PRX cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	PRX
Entrez Gene ID	57716
Full Name	periaxin
Synonyms	CMT4F
General protein information	Preferred Names periaxin Names periaxin
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 19 Map Location: 19q13.2
Summary	This gene encodes a protein involved in peripheral nerve myelin upkeep. The encoded protein contains 2 PDZ domains which were named after PSD95 (post synaptic density protein), DlgA (Drosophila disc large tumor suppressor), and ZO1 (a mammalian tight junction protein). Two alternatively spliced transcript variants have been described for this gene which encode different protein isoforms and which are targeted differently in the Schwann cell. Mutations in this gene cause Charcot-Marie-Tooth neuoropathy, type 4F and Dejerine-Sottas neuropathy. [provided by RefSeq, Jul 2008].
Disorder MIM:	605725
Disorder Html:	Dejerine-Sottas disease, 145900 (3); Charcot-Marie-Tooth disease, type 4F, 614895 (3)

mRNA and Protein(s)

mRNA	Protein	Name
XM_017027046.1	XP_016882535.1	periaxin isoform X2
XM_017027047.1	XP_016882536.1	periaxin isoform X2
NM_020956.2	NP_066007.1	periaxin isoform 1
NM_181882.2	NP_870998.2	periaxin isoform 2
XM_011527171.2	XP_011525473.1	periaxin isoform X1
NM_181882.3	NP_870998.2	periaxin isoform 2

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	PRX	XP_003953543.1
Homo sapiens (human)	PRX	NP_870998.2
Bos taurus (cattle)	PRX	XP_003587302.2
Mus musculus (house mouse)	Prx	NP_932165.2
Rattus norvegicus (Norway rat)	Prx	NP_076466.2
	LOC702329	XP_002808239.1
Canis lupus familiaris (dog)	PRX	XP_541615.4

Gene Ontology
Bibliography

Related articles in PubMed

Identification of a PRX variant in a Chinese family with congenital cataract by exome sequencing.
Yuan L, Yi J, Lin Q, Xu H, Deng X, Xiong W, Xiao J, Jiang C, Yuan X, Chen Y, Deng H
QJM : monthly journal of the Association of Physicians109(11)731-735(2016 Nov)

Intermolecular disulfide bond in the dimerization of S-periaxin mediated by Cys88 and Cys139.
Yang Y, Ren Y, Shi Y
Acta biochimica et biophysica Sinica48(4)326-33(2016 Apr)

The use of whole-exome sequencing to disentangle complex phenotypes.
Williams HJ, Hurst JR, Ocaka L, James C, Pao C, Chanudet E, Lescai F, Stanescu HC, Kleta R, , Rosser E, Bacchelli C, Beales P
European journal of human genetics : EJHG24(2)298-301(2016 Feb)

Nuclear export of L-periaxin, mediated by its nuclear export signal in the PDZ domain.
Shi Y, Zhang L, Yang T
PloS one9(3)e91953(2014)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The study identified a variant of periaxin in a Chinese family with congenital cataract by exome sequencing.
Title: Identification of a PRX variant in a Chinese family with congenital cataract by exome sequencing.

results offer a possible mechanism to the formation of periaxin complexes, improvement of complex stability, and establishment of a link between the extracellular matrix and the cytoskeleton
Title: Intermolecular disulfide bond in the dimerization of S-periaxin mediated by Cys88 and Cys139.

we were able to simplify this complex phenotype and identified a causative mutation (p.R1070*) in the gene periaxin (PRX), a gene previously shown to cause peripheral neuropathy (Dejerine-Sottas syndrome) when this mutation is present
Title: The use of whole-exome sequencing to disentangle complex phenotypes.

Study of the periaxin gene should be considered in patients with severe demyelinating neuropathy associated with early infantile scoliosis.
Title: [Charcot-Marie-Tooth disease associated with periaxin mutations (CMT4F): Clinical, electrophysiological and genetic analysis of 24 patients].

a variation of clinical phenotypes for CMT4F caused by a novel, nonsense PRX mutation, was shown.
Title: Late-onset Charcot-Marie-Tooth disease 4F caused by periaxin gene mutation.

The following PRX gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PRX 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)
OHu25782	NM_020956.2 Latest version!	Homo sapiens periaxin (PRX), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$49.50-$69.30 $99.00
OHu25883	NM_181882.3 Latest version!	Homo sapiens periaxin (PRX), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
OHu25883	XM_011527171.2 Latest version!	Homo sapiens periaxin (PRX), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
OHu88599	XM_017027046.1 Latest version!	Homo sapiens periaxin (PRX), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu88599	XM_017027047.1 Latest version!	Homo sapiens periaxin (PRX), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
View Old Accession Versions >>
OHu25883	NM_181882.2	Homo sapiens periaxin (PRX), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
Hide Old Accession Versions >>

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

Reference Sequences (Refseq)

PRX ( NM_020956.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_066007.1 Homo sapiens periaxin (PRX), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu25782
Clone ID Related Accession (Same CDS sequence)	NM_020956.2
Accession Version	NM_020956.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 444bp) 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	2019-12-20
Organism	Homo sapiens(human)
Product	periaxin isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF321192.1, AB046840.1 and CD674402.1. This sequence is a reference standard in the RefSeqGene project. On Oct 26, 2006 this sequence version replaced NM_020956.1. Transcript Variant: This variant (1) retains an intron in the 3' coding region, which results in a frameshift and an early stop codon, compared to variant 2. The encoded protein (isoform 2) is much shorter and has a distinct C-terminus compared to isoform 2. It is found throughout the Schwann cell cytoplasm. Isoform 1 is also known as S-periaxin. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF321192.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968832, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END##

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GGTACGCGTG CTTAGCCCGG CCCCGGCCCT GGACTGCCCC 
AGCGATCCGG TCTCTGCGCC GTGA

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

RefSeq	NP_066007.1
CDS	270..713
Translation	MEARSRSAEELRRAELVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLVRVLSPAPALDCPSDPVSAP

Target ORF information:

RefSeq Version	NM_020956.2
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant 1, mRNA.

Target ORF information:

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

NM_020956.2

ORF Insert Sequence:

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GGTACGCGTG CTTAGCCCGG CCCCGGCCCT GGACTGCCCC 
AGCGATCCGG TCTCTGCGCC GTGA

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

PRX ( NM_181882.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_870998.2 Homo sapiens periaxin (PRX), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu25883
Clone ID Related Accession (Same CDS sequence)	NM_181882.2 , XM_011527171.2 , NM_181882.3
Accession Version	NM_181882.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4386bp) 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	2019-05-03
Organism	Homo sapiens(human)
Product	periaxin isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF321192.1, AB046840.1 and CD674402.1. This sequence is a reference standard in the RefSeqGene project. On Oct 26, 2006 this sequence version replaced NM_181882.1. Transcript Variant: This variant (2) encodes the longer protein (isoform 2). Isoform 2 is also known as L-periaxin. L-periaxin is found in the plasma membrane of myelinating Schwann cells. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF321191.1, BC067266.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2147920 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END##

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

RefSeq	NP_870998.2
CDS	270..4655
Translation	MEARSRSAEELRRAELVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLNIQSLSPVKKKKMVPGALGVPADLAPVDVEFSFPKFSRLRRGLKAEAVKGPVPAAPARRRLQLPRLRVREVAEEAQAARLAAAAPPPRKAKVEAEVAAGARFTAPQVELVGPRLPGAEVGVPQVSAPKAAPSAEAAGGFALHLPTLGLGAPAPPAVEAPAVGIQVPQVELPALPSLPTLPTLPCLETREGAVSVVVPTLDVAAPTVGVDLALPGAEVEARGEAPEVALKMPRLSFPRFGARAKEVAEAKVAKVSPEARVKGPRLRMPTFGLSLLEPRPAAPEVVESKLKLPTIKMPSLGIGVSGPEVKVPKGPEVKLPKAPEVKLPKVPEAALPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVQLLKVSEMKLPKVPEMAVPEVRLPEVQLPKVSEMKLPEVSEVAVPEVRLPEVQLPKVPEMKVPEMKLPKVPEMKLPEMKLPEVQLPKVPEMAVPDVHLPEVQLPKVPEMKLPEMKLPEVKLPKVPEMAVPDVHLPEVQLPKVPEMKLPKMPEMAVPEVRLPEVQLPKVSEMKLPKVPEMAVPDVHLPEVQLPKVCEMKVPDMKLPEIKLPKVPEMAVPDVHLPEVQLPKVSEIRLPEMQVPKVPDVHLPKAPEVKLPRAPEVQLKATKAEQAEGMEFGFKMPKMTMPKLGRAESPSRGKPGEAGAEVSGKLVTLPCLQPEVDGEAHVGVPSLTLPSVELDLPGALGLQGQVPAAKMGKGERVEGPEVAAGVREVGFRVPSVEIVTPQLPAVEIEEGRLEMIETKVKPSSKFSLPKFGLSGPKVAKAEAEGAGRATKLKVSKFAISLPKARVGAEAEAKGAGEAGLLPALDLSIPQLSLDAHLPSGKVEVAGADLKFKGPRFALPKFGVRGRDTEAAELVPGVAELEGKGWGWDGRVKMPKLKMPSFGLARGKEAEVQGDRASPGEKAESTAVQLKIPEVELVTLGAQEEGRAEGAVAVSGMQLSGLKVSTAGQVVTEGHDAGLRMPPLGISLPQVELTGFGEAGTPGQQAQSTVPSAEGTAGYRVQVPQVTLSLPGAQVAGGELLVGEGVFKMPTVTVPQLELDVGLSREAQAGEAATGEGGLRLKLPTLGARARVGGEGAEEQPPGAERTFCLSLPDVELSPSGGNHAEYQVAEGEGEAGHKLKVRLPRFGLVRAKEGAEEGEKAKSPKLRLPRVGFSQSEMVTGEGSPSPEEEEEEEEEGSGEGASGRRGRVRVRLPRVGLAAPSKASRGQEGDAAPKSPVREKSPKFRFPRVSLSPKARSGSGDQEEGGLRVRLPSVGFSETGAPGPARMEGAQAAAV

Target ORF information:

RefSeq Version	NM_181882.2
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant 2, mRNA.

Target ORF information:

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

NM_181882.2

ORF Insert Sequence:

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

PRX ( NM_181882.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_870998.2 Homo sapiens periaxin (PRX), transcript variant 2, mRNA.

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CloneID	OHu25883
Clone ID Related Accession (Same CDS sequence)	NM_181882.2 , XM_011527171.2 , NM_181882.3
Accession Version	NM_181882.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4386bp) 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	2020-01-04
Organism	Homo sapiens(human)
Product	periaxin isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC010271.8, AF321192.1 and AB046840.1. On Aug 31, 2019 this sequence version replaced NM_181882.2. Transcript Variant: This variant (2) encodes the longer protein (isoform 2). Isoform 2 is also known as L-periaxin. L-periaxin is found in the plasma membrane of myelinating Schwann cells. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC067266.1, AF321191.1 [ECO:0000332] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END##

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

RefSeq	NP_870998.2
CDS	284..4669
Translation	MEARSRSAEELRRAELVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLNIQSLSPVKKKKMVPGALGVPADLAPVDVEFSFPKFSRLRRGLKAEAVKGPVPAAPARRRLQLPRLRVREVAEEAQAARLAAAAPPPRKAKVEAEVAAGARFTAPQVELVGPRLPGAEVGVPQVSAPKAAPSAEAAGGFALHLPTLGLGAPAPPAVEAPAVGIQVPQVELPALPSLPTLPTLPCLETREGAVSVVVPTLDVAAPTVGVDLALPGAEVEARGEAPEVALKMPRLSFPRFGARAKEVAEAKVAKVSPEARVKGPRLRMPTFGLSLLEPRPAAPEVVESKLKLPTIKMPSLGIGVSGPEVKVPKGPEVKLPKAPEVKLPKVPEAALPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVQLLKVSEMKLPKVPEMAVPEVRLPEVQLPKVSEMKLPEVSEVAVPEVRLPEVQLPKVPEMKVPEMKLPKVPEMKLPEMKLPEVQLPKVPEMAVPDVHLPEVQLPKVPEMKLPEMKLPEVKLPKVPEMAVPDVHLPEVQLPKVPEMKLPKMPEMAVPEVRLPEVQLPKVSEMKLPKVPEMAVPDVHLPEVQLPKVCEMKVPDMKLPEIKLPKVPEMAVPDVHLPEVQLPKVSEIRLPEMQVPKVPDVHLPKAPEVKLPRAPEVQLKATKAEQAEGMEFGFKMPKMTMPKLGRAESPSRGKPGEAGAEVSGKLVTLPCLQPEVDGEAHVGVPSLTLPSVELDLPGALGLQGQVPAAKMGKGERVEGPEVAAGVREVGFRVPSVEIVTPQLPAVEIEEGRLEMIETKVKPSSKFSLPKFGLSGPKVAKAEAEGAGRATKLKVSKFAISLPKARVGAEAEAKGAGEAGLLPALDLSIPQLSLDAHLPSGKVEVAGADLKFKGPRFALPKFGVRGRDTEAAELVPGVAELEGKGWGWDGRVKMPKLKMPSFGLARGKEAEVQGDRASPGEKAESTAVQLKIPEVELVTLGAQEEGRAEGAVAVSGMQLSGLKVSTAGQVVTEGHDAGLRMPPLGISLPQVELTGFGEAGTPGQQAQSTVPSAEGTAGYRVQVPQVTLSLPGAQVAGGELLVGEGVFKMPTVTVPQLELDVGLSREAQAGEAATGEGGLRLKLPTLGARARVGGEGAEEQPPGAERTFCLSLPDVELSPSGGNHAEYQVAEGEGEAGHKLKVRLPRFGLVRAKEGAEEGEKAKSPKLRLPRVGFSQSEMVTGEGSPSPEEEEEEEEEGSGEGASGRRGRVRVRLPRVGLAAPSKASRGQEGDAAPKSPVREKSPKFRFPRVSLSPKARSGSGDQEEGGLRVRLPSVGFSETGAPGPARMEGAQAAAV

Target ORF information:

RefSeq Version	NM_181882.3
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant 2, mRNA.

Target ORF information:

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

NM_181882.3

ORF Insert Sequence:

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

PRX ( XM_011527171.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525473.1 Homo sapiens periaxin (PRX), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu25883
Clone ID Related Accession (Same CDS sequence)	NM_181882.2 , XM_011527171.2 , NM_181882.3
Accession Version	XM_011527171.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4386bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	periaxin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011527171.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

RefSeq	XP_011525473.1
CDS	262..4647
Translation	MEARSRSAEELRRAELVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLNIQSLSPVKKKKMVPGALGVPADLAPVDVEFSFPKFSRLRRGLKAEAVKGPVPAAPARRRLQLPRLRVREVAEEAQAARLAAAAPPPRKAKVEAEVAAGARFTAPQVELVGPRLPGAEVGVPQVSAPKAAPSAEAAGGFALHLPTLGLGAPAPPAVEAPAVGIQVPQVELPALPSLPTLPTLPCLETREGAVSVVVPTLDVAAPTVGVDLALPGAEVEARGEAPEVALKMPRLSFPRFGARAKEVAEAKVAKVSPEARVKGPRLRMPTFGLSLLEPRPAAPEVVESKLKLPTIKMPSLGIGVSGPEVKVPKGPEVKLPKAPEVKLPKVPEAALPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVQLLKVSEMKLPKVPEMAVPEVRLPEVQLPKVSEMKLPEVSEVAVPEVRLPEVQLPKVPEMKVPEMKLPKVPEMKLPEMKLPEVQLPKVPEMAVPDVHLPEVQLPKVPEMKLPEMKLPEVKLPKVPEMAVPDVHLPEVQLPKVPEMKLPKMPEMAVPEVRLPEVQLPKVSEMKLPKVPEMAVPDVHLPEVQLPKVCEMKVPDMKLPEIKLPKVPEMAVPDVHLPEVQLPKVSEIRLPEMQVPKVPDVHLPKAPEVKLPRAPEVQLKATKAEQAEGMEFGFKMPKMTMPKLGRAESPSRGKPGEAGAEVSGKLVTLPCLQPEVDGEAHVGVPSLTLPSVELDLPGALGLQGQVPAAKMGKGERVEGPEVAAGVREVGFRVPSVEIVTPQLPAVEIEEGRLEMIETKVKPSSKFSLPKFGLSGPKVAKAEAEGAGRATKLKVSKFAISLPKARVGAEAEAKGAGEAGLLPALDLSIPQLSLDAHLPSGKVEVAGADLKFKGPRFALPKFGVRGRDTEAAELVPGVAELEGKGWGWDGRVKMPKLKMPSFGLARGKEAEVQGDRASPGEKAESTAVQLKIPEVELVTLGAQEEGRAEGAVAVSGMQLSGLKVSTAGQVVTEGHDAGLRMPPLGISLPQVELTGFGEAGTPGQQAQSTVPSAEGTAGYRVQVPQVTLSLPGAQVAGGELLVGEGVFKMPTVTVPQLELDVGLSREAQAGEAATGEGGLRLKLPTLGARARVGGEGAEEQPPGAERTFCLSLPDVELSPSGGNHAEYQVAEGEGEAGHKLKVRLPRFGLVRAKEGAEEGEKAKSPKLRLPRVGFSQSEMVTGEGSPSPEEEEEEEEEGSGEGASGRRGRVRVRLPRVGLAAPSKASRGQEGDAAPKSPVREKSPKFRFPRVSLSPKARSGSGDQEEGGLRVRLPSVGFSETGAPGPARMEGAQAAAV

Target ORF information:

RefSeq Version	XM_011527171.2
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant X1, mRNA.

Target ORF information:

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

XM_011527171.2

ORF Insert Sequence:

ATGGAGGCCA GGAGCCGGAG TGCCGAGGAG CTGAGGCGGG CGGAGTTGGT GGAAATTATC 
GTGGAGACGG AGGCGCAGAC CGGGGTCAGC GGCATCAACG TAGCGGGCGG CGGCAAAGAG 
GGAATCTTCG TTCGGGAGCT GCGCGAGGAC TCACCCGCCG CCAGGAGCCT CAGCCTGCAG 
GAAGGGGACC AGCTGCTGAG TGCCCGAGTG TTCTTCGAGA ACTTCAAGTA CGAGGACGCA 
CTACGCCTGC TGCAATGCGC CGAGCCTTAC AAAGTCTCCT TCTGCCTGAA GCGCACTGTG 
CCCACCGGGG ACCTGGCTCT GCGGCCCGGG ACCGTGTCTG GCTACGAGAT CAAGGGCCCG 
CGGGCCAAGG TGGCCAAGCT GAACATCCAG AGTCTGTCCC CTGTGAAGAA GAAGAAGATG 
GTGCCTGGGG CTCTGGGGGT CCCCGCTGAC CTGGCCCCTG TTGACGTCGA GTTCTCCTTT 
CCCAAGTTCT CCCGCCTGCG TCGGGGCCTC AAAGCCGAGG CTGTCAAGGG TCCTGTCCCG 
GCTGCCCCTG CCCGCCGGCG CCTCCAGCTG CCTCGGCTGC GTGTACGAGA AGTGGCCGAA 
GAGGCTCAGG CAGCCCGGCT GGCCGCCGCC GCTCCTCCCC CCAGGAAAGC CAAGGTGGAG 
GCTGAGGTGG CTGCAGGAGC TCGTTTCACA GCCCCTCAGG TGGAGCTGGT TGGGCCGCGG 
CTGCCAGGGG CGGAGGTGGG TGTCCCCCAG GTCTCAGCCC CCAAGGCTGC CCCCTCAGCA 
GAGGCAGCTG GTGGCTTTGC CCTCCACCTG CCAACCCTTG GGCTCGGAGC CCCGGCTCCG 
CCTGCTGTGG AGGCCCCAGC CGTGGGAATC CAGGTCCCCC AGGTGGAGCT GCCTGCCTTG 
CCCTCACTGC CCACTCTGCC CACACTTCCC TGCCTAGAGA CCCGGGAAGG GGCTGTGTCG 
GTAGTGGTGC CCACCCTGGA TGTGGCAGCA CCGACTGTGG GGGTGGACCT GGCCTTGCCG 
GGTGCAGAGG TGGAGGCCCG GGGAGAGGCA CCTGAGGTGG CCCTGAAGAT GCCCCGCCTT 
AGTTTTCCCC GATTTGGGGC TCGAGCAAAG GAAGTTGCTG AGGCCAAGGT AGCCAAGGTC 
AGCCCTGAGG CCAGGGTGAA AGGTCCCAGA CTTCGAATGC CCACCTTTGG GCTTTCCCTC 
TTGGAGCCCC GGCCCGCTGC TCCTGAAGTT GTAGAGAGCA AGCTGAAGCT GCCCACCATC 
AAGATGCCCT CCCTTGGCAT CGGAGTGTCA GGGCCCGAGG TCAAGGTGCC CAAGGGACCT 
GAAGTGAAGC TCCCCAAGGC TCCTGAGGTC AAGCTTCCAA AAGTGCCCGA GGCAGCCCTT 
CCAGAGGTTC GACTCCCAGA GGTGGAGCTC CCCAAGGTGT CAGAGATGAA ACTCCCAAAG 
GTGCCAGAGA TGGCTGTGCC GGAGGTGCGG CTTCCAGAGG TAGAGCTGCC CAAAGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
CAGCTGCTGA AAGTGTCGGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCCGAAA GTGTCAGAGA TGAAACTCCC AGAGGTGTCA 
GAGGTGGCTG TGCCAGAGGT GCGGCTTCCA GAGGTGCAGC TGCCGAAAGT GCCAGAGATG 
AAAGTCCCTG AGATGAAGCT TCCAAAGGTG CCTGAGATGA AACTTCCTGA GATGAAACTC 
CCTGAAGTGC AACTCCCGAA GGTGCCCGAG ATGGCCGTGC CCGATGTGCA CCTCCCAGAA 
GTGCAGCTTC CAAAAGTCCC AGAGATGAAG CTCCCTGAGA TGAAACTCCC TGAGGTGAAA 
CTCCCGAAGG TGCCCGAGAT GGCTGTGCCC GATGTGCACC TCCCGGAAGT GCAGCTCCCG 
AAAGTCCCAG AGATGAAACT CCCTAAAATG CCTGAGATGG CTGTGCCAGA GGTTCGACTC 
CCCGAGGTGC AGCTGCCAAA AGTCTCAGAG ATGAAACTCC CCAAGGTGCC TGAAATGGCC 
GTGCCCGATG TGCACCTCCC AGAGGTGCAG CTGCCCAAAG TCTGTGAAAT GAAAGTCCCT 
GACATGAAGC TCCCAGAGAT AAAACTCCCC AAGGTGCCTG AGATGGCTGT GCCCGATGTG 
CACCTCCCCG AGGTGCAGCT GCCGAAAGTG TCAGAGATTC GGCTGCCGGA AATGCAAGTG 
CCGAAGGTTC CCGACGTGCA TCTTCCGAAG GCACCAGAGG TGAAGCTGCC CAGGGCTCCG 
GAGGTGCAGC TAAAGGCCAC CAAGGCAGAA CAGGCAGAAG GGATGGAATT TGGCTTCAAG 
ATGCCCAAGA TGACCATGCC CAAGCTAGGG AGGGCAGAGT CCCCATCACG TGGCAAGCCA 
GGCGAGGCGG GTGCTGAGGT CTCAGGGAAG CTGGTAACAC TTCCCTGTCT GCAGCCAGAG 
GTGGATGGTG AGGCTCATGT GGGTGTCCCC TCTCTCACTC TGCCTTCAGT GGAGCTAGAC 
CTGCCAGGAG CACTTGGCCT GCAGGGGCAG GTCCCAGCCG CTAAAATGGG CAAGGGAGAG 
CGGGTGGAGG GCCCTGAGGT GGCAGCAGGG GTCAGGGAAG TGGGCTTCCG AGTGCCCTCT 
GTTGAAATTG TCACCCCACA GCTGCCCGCC GTGGAAATTG AGGAAGGGCG GCTGGAGATG 
ATAGAGACAA AAGTCAAGCC CTCTTCCAAG TTCTCCTTAC CTAAGTTTGG ACTCTCGGGG 
CCAAAGGTGG CTAAGGCAGA GGCTGAGGGG GCTGGGCGAG CTACCAAGCT GAAGGTATCC 
AAATTTGCCA TCTCACTCCC CAAGGCTCGG GTGGGGGCTG AGGCTGAGGC CAAAGGGGCT 
GGGGAGGCAG GCCTGCTGCC TGCCCTCGAT CTGTCCATCC CACAGCTCAG CCTGGATGCC 
CACCTGCCCT CAGGCAAGGT AGAGGTGGCA GGGGCCGACC TCAAGTTCAA GGGGCCCAGG 
TTTGCTCTCC CCAAGTTTGG GGTCAGAGGC CGGGACACTG AGGCAGCAGA ACTAGTGCCA 
GGGGTGGCTG AGTTGGAGGG CAAGGGCTGG GGCTGGGATG GGAGGGTGAA GATGCCCAAG 
CTGAAGATGC CTTCCTTTGG GCTGGCTCGA GGGAAGGAAG CAGAAGTTCA AGGTGATCGT 
GCCAGCCCGG GGGAAAAGGC TGAGTCCACC GCTGTGCAGC TTAAGATCCC CGAGGTGGAG 
CTGGTCACGC TGGGCGCCCA GGAGGAAGGG AGGGCAGAGG GGGCTGTGGC CGTCAGTGGA 
ATGCAGCTGT CAGGCCTGAA GGTGTCCACA GCCGGGCAGG TGGTCACTGA GGGCCATGAC 
GCGGGGCTGA GGATGCCTCC GCTGGGCATC TCCCTGCCAC AGGTGGAGCT GACCGGCTTT 
GGGGAGGCAG GTACCCCAGG GCAGCAGGCT CAGAGTACAG TCCCTTCAGC AGAGGGCACA 
GCAGGCTACA GGGTTCAGGT GCCCCAGGTG ACCCTGTCTC TGCCTGGAGC CCAGGTTGCA 
GGTGGTGAGC TGCTGGTGGG TGAGGGTGTC TTTAAGATGC CCACCGTGAC AGTGCCCCAG 
CTTGAGCTGG ACGTGGGGCT AAGCCGAGAG GCACAGGCGG GCGAGGCGGC CACAGGCGAG 
GGTGGGCTGA GGCTGAAGTT GCCCACACTG GGGGCCAGAG CTAGGGTGGG GGGCGAGGGT 
GCTGAGGAGC AGCCCCCAGG GGCCGAGCGT ACCTTCTGCC TCTCACTGCC CGACGTGGAG 
CTCTCGCCAT CCGGGGGCAA CCATGCCGAG TACCAGGTGG CAGAGGGGGA GGGAGAGGCC 
GGACACAAGC TCAAGGTACG GCTGCCCCGG TTTGGCCTGG TGCGGGCCAA GGAGGGGGCC 
GAGGAGGGTG AGAAGGCCAA GAGCCCCAAA CTCAGGCTGC CCCGAGTGGG CTTCAGCCAA 
AGTGAGATGG TCACTGGGGA AGGGTCCCCC AGCCCCGAGG AGGAGGAGGA GGAGGAGGAA 
GAGGGCAGTG GGGAAGGGGC CTCGGGTCGC CGGGGCCGGG TCCGGGTCCG CTTGCCACGT 
GTAGGCCTGG CGGCCCCTTC TAAAGCCTCT CGGGGGCAGG AGGGCGATGC AGCCCCCAAG 
TCCCCCGTCA GAGAGAAGTC ACCCAAGTTC CGCTTCCCCA GGGTGTCCCT AAGCCCCAAG 
GCCCGGAGTG GGAGTGGGGA CCAGGAAGAG GGTGGATTGC GGGTGCGGCT GCCCAGCGTG 
GGGTTTTCAG AGACAGGGGC TCCAGGCCCG GCCAGGATGG AGGGGGCTCA GGCTGCGGCT 
GTCTGA

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

PRX ( XM_017027046.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882535.1 Homo sapiens periaxin (PRX), transcript variant X2, mRNA.

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CloneID	OHu88599
Clone ID Related Accession (Same CDS sequence)	XM_017027046.1 , XM_017027047.1
Accession Version	XM_017027046.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4284bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	periaxin isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCCTGA GAAGGCGGTG GAGAGATTGC CCTGAGCTAG GAGTGGGGTT AGTTCATCCC 
CAGGAACAGG AAGGCGAATG GAGGGACCAG CTGCTGAGTG CCCGAGTGTT CTTCGAGAAC 
TTCAAGTACG AGGACGCACT ACGCCTGCTG CAATGCGCCG AGCCTTACAA AGTCTCCTTC 
TGCCTGAAGC GCACTGTGCC CACCGGGGAC CTGGCTCTGC GGCCCGGGAC CGTGTCTGGC 
TACGAGATCA AGGGCCCGCG GGCCAAGGTG GCCAAGCTGA ACATCCAGAG TCTGTCCCCT 
GTGAAGAAGA AGAAGATGGT GCCTGGGGCT CTGGGGGTCC CCGCTGACCT GGCCCCTGTT 
GACGTCGAGT TCTCCTTTCC CAAGTTCTCC CGCCTGCGTC GGGGCCTCAA AGCCGAGGCT 
GTCAAGGGTC CTGTCCCGGC TGCCCCTGCC CGCCGGCGCC TCCAGCTGCC TCGGCTGCGT 
GTACGAGAAG TGGCCGAAGA GGCTCAGGCA GCCCGGCTGG CCGCCGCCGC TCCTCCCCCC 
AGGAAAGCCA AGGTGGAGGC TGAGGTGGCT GCAGGAGCTC GTTTCACAGC CCCTCAGGTG 
GAGCTGGTTG GGCCGCGGCT GCCAGGGGCG GAGGTGGGTG TCCCCCAGGT CTCAGCCCCC 
AAGGCTGCCC CCTCAGCAGA GGCAGCTGGT GGCTTTGCCC TCCACCTGCC AACCCTTGGG 
CTCGGAGCCC CGGCTCCGCC TGCTGTGGAG GCCCCAGCCG TGGGAATCCA GGTCCCCCAG 
GTGGAGCTGC CTGCCTTGCC CTCACTGCCC ACTCTGCCCA CACTTCCCTG CCTAGAGACC 
CGGGAAGGGG CTGTGTCGGT AGTGGTGCCC ACCCTGGATG TGGCAGCACC GACTGTGGGG 
GTGGACCTGG CCTTGCCGGG TGCAGAGGTG GAGGCCCGGG GAGAGGCACC TGAGGTGGCC 
CTGAAGATGC CCCGCCTTAG TTTTCCCCGA TTTGGGGCTC GAGCAAAGGA AGTTGCTGAG 
GCCAAGGTAG CCAAGGTCAG CCCTGAGGCC AGGGTGAAAG GTCCCAGACT TCGAATGCCC 
ACCTTTGGGC TTTCCCTCTT GGAGCCCCGG CCCGCTGCTC CTGAAGTTGT AGAGAGCAAG 
CTGAAGCTGC CCACCATCAA GATGCCCTCC CTTGGCATCG GAGTGTCAGG GCCCGAGGTC 
AAGGTGCCCA AGGGACCTGA AGTGAAGCTC CCCAAGGCTC CTGAGGTCAA GCTTCCAAAA 
GTGCCCGAGG CAGCCCTTCC AGAGGTTCGA CTCCCAGAGG TGGAGCTCCC CAAGGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
GAGCTGCCCA AAGTGTCAGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCTGAAA GTGTCGGAGA TGAAACTCCC AAAGGTGCCA 
GAGATGGCTG TGCCGGAGGT GCGGCTTCCA GAGGTACAGC TGCCGAAAGT GTCAGAGATG 
AAACTCCCAG AGGTGTCAGA GGTGGCTGTG CCAGAGGTGC GGCTTCCAGA GGTGCAGCTG 
CCGAAAGTGC CAGAGATGAA AGTCCCTGAG ATGAAGCTTC CAAAGGTGCC TGAGATGAAA 
CTTCCTGAGA TGAAACTCCC TGAAGTGCAA CTCCCGAAGG TGCCCGAGAT GGCCGTGCCC 
GATGTGCACC TCCCAGAAGT GCAGCTTCCA AAAGTCCCAG AGATGAAGCT CCCTGAGATG 
AAACTCCCTG AGGTGAAACT CCCGAAGGTG CCCGAGATGG CTGTGCCCGA TGTGCACCTC 
CCGGAAGTGC AGCTCCCGAA AGTCCCAGAG ATGAAACTCC CTAAAATGCC TGAGATGGCT 
GTGCCAGAGG TTCGACTCCC CGAGGTGCAG CTGCCAAAAG TCTCAGAGAT GAAACTCCCC 
AAGGTGCCTG AAATGGCCGT GCCCGATGTG CACCTCCCAG AGGTGCAGCT GCCCAAAGTC 
TGTGAAATGA AAGTCCCTGA CATGAAGCTC CCAGAGATAA AACTCCCCAA GGTGCCTGAG 
ATGGCTGTGC CCGATGTGCA CCTCCCCGAG GTGCAGCTGC CGAAAGTGTC AGAGATTCGG 
CTGCCGGAAA TGCAAGTGCC GAAGGTTCCC GACGTGCATC TTCCGAAGGC ACCAGAGGTG 
AAGCTGCCCA GGGCTCCGGA GGTGCAGCTA AAGGCCACCA AGGCAGAACA GGCAGAAGGG 
ATGGAATTTG GCTTCAAGAT GCCCAAGATG ACCATGCCCA AGCTAGGGAG GGCAGAGTCC 
CCATCACGTG GCAAGCCAGG CGAGGCGGGT GCTGAGGTCT CAGGGAAGCT GGTAACACTT 
CCCTGTCTGC AGCCAGAGGT GGATGGTGAG GCTCATGTGG GTGTCCCCTC TCTCACTCTG 
CCTTCAGTGG AGCTAGACCT GCCAGGAGCA CTTGGCCTGC AGGGGCAGGT CCCAGCCGCT 
AAAATGGGCA AGGGAGAGCG GGTGGAGGGC CCTGAGGTGG CAGCAGGGGT CAGGGAAGTG 
GGCTTCCGAG TGCCCTCTGT TGAAATTGTC ACCCCACAGC TGCCCGCCGT GGAAATTGAG 
GAAGGGCGGC TGGAGATGAT AGAGACAAAA GTCAAGCCCT CTTCCAAGTT CTCCTTACCT 
AAGTTTGGAC TCTCGGGGCC AAAGGTGGCT AAGGCAGAGG CTGAGGGGGC TGGGCGAGCT 
ACCAAGCTGA AGGTATCCAA ATTTGCCATC TCACTCCCCA AGGCTCGGGT GGGGGCTGAG 
GCTGAGGCCA AAGGGGCTGG GGAGGCAGGC CTGCTGCCTG CCCTCGATCT GTCCATCCCA 
CAGCTCAGCC TGGATGCCCA CCTGCCCTCA GGCAAGGTAG AGGTGGCAGG GGCCGACCTC 
AAGTTCAAGG GGCCCAGGTT TGCTCTCCCC AAGTTTGGGG TCAGAGGCCG GGACACTGAG 
GCAGCAGAAC TAGTGCCAGG GGTGGCTGAG TTGGAGGGCA AGGGCTGGGG CTGGGATGGG 
AGGGTGAAGA TGCCCAAGCT GAAGATGCCT TCCTTTGGGC TGGCTCGAGG GAAGGAAGCA 
GAAGTTCAAG GTGATCGTGC CAGCCCGGGG GAAAAGGCTG AGTCCACCGC TGTGCAGCTT 
AAGATCCCCG AGGTGGAGCT GGTCACGCTG GGCGCCCAGG AGGAAGGGAG GGCAGAGGGG 
GCTGTGGCCG TCAGTGGAAT GCAGCTGTCA GGCCTGAAGG TGTCCACAGC CGGGCAGGTG 
GTCACTGAGG GCCATGACGC GGGGCTGAGG ATGCCTCCGC TGGGCATCTC CCTGCCACAG 
GTGGAGCTGA CCGGCTTTGG GGAGGCAGGT ACCCCAGGGC AGCAGGCTCA GAGTACAGTC 
CCTTCAGCAG AGGGCACAGC AGGCTACAGG GTTCAGGTGC CCCAGGTGAC CCTGTCTCTG 
CCTGGAGCCC AGGTTGCAGG TGGTGAGCTG CTGGTGGGTG AGGGTGTCTT TAAGATGCCC 
ACCGTGACAG TGCCCCAGCT TGAGCTGGAC GTGGGGCTAA GCCGAGAGGC ACAGGCGGGC 
GAGGCGGCCA CAGGCGAGGG TGGGCTGAGG CTGAAGTTGC CCACACTGGG GGCCAGAGCT 
AGGGTGGGGG GCGAGGGTGC TGAGGAGCAG CCCCCAGGGG CCGAGCGTAC CTTCTGCCTC 
TCACTGCCCG ACGTGGAGCT CTCGCCATCC GGGGGCAACC ATGCCGAGTA CCAGGTGGCA 
GAGGGGGAGG GAGAGGCCGG ACACAAGCTC AAGGTACGGC TGCCCCGGTT TGGCCTGGTG 
CGGGCCAAGG AGGGGGCCGA GGAGGGTGAG AAGGCCAAGA GCCCCAAACT CAGGCTGCCC 
CGAGTGGGCT TCAGCCAAAG TGAGATGGTC ACTGGGGAAG GGTCCCCCAG CCCCGAGGAG 
GAGGAGGAGG AGGAGGAAGA GGGCAGTGGG GAAGGGGCCT CGGGTCGCCG GGGCCGGGTC 
CGGGTCCGCT TGCCACGTGT AGGCCTGGCG GCCCCTTCTA AAGCCTCTCG GGGGCAGGAG 
GGCGATGCAG CCCCCAAGTC CCCCGTCAGA GAGAAGTCAC CCAAGTTCCG CTTCCCCAGG 
GTGTCCCTAA GCCCCAAGGC CCGGAGTGGG AGTGGGGACC AGGAAGAGGG TGGATTGCGG 
GTGCGGCTGC CCAGCGTGGG GTTTTCAGAG ACAGGGGCTC CAGGCCCGGC CAGGATGGAG 
GGGGCTCAGG CTGCGGCTGT CTGA

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

RefSeq	XP_016882535.1
CDS	523..4806
Translation	MSLRRRWRDCPELGVGLVHPQEQEGEWRDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLNIQSLSPVKKKKMVPGALGVPADLAPVDVEFSFPKFSRLRRGLKAEAVKGPVPAAPARRRLQLPRLRVREVAEEAQAARLAAAAPPPRKAKVEAEVAAGARFTAPQVELVGPRLPGAEVGVPQVSAPKAAPSAEAAGGFALHLPTLGLGAPAPPAVEAPAVGIQVPQVELPALPSLPTLPTLPCLETREGAVSVVVPTLDVAAPTVGVDLALPGAEVEARGEAPEVALKMPRLSFPRFGARAKEVAEAKVAKVSPEARVKGPRLRMPTFGLSLLEPRPAAPEVVESKLKLPTIKMPSLGIGVSGPEVKVPKGPEVKLPKAPEVKLPKVPEAALPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVQLLKVSEMKLPKVPEMAVPEVRLPEVQLPKVSEMKLPEVSEVAVPEVRLPEVQLPKVPEMKVPEMKLPKVPEMKLPEMKLPEVQLPKVPEMAVPDVHLPEVQLPKVPEMKLPEMKLPEVKLPKVPEMAVPDVHLPEVQLPKVPEMKLPKMPEMAVPEVRLPEVQLPKVSEMKLPKVPEMAVPDVHLPEVQLPKVCEMKVPDMKLPEIKLPKVPEMAVPDVHLPEVQLPKVSEIRLPEMQVPKVPDVHLPKAPEVKLPRAPEVQLKATKAEQAEGMEFGFKMPKMTMPKLGRAESPSRGKPGEAGAEVSGKLVTLPCLQPEVDGEAHVGVPSLTLPSVELDLPGALGLQGQVPAAKMGKGERVEGPEVAAGVREVGFRVPSVEIVTPQLPAVEIEEGRLEMIETKVKPSSKFSLPKFGLSGPKVAKAEAEGAGRATKLKVSKFAISLPKARVGAEAEAKGAGEAGLLPALDLSIPQLSLDAHLPSGKVEVAGADLKFKGPRFALPKFGVRGRDTEAAELVPGVAELEGKGWGWDGRVKMPKLKMPSFGLARGKEAEVQGDRASPGEKAESTAVQLKIPEVELVTLGAQEEGRAEGAVAVSGMQLSGLKVSTAGQVVTEGHDAGLRMPPLGISLPQVELTGFGEAGTPGQQAQSTVPSAEGTAGYRVQVPQVTLSLPGAQVAGGELLVGEGVFKMPTVTVPQLELDVGLSREAQAGEAATGEGGLRLKLPTLGARARVGGEGAEEQPPGAERTFCLSLPDVELSPSGGNHAEYQVAEGEGEAGHKLKVRLPRFGLVRAKEGAEEGEKAKSPKLRLPRVGFSQSEMVTGEGSPSPEEEEEEEEEGSGEGASGRRGRVRVRLPRVGLAAPSKASRGQEGDAAPKSPVREKSPKFRFPRVSLSPKARSGSGDQEEGGLRVRLPSVGFSETGAPGPARMEGAQAAAV

Target ORF information:

RefSeq Version	XM_017027046.1
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant X2, mRNA.

Target ORF information:

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

XM_017027046.1

ORF Insert Sequence:

ATGTCCCTGA GAAGGCGGTG GAGAGATTGC CCTGAGCTAG GAGTGGGGTT AGTTCATCCC 
CAGGAACAGG AAGGCGAATG GAGGGACCAG CTGCTGAGTG CCCGAGTGTT CTTCGAGAAC 
TTCAAGTACG AGGACGCACT ACGCCTGCTG CAATGCGCCG AGCCTTACAA AGTCTCCTTC 
TGCCTGAAGC GCACTGTGCC CACCGGGGAC CTGGCTCTGC GGCCCGGGAC CGTGTCTGGC 
TACGAGATCA AGGGCCCGCG GGCCAAGGTG GCCAAGCTGA ACATCCAGAG TCTGTCCCCT 
GTGAAGAAGA AGAAGATGGT GCCTGGGGCT CTGGGGGTCC CCGCTGACCT GGCCCCTGTT 
GACGTCGAGT TCTCCTTTCC CAAGTTCTCC CGCCTGCGTC GGGGCCTCAA AGCCGAGGCT 
GTCAAGGGTC CTGTCCCGGC TGCCCCTGCC CGCCGGCGCC TCCAGCTGCC TCGGCTGCGT 
GTACGAGAAG TGGCCGAAGA GGCTCAGGCA GCCCGGCTGG CCGCCGCCGC TCCTCCCCCC 
AGGAAAGCCA AGGTGGAGGC TGAGGTGGCT GCAGGAGCTC GTTTCACAGC CCCTCAGGTG 
GAGCTGGTTG GGCCGCGGCT GCCAGGGGCG GAGGTGGGTG TCCCCCAGGT CTCAGCCCCC 
AAGGCTGCCC CCTCAGCAGA GGCAGCTGGT GGCTTTGCCC TCCACCTGCC AACCCTTGGG 
CTCGGAGCCC CGGCTCCGCC TGCTGTGGAG GCCCCAGCCG TGGGAATCCA GGTCCCCCAG 
GTGGAGCTGC CTGCCTTGCC CTCACTGCCC ACTCTGCCCA CACTTCCCTG CCTAGAGACC 
CGGGAAGGGG CTGTGTCGGT AGTGGTGCCC ACCCTGGATG TGGCAGCACC GACTGTGGGG 
GTGGACCTGG CCTTGCCGGG TGCAGAGGTG GAGGCCCGGG GAGAGGCACC TGAGGTGGCC 
CTGAAGATGC CCCGCCTTAG TTTTCCCCGA TTTGGGGCTC GAGCAAAGGA AGTTGCTGAG 
GCCAAGGTAG CCAAGGTCAG CCCTGAGGCC AGGGTGAAAG GTCCCAGACT TCGAATGCCC 
ACCTTTGGGC TTTCCCTCTT GGAGCCCCGG CCCGCTGCTC CTGAAGTTGT AGAGAGCAAG 
CTGAAGCTGC CCACCATCAA GATGCCCTCC CTTGGCATCG GAGTGTCAGG GCCCGAGGTC 
AAGGTGCCCA AGGGACCTGA AGTGAAGCTC CCCAAGGCTC CTGAGGTCAA GCTTCCAAAA 
GTGCCCGAGG CAGCCCTTCC AGAGGTTCGA CTCCCAGAGG TGGAGCTCCC CAAGGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
GAGCTGCCCA AAGTGTCAGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCTGAAA GTGTCGGAGA TGAAACTCCC AAAGGTGCCA 
GAGATGGCTG TGCCGGAGGT GCGGCTTCCA GAGGTACAGC TGCCGAAAGT GTCAGAGATG 
AAACTCCCAG AGGTGTCAGA GGTGGCTGTG CCAGAGGTGC GGCTTCCAGA GGTGCAGCTG 
CCGAAAGTGC CAGAGATGAA AGTCCCTGAG ATGAAGCTTC CAAAGGTGCC TGAGATGAAA 
CTTCCTGAGA TGAAACTCCC TGAAGTGCAA CTCCCGAAGG TGCCCGAGAT GGCCGTGCCC 
GATGTGCACC TCCCAGAAGT GCAGCTTCCA AAAGTCCCAG AGATGAAGCT CCCTGAGATG 
AAACTCCCTG AGGTGAAACT CCCGAAGGTG CCCGAGATGG CTGTGCCCGA TGTGCACCTC 
CCGGAAGTGC AGCTCCCGAA AGTCCCAGAG ATGAAACTCC CTAAAATGCC TGAGATGGCT 
GTGCCAGAGG TTCGACTCCC CGAGGTGCAG CTGCCAAAAG TCTCAGAGAT GAAACTCCCC 
AAGGTGCCTG AAATGGCCGT GCCCGATGTG CACCTCCCAG AGGTGCAGCT GCCCAAAGTC 
TGTGAAATGA AAGTCCCTGA CATGAAGCTC CCAGAGATAA AACTCCCCAA GGTGCCTGAG 
ATGGCTGTGC CCGATGTGCA CCTCCCCGAG GTGCAGCTGC CGAAAGTGTC AGAGATTCGG 
CTGCCGGAAA TGCAAGTGCC GAAGGTTCCC GACGTGCATC TTCCGAAGGC ACCAGAGGTG 
AAGCTGCCCA GGGCTCCGGA GGTGCAGCTA AAGGCCACCA AGGCAGAACA GGCAGAAGGG 
ATGGAATTTG GCTTCAAGAT GCCCAAGATG ACCATGCCCA AGCTAGGGAG GGCAGAGTCC 
CCATCACGTG GCAAGCCAGG CGAGGCGGGT GCTGAGGTCT CAGGGAAGCT GGTAACACTT 
CCCTGTCTGC AGCCAGAGGT GGATGGTGAG GCTCATGTGG GTGTCCCCTC TCTCACTCTG 
CCTTCAGTGG AGCTAGACCT GCCAGGAGCA CTTGGCCTGC AGGGGCAGGT CCCAGCCGCT 
AAAATGGGCA AGGGAGAGCG GGTGGAGGGC CCTGAGGTGG CAGCAGGGGT CAGGGAAGTG 
GGCTTCCGAG TGCCCTCTGT TGAAATTGTC ACCCCACAGC TGCCCGCCGT GGAAATTGAG 
GAAGGGCGGC TGGAGATGAT AGAGACAAAA GTCAAGCCCT CTTCCAAGTT CTCCTTACCT 
AAGTTTGGAC TCTCGGGGCC AAAGGTGGCT AAGGCAGAGG CTGAGGGGGC TGGGCGAGCT 
ACCAAGCTGA AGGTATCCAA ATTTGCCATC TCACTCCCCA AGGCTCGGGT GGGGGCTGAG 
GCTGAGGCCA AAGGGGCTGG GGAGGCAGGC CTGCTGCCTG CCCTCGATCT GTCCATCCCA 
CAGCTCAGCC TGGATGCCCA CCTGCCCTCA GGCAAGGTAG AGGTGGCAGG GGCCGACCTC 
AAGTTCAAGG GGCCCAGGTT TGCTCTCCCC AAGTTTGGGG TCAGAGGCCG GGACACTGAG 
GCAGCAGAAC TAGTGCCAGG GGTGGCTGAG TTGGAGGGCA AGGGCTGGGG CTGGGATGGG 
AGGGTGAAGA TGCCCAAGCT GAAGATGCCT TCCTTTGGGC TGGCTCGAGG GAAGGAAGCA 
GAAGTTCAAG GTGATCGTGC CAGCCCGGGG GAAAAGGCTG AGTCCACCGC TGTGCAGCTT 
AAGATCCCCG AGGTGGAGCT GGTCACGCTG GGCGCCCAGG AGGAAGGGAG GGCAGAGGGG 
GCTGTGGCCG TCAGTGGAAT GCAGCTGTCA GGCCTGAAGG TGTCCACAGC CGGGCAGGTG 
GTCACTGAGG GCCATGACGC GGGGCTGAGG ATGCCTCCGC TGGGCATCTC CCTGCCACAG 
GTGGAGCTGA CCGGCTTTGG GGAGGCAGGT ACCCCAGGGC AGCAGGCTCA GAGTACAGTC 
CCTTCAGCAG AGGGCACAGC AGGCTACAGG GTTCAGGTGC CCCAGGTGAC CCTGTCTCTG 
CCTGGAGCCC AGGTTGCAGG TGGTGAGCTG CTGGTGGGTG AGGGTGTCTT TAAGATGCCC 
ACCGTGACAG TGCCCCAGCT TGAGCTGGAC GTGGGGCTAA GCCGAGAGGC ACAGGCGGGC 
GAGGCGGCCA CAGGCGAGGG TGGGCTGAGG CTGAAGTTGC CCACACTGGG GGCCAGAGCT 
AGGGTGGGGG GCGAGGGTGC TGAGGAGCAG CCCCCAGGGG CCGAGCGTAC CTTCTGCCTC 
TCACTGCCCG ACGTGGAGCT CTCGCCATCC GGGGGCAACC ATGCCGAGTA CCAGGTGGCA 
GAGGGGGAGG GAGAGGCCGG ACACAAGCTC AAGGTACGGC TGCCCCGGTT TGGCCTGGTG 
CGGGCCAAGG AGGGGGCCGA GGAGGGTGAG AAGGCCAAGA GCCCCAAACT CAGGCTGCCC 
CGAGTGGGCT TCAGCCAAAG TGAGATGGTC ACTGGGGAAG GGTCCCCCAG CCCCGAGGAG 
GAGGAGGAGG AGGAGGAAGA GGGCAGTGGG GAAGGGGCCT CGGGTCGCCG GGGCCGGGTC 
CGGGTCCGCT TGCCACGTGT AGGCCTGGCG GCCCCTTCTA AAGCCTCTCG GGGGCAGGAG 
GGCGATGCAG CCCCCAAGTC CCCCGTCAGA GAGAAGTCAC CCAAGTTCCG CTTCCCCAGG 
GTGTCCCTAA GCCCCAAGGC CCGGAGTGGG AGTGGGGACC AGGAAGAGGG TGGATTGCGG 
GTGCGGCTGC CCAGCGTGGG GTTTTCAGAG ACAGGGGCTC CAGGCCCGGC CAGGATGGAG 
GGGGCTCAGG CTGCGGCTGT CTGA

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

PRX ( XM_017027047.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882536.1 Homo sapiens periaxin (PRX), transcript variant X3, mRNA.

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CloneID	OHu88599
Clone ID Related Accession (Same CDS sequence)	XM_017027046.1 , XM_017027047.1
Accession Version	XM_017027047.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4284bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	periaxin isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCCTGA GAAGGCGGTG GAGAGATTGC CCTGAGCTAG GAGTGGGGTT AGTTCATCCC 
CAGGAACAGG AAGGCGAATG GAGGGACCAG CTGCTGAGTG CCCGAGTGTT CTTCGAGAAC 
TTCAAGTACG AGGACGCACT ACGCCTGCTG CAATGCGCCG AGCCTTACAA AGTCTCCTTC 
TGCCTGAAGC GCACTGTGCC CACCGGGGAC CTGGCTCTGC GGCCCGGGAC CGTGTCTGGC 
TACGAGATCA AGGGCCCGCG GGCCAAGGTG GCCAAGCTGA ACATCCAGAG TCTGTCCCCT 
GTGAAGAAGA AGAAGATGGT GCCTGGGGCT CTGGGGGTCC CCGCTGACCT GGCCCCTGTT 
GACGTCGAGT TCTCCTTTCC CAAGTTCTCC CGCCTGCGTC GGGGCCTCAA AGCCGAGGCT 
GTCAAGGGTC CTGTCCCGGC TGCCCCTGCC CGCCGGCGCC TCCAGCTGCC TCGGCTGCGT 
GTACGAGAAG TGGCCGAAGA GGCTCAGGCA GCCCGGCTGG CCGCCGCCGC TCCTCCCCCC 
AGGAAAGCCA AGGTGGAGGC TGAGGTGGCT GCAGGAGCTC GTTTCACAGC CCCTCAGGTG 
GAGCTGGTTG GGCCGCGGCT GCCAGGGGCG GAGGTGGGTG TCCCCCAGGT CTCAGCCCCC 
AAGGCTGCCC CCTCAGCAGA GGCAGCTGGT GGCTTTGCCC TCCACCTGCC AACCCTTGGG 
CTCGGAGCCC CGGCTCCGCC TGCTGTGGAG GCCCCAGCCG TGGGAATCCA GGTCCCCCAG 
GTGGAGCTGC CTGCCTTGCC CTCACTGCCC ACTCTGCCCA CACTTCCCTG CCTAGAGACC 
CGGGAAGGGG CTGTGTCGGT AGTGGTGCCC ACCCTGGATG TGGCAGCACC GACTGTGGGG 
GTGGACCTGG CCTTGCCGGG TGCAGAGGTG GAGGCCCGGG GAGAGGCACC TGAGGTGGCC 
CTGAAGATGC CCCGCCTTAG TTTTCCCCGA TTTGGGGCTC GAGCAAAGGA AGTTGCTGAG 
GCCAAGGTAG CCAAGGTCAG CCCTGAGGCC AGGGTGAAAG GTCCCAGACT TCGAATGCCC 
ACCTTTGGGC TTTCCCTCTT GGAGCCCCGG CCCGCTGCTC CTGAAGTTGT AGAGAGCAAG 
CTGAAGCTGC CCACCATCAA GATGCCCTCC CTTGGCATCG GAGTGTCAGG GCCCGAGGTC 
AAGGTGCCCA AGGGACCTGA AGTGAAGCTC CCCAAGGCTC CTGAGGTCAA GCTTCCAAAA 
GTGCCCGAGG CAGCCCTTCC AGAGGTTCGA CTCCCAGAGG TGGAGCTCCC CAAGGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
GAGCTGCCCA AAGTGTCAGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCTGAAA GTGTCGGAGA TGAAACTCCC AAAGGTGCCA 
GAGATGGCTG TGCCGGAGGT GCGGCTTCCA GAGGTACAGC TGCCGAAAGT GTCAGAGATG 
AAACTCCCAG AGGTGTCAGA GGTGGCTGTG CCAGAGGTGC GGCTTCCAGA GGTGCAGCTG 
CCGAAAGTGC CAGAGATGAA AGTCCCTGAG ATGAAGCTTC CAAAGGTGCC TGAGATGAAA 
CTTCCTGAGA TGAAACTCCC TGAAGTGCAA CTCCCGAAGG TGCCCGAGAT GGCCGTGCCC 
GATGTGCACC TCCCAGAAGT GCAGCTTCCA AAAGTCCCAG AGATGAAGCT CCCTGAGATG 
AAACTCCCTG AGGTGAAACT CCCGAAGGTG CCCGAGATGG CTGTGCCCGA TGTGCACCTC 
CCGGAAGTGC AGCTCCCGAA AGTCCCAGAG ATGAAACTCC CTAAAATGCC TGAGATGGCT 
GTGCCAGAGG TTCGACTCCC CGAGGTGCAG CTGCCAAAAG TCTCAGAGAT GAAACTCCCC 
AAGGTGCCTG AAATGGCCGT GCCCGATGTG CACCTCCCAG AGGTGCAGCT GCCCAAAGTC 
TGTGAAATGA AAGTCCCTGA CATGAAGCTC CCAGAGATAA AACTCCCCAA GGTGCCTGAG 
ATGGCTGTGC CCGATGTGCA CCTCCCCGAG GTGCAGCTGC CGAAAGTGTC AGAGATTCGG 
CTGCCGGAAA TGCAAGTGCC GAAGGTTCCC GACGTGCATC TTCCGAAGGC ACCAGAGGTG 
AAGCTGCCCA GGGCTCCGGA GGTGCAGCTA AAGGCCACCA AGGCAGAACA GGCAGAAGGG 
ATGGAATTTG GCTTCAAGAT GCCCAAGATG ACCATGCCCA AGCTAGGGAG GGCAGAGTCC 
CCATCACGTG GCAAGCCAGG CGAGGCGGGT GCTGAGGTCT CAGGGAAGCT GGTAACACTT 
CCCTGTCTGC AGCCAGAGGT GGATGGTGAG GCTCATGTGG GTGTCCCCTC TCTCACTCTG 
CCTTCAGTGG AGCTAGACCT GCCAGGAGCA CTTGGCCTGC AGGGGCAGGT CCCAGCCGCT 
AAAATGGGCA AGGGAGAGCG GGTGGAGGGC CCTGAGGTGG CAGCAGGGGT CAGGGAAGTG 
GGCTTCCGAG TGCCCTCTGT TGAAATTGTC ACCCCACAGC TGCCCGCCGT GGAAATTGAG 
GAAGGGCGGC TGGAGATGAT AGAGACAAAA GTCAAGCCCT CTTCCAAGTT CTCCTTACCT 
AAGTTTGGAC TCTCGGGGCC AAAGGTGGCT AAGGCAGAGG CTGAGGGGGC TGGGCGAGCT 
ACCAAGCTGA AGGTATCCAA ATTTGCCATC TCACTCCCCA AGGCTCGGGT GGGGGCTGAG 
GCTGAGGCCA AAGGGGCTGG GGAGGCAGGC CTGCTGCCTG CCCTCGATCT GTCCATCCCA 
CAGCTCAGCC TGGATGCCCA CCTGCCCTCA GGCAAGGTAG AGGTGGCAGG GGCCGACCTC 
AAGTTCAAGG GGCCCAGGTT TGCTCTCCCC AAGTTTGGGG TCAGAGGCCG GGACACTGAG 
GCAGCAGAAC TAGTGCCAGG GGTGGCTGAG TTGGAGGGCA AGGGCTGGGG CTGGGATGGG 
AGGGTGAAGA TGCCCAAGCT GAAGATGCCT TCCTTTGGGC TGGCTCGAGG GAAGGAAGCA 
GAAGTTCAAG GTGATCGTGC CAGCCCGGGG GAAAAGGCTG AGTCCACCGC TGTGCAGCTT 
AAGATCCCCG AGGTGGAGCT GGTCACGCTG GGCGCCCAGG AGGAAGGGAG GGCAGAGGGG 
GCTGTGGCCG TCAGTGGAAT GCAGCTGTCA GGCCTGAAGG TGTCCACAGC CGGGCAGGTG 
GTCACTGAGG GCCATGACGC GGGGCTGAGG ATGCCTCCGC TGGGCATCTC CCTGCCACAG 
GTGGAGCTGA CCGGCTTTGG GGAGGCAGGT ACCCCAGGGC AGCAGGCTCA GAGTACAGTC 
CCTTCAGCAG AGGGCACAGC AGGCTACAGG GTTCAGGTGC CCCAGGTGAC CCTGTCTCTG 
CCTGGAGCCC AGGTTGCAGG TGGTGAGCTG CTGGTGGGTG AGGGTGTCTT TAAGATGCCC 
ACCGTGACAG TGCCCCAGCT TGAGCTGGAC GTGGGGCTAA GCCGAGAGGC ACAGGCGGGC 
GAGGCGGCCA CAGGCGAGGG TGGGCTGAGG CTGAAGTTGC CCACACTGGG GGCCAGAGCT 
AGGGTGGGGG GCGAGGGTGC TGAGGAGCAG CCCCCAGGGG CCGAGCGTAC CTTCTGCCTC 
TCACTGCCCG ACGTGGAGCT CTCGCCATCC GGGGGCAACC ATGCCGAGTA CCAGGTGGCA 
GAGGGGGAGG GAGAGGCCGG ACACAAGCTC AAGGTACGGC TGCCCCGGTT TGGCCTGGTG 
CGGGCCAAGG AGGGGGCCGA GGAGGGTGAG AAGGCCAAGA GCCCCAAACT CAGGCTGCCC 
CGAGTGGGCT TCAGCCAAAG TGAGATGGTC ACTGGGGAAG GGTCCCCCAG CCCCGAGGAG 
GAGGAGGAGG AGGAGGAAGA GGGCAGTGGG GAAGGGGCCT CGGGTCGCCG GGGCCGGGTC 
CGGGTCCGCT TGCCACGTGT AGGCCTGGCG GCCCCTTCTA AAGCCTCTCG GGGGCAGGAG 
GGCGATGCAG CCCCCAAGTC CCCCGTCAGA GAGAAGTCAC CCAAGTTCCG CTTCCCCAGG 
GTGTCCCTAA GCCCCAAGGC CCGGAGTGGG AGTGGGGACC AGGAAGAGGG TGGATTGCGG 
GTGCGGCTGC CCAGCGTGGG GTTTTCAGAG ACAGGGGCTC CAGGCCCGGC CAGGATGGAG 
GGGGCTCAGG CTGCGGCTGT CTGA

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

RefSeq	XP_016882536.1
CDS	66..4349
Translation	MSLRRRWRDCPELGVGLVHPQEQEGEWRDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVPTGDLALRPGTVSGYEIKGPRAKVAKLNIQSLSPVKKKKMVPGALGVPADLAPVDVEFSFPKFSRLRRGLKAEAVKGPVPAAPARRRLQLPRLRVREVAEEAQAARLAAAAPPPRKAKVEAEVAAGARFTAPQVELVGPRLPGAEVGVPQVSAPKAAPSAEAAGGFALHLPTLGLGAPAPPAVEAPAVGIQVPQVELPALPSLPTLPTLPCLETREGAVSVVVPTLDVAAPTVGVDLALPGAEVEARGEAPEVALKMPRLSFPRFGARAKEVAEAKVAKVSPEARVKGPRLRMPTFGLSLLEPRPAAPEVVESKLKLPTIKMPSLGIGVSGPEVKVPKGPEVKLPKAPEVKLPKVPEAALPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVELPKVSEMKLPKVPEMAVPEVRLPEVQLLKVSEMKLPKVPEMAVPEVRLPEVQLPKVSEMKLPEVSEVAVPEVRLPEVQLPKVPEMKVPEMKLPKVPEMKLPEMKLPEVQLPKVPEMAVPDVHLPEVQLPKVPEMKLPEMKLPEVKLPKVPEMAVPDVHLPEVQLPKVPEMKLPKMPEMAVPEVRLPEVQLPKVSEMKLPKVPEMAVPDVHLPEVQLPKVCEMKVPDMKLPEIKLPKVPEMAVPDVHLPEVQLPKVSEIRLPEMQVPKVPDVHLPKAPEVKLPRAPEVQLKATKAEQAEGMEFGFKMPKMTMPKLGRAESPSRGKPGEAGAEVSGKLVTLPCLQPEVDGEAHVGVPSLTLPSVELDLPGALGLQGQVPAAKMGKGERVEGPEVAAGVREVGFRVPSVEIVTPQLPAVEIEEGRLEMIETKVKPSSKFSLPKFGLSGPKVAKAEAEGAGRATKLKVSKFAISLPKARVGAEAEAKGAGEAGLLPALDLSIPQLSLDAHLPSGKVEVAGADLKFKGPRFALPKFGVRGRDTEAAELVPGVAELEGKGWGWDGRVKMPKLKMPSFGLARGKEAEVQGDRASPGEKAESTAVQLKIPEVELVTLGAQEEGRAEGAVAVSGMQLSGLKVSTAGQVVTEGHDAGLRMPPLGISLPQVELTGFGEAGTPGQQAQSTVPSAEGTAGYRVQVPQVTLSLPGAQVAGGELLVGEGVFKMPTVTVPQLELDVGLSREAQAGEAATGEGGLRLKLPTLGARARVGGEGAEEQPPGAERTFCLSLPDVELSPSGGNHAEYQVAEGEGEAGHKLKVRLPRFGLVRAKEGAEEGEKAKSPKLRLPRVGFSQSEMVTGEGSPSPEEEEEEEEEGSGEGASGRRGRVRVRLPRVGLAAPSKASRGQEGDAAPKSPVREKSPKFRFPRVSLSPKARSGSGDQEEGGLRVRLPSVGFSETGAPGPARMEGAQAAAV

Target ORF information:

RefSeq Version	XM_017027047.1
Organism	Homo sapiens(human)
Definition	Homo sapiens periaxin (PRX), transcript variant X3, mRNA.

Target ORF information:

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

XM_017027047.1

ORF Insert Sequence:

ATGTCCCTGA GAAGGCGGTG GAGAGATTGC CCTGAGCTAG GAGTGGGGTT AGTTCATCCC 
CAGGAACAGG AAGGCGAATG GAGGGACCAG CTGCTGAGTG CCCGAGTGTT CTTCGAGAAC 
TTCAAGTACG AGGACGCACT ACGCCTGCTG CAATGCGCCG AGCCTTACAA AGTCTCCTTC 
TGCCTGAAGC GCACTGTGCC CACCGGGGAC CTGGCTCTGC GGCCCGGGAC CGTGTCTGGC 
TACGAGATCA AGGGCCCGCG GGCCAAGGTG GCCAAGCTGA ACATCCAGAG TCTGTCCCCT 
GTGAAGAAGA AGAAGATGGT GCCTGGGGCT CTGGGGGTCC CCGCTGACCT GGCCCCTGTT 
GACGTCGAGT TCTCCTTTCC CAAGTTCTCC CGCCTGCGTC GGGGCCTCAA AGCCGAGGCT 
GTCAAGGGTC CTGTCCCGGC TGCCCCTGCC CGCCGGCGCC TCCAGCTGCC TCGGCTGCGT 
GTACGAGAAG TGGCCGAAGA GGCTCAGGCA GCCCGGCTGG CCGCCGCCGC TCCTCCCCCC 
AGGAAAGCCA AGGTGGAGGC TGAGGTGGCT GCAGGAGCTC GTTTCACAGC CCCTCAGGTG 
GAGCTGGTTG GGCCGCGGCT GCCAGGGGCG GAGGTGGGTG TCCCCCAGGT CTCAGCCCCC 
AAGGCTGCCC CCTCAGCAGA GGCAGCTGGT GGCTTTGCCC TCCACCTGCC AACCCTTGGG 
CTCGGAGCCC CGGCTCCGCC TGCTGTGGAG GCCCCAGCCG TGGGAATCCA GGTCCCCCAG 
GTGGAGCTGC CTGCCTTGCC CTCACTGCCC ACTCTGCCCA CACTTCCCTG CCTAGAGACC 
CGGGAAGGGG CTGTGTCGGT AGTGGTGCCC ACCCTGGATG TGGCAGCACC GACTGTGGGG 
GTGGACCTGG CCTTGCCGGG TGCAGAGGTG GAGGCCCGGG GAGAGGCACC TGAGGTGGCC 
CTGAAGATGC CCCGCCTTAG TTTTCCCCGA TTTGGGGCTC GAGCAAAGGA AGTTGCTGAG 
GCCAAGGTAG CCAAGGTCAG CCCTGAGGCC AGGGTGAAAG GTCCCAGACT TCGAATGCCC 
ACCTTTGGGC TTTCCCTCTT GGAGCCCCGG CCCGCTGCTC CTGAAGTTGT AGAGAGCAAG 
CTGAAGCTGC CCACCATCAA GATGCCCTCC CTTGGCATCG GAGTGTCAGG GCCCGAGGTC 
AAGGTGCCCA AGGGACCTGA AGTGAAGCTC CCCAAGGCTC CTGAGGTCAA GCTTCCAAAA 
GTGCCCGAGG CAGCCCTTCC AGAGGTTCGA CTCCCAGAGG TGGAGCTCCC CAAGGTGTCA 
GAGATGAAAC TCCCAAAGGT GCCAGAGATG GCTGTGCCGG AGGTGCGGCT TCCAGAGGTA 
GAGCTGCCCA AAGTGTCAGA GATGAAACTC CCAAAGGTGC CAGAGATGGC TGTGCCGGAG 
GTGCGGCTTC CAGAGGTACA GCTGCTGAAA GTGTCGGAGA TGAAACTCCC AAAGGTGCCA 
GAGATGGCTG TGCCGGAGGT GCGGCTTCCA GAGGTACAGC TGCCGAAAGT GTCAGAGATG 
AAACTCCCAG AGGTGTCAGA GGTGGCTGTG CCAGAGGTGC GGCTTCCAGA GGTGCAGCTG 
CCGAAAGTGC CAGAGATGAA AGTCCCTGAG ATGAAGCTTC CAAAGGTGCC TGAGATGAAA 
CTTCCTGAGA TGAAACTCCC TGAAGTGCAA CTCCCGAAGG TGCCCGAGAT GGCCGTGCCC 
GATGTGCACC TCCCAGAAGT GCAGCTTCCA AAAGTCCCAG AGATGAAGCT CCCTGAGATG 
AAACTCCCTG AGGTGAAACT CCCGAAGGTG CCCGAGATGG CTGTGCCCGA TGTGCACCTC 
CCGGAAGTGC AGCTCCCGAA AGTCCCAGAG ATGAAACTCC CTAAAATGCC TGAGATGGCT 
GTGCCAGAGG TTCGACTCCC CGAGGTGCAG CTGCCAAAAG TCTCAGAGAT GAAACTCCCC 
AAGGTGCCTG AAATGGCCGT GCCCGATGTG CACCTCCCAG AGGTGCAGCT GCCCAAAGTC 
TGTGAAATGA AAGTCCCTGA CATGAAGCTC CCAGAGATAA AACTCCCCAA GGTGCCTGAG 
ATGGCTGTGC CCGATGTGCA CCTCCCCGAG GTGCAGCTGC CGAAAGTGTC AGAGATTCGG 
CTGCCGGAAA TGCAAGTGCC GAAGGTTCCC GACGTGCATC TTCCGAAGGC ACCAGAGGTG 
AAGCTGCCCA GGGCTCCGGA GGTGCAGCTA AAGGCCACCA AGGCAGAACA GGCAGAAGGG 
ATGGAATTTG GCTTCAAGAT GCCCAAGATG ACCATGCCCA AGCTAGGGAG GGCAGAGTCC 
CCATCACGTG GCAAGCCAGG CGAGGCGGGT GCTGAGGTCT CAGGGAAGCT GGTAACACTT 
CCCTGTCTGC AGCCAGAGGT GGATGGTGAG GCTCATGTGG GTGTCCCCTC TCTCACTCTG 
CCTTCAGTGG AGCTAGACCT GCCAGGAGCA CTTGGCCTGC AGGGGCAGGT CCCAGCCGCT 
AAAATGGGCA AGGGAGAGCG GGTGGAGGGC CCTGAGGTGG CAGCAGGGGT CAGGGAAGTG 
GGCTTCCGAG TGCCCTCTGT TGAAATTGTC ACCCCACAGC TGCCCGCCGT GGAAATTGAG 
GAAGGGCGGC TGGAGATGAT AGAGACAAAA GTCAAGCCCT CTTCCAAGTT CTCCTTACCT 
AAGTTTGGAC TCTCGGGGCC AAAGGTGGCT AAGGCAGAGG CTGAGGGGGC TGGGCGAGCT 
ACCAAGCTGA AGGTATCCAA ATTTGCCATC TCACTCCCCA AGGCTCGGGT GGGGGCTGAG 
GCTGAGGCCA AAGGGGCTGG GGAGGCAGGC CTGCTGCCTG CCCTCGATCT GTCCATCCCA 
CAGCTCAGCC TGGATGCCCA CCTGCCCTCA GGCAAGGTAG AGGTGGCAGG GGCCGACCTC 
AAGTTCAAGG GGCCCAGGTT TGCTCTCCCC AAGTTTGGGG TCAGAGGCCG GGACACTGAG 
GCAGCAGAAC TAGTGCCAGG GGTGGCTGAG TTGGAGGGCA AGGGCTGGGG CTGGGATGGG 
AGGGTGAAGA TGCCCAAGCT GAAGATGCCT TCCTTTGGGC TGGCTCGAGG GAAGGAAGCA 
GAAGTTCAAG GTGATCGTGC CAGCCCGGGG GAAAAGGCTG AGTCCACCGC TGTGCAGCTT 
AAGATCCCCG AGGTGGAGCT GGTCACGCTG GGCGCCCAGG AGGAAGGGAG GGCAGAGGGG 
GCTGTGGCCG TCAGTGGAAT GCAGCTGTCA GGCCTGAAGG TGTCCACAGC CGGGCAGGTG 
GTCACTGAGG GCCATGACGC GGGGCTGAGG ATGCCTCCGC TGGGCATCTC CCTGCCACAG 
GTGGAGCTGA CCGGCTTTGG GGAGGCAGGT ACCCCAGGGC AGCAGGCTCA GAGTACAGTC 
CCTTCAGCAG AGGGCACAGC AGGCTACAGG GTTCAGGTGC CCCAGGTGAC CCTGTCTCTG 
CCTGGAGCCC AGGTTGCAGG TGGTGAGCTG CTGGTGGGTG AGGGTGTCTT TAAGATGCCC 
ACCGTGACAG TGCCCCAGCT TGAGCTGGAC GTGGGGCTAA GCCGAGAGGC ACAGGCGGGC 
GAGGCGGCCA CAGGCGAGGG TGGGCTGAGG CTGAAGTTGC CCACACTGGG GGCCAGAGCT 
AGGGTGGGGG GCGAGGGTGC TGAGGAGCAG CCCCCAGGGG CCGAGCGTAC CTTCTGCCTC 
TCACTGCCCG ACGTGGAGCT CTCGCCATCC GGGGGCAACC ATGCCGAGTA CCAGGTGGCA 
GAGGGGGAGG GAGAGGCCGG ACACAAGCTC AAGGTACGGC TGCCCCGGTT TGGCCTGGTG 
CGGGCCAAGG AGGGGGCCGA GGAGGGTGAG AAGGCCAAGA GCCCCAAACT CAGGCTGCCC 
CGAGTGGGCT TCAGCCAAAG TGAGATGGTC ACTGGGGAAG GGTCCCCCAG CCCCGAGGAG 
GAGGAGGAGG AGGAGGAAGA GGGCAGTGGG GAAGGGGCCT CGGGTCGCCG GGGCCGGGTC 
CGGGTCCGCT TGCCACGTGT AGGCCTGGCG GCCCCTTCTA AAGCCTCTCG GGGGCAGGAG 
GGCGATGCAG CCCCCAAGTC CCCCGTCAGA GAGAAGTCAC CCAAGTTCCG CTTCCCCAGG 
GTGTCCCTAA GCCCCAAGGC CCGGAGTGGG AGTGGGGACC AGGAAGAGGG TGGATTGCGG 
GTGCGGCTGC CCAGCGTGGG GTTTTCAGAG ACAGGGGCTC CAGGCCCGGC CAGGATGGAG 
GGGGCTCAGG CTGCGGCTGT CTGA

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

PubMed

Identification of a PRX variant in a Chinese family with congenital cataract by exome sequencing.
QJM : monthly journal of the Association of Physicians109(11)731-735(2016 Nov)
Yuan L,Yi J,Lin Q,Xu H,Deng X,Xiong W,Xiao J,Jiang C,Yuan X,Chen Y,Deng H

Intermolecular disulfide bond in the dimerization of S-periaxin mediated by Cys88 and Cys139.
Acta biochimica et biophysica Sinica48(4)326-33(2016 Apr)
Yang Y,Ren Y,Shi Y

The use of whole-exome sequencing to disentangle complex phenotypes.
European journal of human genetics : EJHG24(2)298-301(2016 Feb)
Williams HJ,Hurst JR,Ocaka L,James C,Pao C,Chanudet E,Lescai F,Stanescu HC,Kleta R,,Rosser E,Bacchelli C,Beales P

Nuclear export of L-periaxin, mediated by its nuclear export signal in the PDZ domain.
PloS one9(3)e91953(2014)
Shi Y,Zhang L,Yang T

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PRX cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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