSPSKVQDDPGTKHSGAAWKHPSGQSSTGVSTTSARVLATPRRGLIQVTTQRVMQHPQLPKPDPSRPARPPASSPPCPGLGNTCHQLLPNQTLLRWGELEHTLSFAWGLHVYGSGVLFLLLSLLSLACLGGSLSVHGWHLPHVLAASALLLAFGVLRTTFFLADPYGSRGQLPARAVRLLYTVPFPLLLSTFMVLLLRLLHQARLQVLPPRWQSLPLWAALSSLHSIILLGADLLSPPVHLAVPVGLHTLSCTAGLCLLPATVFVYWLLRHSRGMEGTLEPGLWREAWVLLASSGLALPCCGLQFYGVLWLSGSLGQPDVFTWGWWFVQFWFRIGELALSFILALLAWQALCQHRGATEHSCWAKLLSYFCAYRKAEVPEYPNNCYDWPGGVLEKVPSHNLNNNLIRNSPGGGGGGSLLWALKDSNELRAGAGQGSSPPPRRAGYGPKCPNVAAAAMGRSYTSICFERESVLSLAELEFRPPSPINLSRSIDEALFREHLVRESIFLRSSLRFPARQDSCASLRGDCSTLSHAAQPLLAQPRRSSDPDCLYSLARTSSAGEPLGHGLASEPATDTSLDSFSRTSFSRASLKISWNPWRHGLSSPESLPSEELPSQQLRVLAEDLPPAPSSSAPNSEREARKSFLALSKQVDSRSLSSDTIEL

Target ORF information:

RefSeq Version	XM_025164865.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X3, mRNA.

Target ORF information:

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

XM_025164865.1

ORF Insert Sequence:

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

PRRT3 ( XM_007425375.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007425437.2 Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPy04817
Clone ID Related Accession (Same CDS sequence)	XM_015887596.1 , XM_007425375.3 , XM_025164865.1 , XM_007425375.2 , XM_025164864.1
Accession Version	XM_007425375.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	proline-rich transmembrane protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532549.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 11, 2016 this sequence version replaced XM_007425375.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

RefSeq	XP_007425437.2
CDS	565..3861
Translation	MAAVGLFLVWSVLLPALLLALYLPTPENSTWHLSLNSAPELSLLEVSSKMSLRRALPAIPHSDSSAHEFSSGDGELKNENRRGASPTGHPGAAISMMQFELPEKGAPASSSGGLLAPHLTEESLVLPTEGFSRVQGEVEDTGSITLEQSPEQGKKEFSLPSSGMSNINMSTLVVASLPTSPRLQASELLVSQEEILPSIHQAGFKHGLPATTLSPRPTVSTIPLATFPVTRSHVRWEAAEGTKPKDNTLRGWPGNKVPEQELLGQNPTTAKYLASYRSRQVYSGLPGQEELSTSPLRHVTQGDTQNLPGQDRDILSMTSTSQEGIVTPLIGKGQNFAHAPASSHPPISDDHFPVSFTPTLSEEPNPHLRSTHWNLIPDTTQQPRLWDMDGMGKTIFHSSSATPGIGEMHDIAEPQRVRGAVNPKVSLPYFGSSTPGQSPSKVQDDPGTKHSGAAWKHPSGQSSTGVSTTSARVLATPRRGLIQVTTQRVMQHPQLPKPDPSRPARPPASSPPCPGLGNTCHQLLPNQTLLRWGELEHTLSFAWGLHVYGSGVLFLLLSLLSLACLGGSLSVHGWHLPHVLAASALLLAFGVLRTTFFLADPYGSRGQLPARAVRLLYTVPFPLLLSTFMVLLLRLLHQARLQVLPPRWQSLPLWAALSSLHSIILLGADLLSPPVHLAVPVGLHTLSCTAGLCLLPATVFVYWLLRHSRGMEGTLEPGLWREAWVLLASSGLALPCCGLQFYGVLWLSGSLGQPDVFTWGWWFVQFWFRIGELALSFILALLAWQALCQHRGATEHSCWAKLLSYFCAYRKAEVPEYPNNCYDWPGGVLEKVPSHNLNNNLIRNSPGGGGGGSLLWALKDSNELRAGAGQGSSPPPRRAGYGPKCPNVAAAAMGRSYTSICFERESVLSLAELEFRPPSPINLSRSIDEALFREHLVRESIFLRSSLRFPARQDSCASLRGDCSTLSHAAQPLLAQPRRSSDPDCLYSLARTSSAGEPLGHGLASEPATDTSLDSFSRTSFSRASLKISWNPWRHGLSSPESLPSEELPSQQLRVLAEDLPPAPSSSAPNSEREARKSFLALSKQVDSRSLSSDTIEL

Target ORF information:

RefSeq Version	XM_007425375.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X1, mRNA.

Target ORF information:

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

XM_007425375.2

ORF Insert Sequence:

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

PRRT3 ( XM_025164864.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025020632.1 Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.

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CloneID	OPy04817
Clone ID Related Accession (Same CDS sequence)	XM_015887596.1 , XM_007425375.3 , XM_025164865.1 , XM_007425375.2 , XM_025164864.1
Accession Version	XM_025164864.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3297bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	proline-rich transmembrane protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532549.1) 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 :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

RefSeq	XP_025020632.1
CDS	481..3777
Translation	MAAVGLFLVWSVLLPALLLALYLPTPENSTWHLSLNSAPELSLLEVSSKMSLRRALPAIPHSDSSAHEFSSGDGELKNENRRGASPTGHPGAAISMMQFELPEKGAPASSSGGLLAPHLTEESLVLPTEGFSRVQGEVEDTGSITLEQSPEQGKKEFSLPSSGMSNINMSTLVVASLPTSPRLQASELLVSQEEILPSIHQAGFKHGLPATTLSPRPTVSTIPLATFPVTRSHVRWEAAEGTKPKDNTLRGWPGNKVPEQELLGQNPTTAKYLASYRSRQVYSGLPGQEELSTSPLRHVTQGDTQNLPGQDRDILSMTSTSQEGIVTPLIGKGQNFAHAPASSHPPISDDHFPVSFTPTLSEEPNPHLRSTHWNLIPDTTQQPRLWDMDGMGKTIFHSSSATPGIGEMHDIAEPQRVRGAVNPKVSLPYFGSSTPGQSPSKVQDDPGTKHSGAAWKHPSGQSSTGVSTTSARVLATPRRGLIQVTTQRVMQHPQLPKPDPSRPARPPASSPPCPGLGNTCHQLLPNQTLLRWGELEHTLSFAWGLHVYGSGVLFLLLSLLSLACLGGSLSVHGWHLPHVLAASALLLAFGVLRTTFFLADPYGSRGQLPARAVRLLYTVPFPLLLSTFMVLLLRLLHQARLQVLPPRWQSLPLWAALSSLHSIILLGADLLSPPVHLAVPVGLHTLSCTAGLCLLPATVFVYWLLRHSRGMEGTLEPGLWREAWVLLASSGLALPCCGLQFYGVLWLSGSLGQPDVFTWGWWFVQFWFRIGELALSFILALLAWQALCQHRGATEHSCWAKLLSYFCAYRKAEVPEYPNNCYDWPGGVLEKVPSHNLNNNLIRNSPGGGGGGSLLWALKDSNELRAGAGQGSSPPPRRAGYGPKCPNVAAAAMGRSYTSICFERESVLSLAELEFRPPSPINLSRSIDEALFREHLVRESIFLRSSLRFPARQDSCASLRGDCSTLSHAAQPLLAQPRRSSDPDCLYSLARTSSAGEPLGHGLASEPATDTSLDSFSRTSFSRASLKISWNPWRHGLSSPESLPSEELPSQQLRVLAEDLPPAPSSSAPNSEREARKSFLALSKQVDSRSLSSDTIEL

Target ORF information:

RefSeq Version	XM_025164864.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus proline rich transmembrane protein 3 (PRRT3), transcript variant X2, mRNA.

Target ORF information:

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

XM_025164864.1

ORF Insert Sequence:

ATGGCTGCCG TGGGGTTGTT CCTTGTCTGG AGCGTGCTCT TACCTGCGTT ACTCCTGGCT 
TTGTACCTCC CCACTCCGGA GAACTCTACC TGGCACTTGT CTTTGAATTC TGCCCCAGAG 
CTTTCTCTGC TGGAAGTTTC CTCCAAAATG TCTCTTCGGA GAGCACTACC AGCCATTCCT 
CATTCAGATT CTTCTGCCCA TGAGTTCTCC AGTGGAGATG GGGAATTGAA GAATGAGAAC 
AGACGAGGTG CCAGTCCAAC TGGCCACCCT GGAGCTGCAA TATCCATGAT GCAGTTTGAG 
CTTCCTGAAA AGGGGGCACC AGCCAGTTCT TCTGGTGGAC TTTTAGCTCC CCACTTGACT 
GAGGAGAGTC TTGTTCTGCC AACAGAAGGC TTTTCCAGAG TTCAGGGAGA AGTTGAGGAT 
ACTGGCAGTA TAACTTTGGA ACAAAGTCCA GAACAGGGGA AGAAAGAGTT CTCCCTTCCT 
TCTTCTGGCA TGTCAAATAT AAACATGTCC ACCTTGGTGG TGGCCTCTCT TCCCACTTCA 
CCCAGGTTAC AGGCCTCAGA ATTACTTGTC TCCCAGGAGG AGATCTTGCC CAGCATCCAC 
CAGGCAGGGT TCAAACATGG CCTCCCAGCA ACTACTTTAA GCCCCAGGCC CACAGTGTCC 
ACCATTCCCT TGGCAACATT CCCTGTTACC AGATCCCATG TCAGATGGGA GGCAGCTGAG 
GGTACCAAAC CTAAGGATAA TACTTTAAGG GGATGGCCGG GAAACAAAGT GCCAGAGCAG 
GAGCTGCTGG GCCAGAATCC AACCACAGCA AAATATTTGG CTTCATACAG GAGTAGACAG 
GTCTACAGTG GCCTCCCAGG CCAGGAGGAG CTCTCTACGT CTCCTCTTAG GCATGTGACT 
CAGGGAGATA CTCAGAATCT CCCTGGGCAA GACAGGGACA TACTATCAAT GACTTCCACC 
TCCCAGGAAG GTATAGTTAC CCCACTGATT GGGAAGGGGC AGAACTTTGC CCATGCCCCA 
GCAAGCTCCC ATCCACCAAT TTCAGATGAC CACTTCCCTG TCTCTTTCAC CCCTACACTG 
TCCGAAGAAC CCAATCCTCA TCTAAGGAGC ACCCACTGGA ATCTGATCCC TGATACCACC 
CAGCAGCCAA GACTTTGGGA CATGGATGGA ATGGGAAAGA CCATCTTCCA TAGCAGCTCT 
GCTACCCCAG GGATTGGAGA AATGCATGAC ATTGCAGAGC CCCAACGGGT CAGGGGAGCA 
GTGAACCCCA AAGTCTCTCT CCCATATTTT GGCTCCTCTA CCCCTGGGCA GAGCCCCTCA 
AAAGTGCAGG ATGATCCAGG AACCAAGCAC TCAGGTGCAG CTTGGAAGCA TCCCTCTGGG 
CAGAGCAGCA CCGGGGTGTC CACTACATCT GCCCGTGTCC TGGCTACCCC TCGCCGTGGG 
TTAATCCAAG TCACCACGCA AAGAGTCATG CAGCATCCCC AGCTGCCTAA GCCGGATCCC 
AGCCGGCCCG CCAGGCCCCC TGCTTCCAGC CCACCTTGCC CCGGCCTTGG AAACACCTGC 
CACCAGCTGC TGCCCAACCA GACCCTGCTG CGCTGGGGGG AACTTGAGCA CACGCTGAGT 
TTTGCCTGGG GCCTGCATGT CTACGGCTCC GGGGTGCTCT TTCTGCTGCT AAGCCTGTTG 
AGTTTGGCAT GCCTGGGGGG ATCCCTTTCC GTGCACGGGT GGCACCTCCC CCATGTCCTA 
GCTGCCAGTG CCCTGCTCCT GGCGTTTGGG GTGCTGCGGA CCACGTTCTT TCTGGCTGAC 
CCCTATGGCT CCCGGGGCCA GCTGCCTGCC CGTGCCGTGC GGCTGCTCTA CACGGTACCC 
TTCCCTCTGC TGCTGAGCAC CTTCATGGTG CTTCTGCTCC GCCTGCTTCA TCAGGCCCGC 
CTGCAGGTCT TGCCGCCCAG GTGGCAGAGC TTGCCACTCT GGGCTGCGCT GAGTTCCCTA 
CACAGCATCA TTCTCCTGGG GGCTGACTTG CTCTCCCCGC CAGTGCACTT GGCTGTGCCC 
GTGGGGCTCC ACACCCTTTC CTGCACTGCC GGTCTCTGCC TCCTGCCAGC CACCGTGTTT 
GTGTACTGGC TGCTGCGGCA CAGCCGGGGG ATGGAGGGCA CCTTGGAGCC GGGTTTGTGG 
CGCGAGGCCT GGGTGCTGCT GGCAAGCAGT GGGTTGGCTC TGCCATGCTG CGGCCTGCAG 
TTCTACGGGG TGCTGTGGCT CTCGGGGTCA CTGGGGCAGC CGGATGTTTT CACCTGGGGC 
TGGTGGTTTG TGCAGTTCTG GTTCCGGATT GGTGAACTGG CGCTCTCCTT TATCCTGGCC 
TTGCTGGCTT GGCAGGCGCT TTGCCAGCAC CGCGGCGCCA CCGAGCACTC TTGCTGGGCC 
AAGCTCCTGA GCTACTTCTG CGCCTACCGC AAGGCTGAAG TGCCGGAGTA CCCCAACAAT 
TGCTACGACT GGCCTGGCGG GGTCCTGGAG AAGGTGCCCA GTCACAACCT CAATAATAAC 
TTGATCCGGA ACTCCCCCGG CGGTGGCGGC GGTGGCAGCC TCCTCTGGGC TCTGAAGGAC 
AGCAACGAGC TGCGGGCGGG AGCCGGCCAA GGCTCCAGCC CCCCGCCGCG GCGCGCGGGC 
TACGGCCCCA AGTGCCCCAA TGTGGCCGCG GCAGCCATGG GCCGCTCCTA TACCAGCATC 
TGCTTCGAGC GGGAGTCGGT CCTCTCGCTG GCCGAGCTGG AGTTCCGGCC TCCCTCGCCC 
ATCAACCTGA GCCGCAGCAT CGACGAGGCG CTCTTCCGCG AGCACCTGGT GCGCGAGTCC 
ATCTTCCTGC GCTCCAGCCT GCGCTTCCCG GCGCGCCAGG ACTCCTGCGC CTCGCTGCGC 
GGCGACTGCT CCACGCTGTC CCACGCGGCC CAGCCCCTGC TGGCCCAGCC CCGCCGGAGC 
AGCGATCCCG ACTGCCTGTA CAGCTTAGCG CGGACCAGTT CGGCGGGAGA GCCCCTCGGC 
CACGGCCTGG CCAGCGAGCC CGCGACGGAC ACCTCCTTGG ACAGCTTCTC ACGCACCTCC 
TTCTCCCGGG CCTCCCTGAA GATCAGCTGG AACCCGTGGC GCCACGGGCT GTCCTCCCCC 
GAAAGCCTGC CCTCGGAGGA ACTGCCCAGC CAGCAGCTCC GCGTGCTGGC GGAGGATCTC 
CCTCCGGCGC CGTCCAGCAG CGCACCCAAC TCCGAGCGTG AGGCCCGGAA GAGCTTCCTG 
GCTCTCAGCA AGCAGGTGGA TTCCCGCAGC CTCTCGAGTG ACACCATTGA ATTGTGA

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

PubMed

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03-6811-6572

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PRRT3 cDNA ORF clone, Python bivittatus(Burmese python)

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム