XRRA1 cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	XRRA1
Entrez Gene ID	107287023
Full Name	X-ray radiation resistance associated 1
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_015815473.1	XP_015670959.1	X-ray radiation resistance-associated protein 1

Pathways from BioSystems
Gene Ontology

The following XRRA1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XRRA1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OPr29810	XM_015815473.1 Latest version!	Protobothrops mucrosquamatus X-ray radiation resistance associated 1 (XRRA1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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

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

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

Reference Sequences (Refseq)

XRRA1 ( XM_015815473.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015670959.1 Protobothrops mucrosquamatus X-ray radiation resistance associated 1 (XRRA1), mRNA.

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CloneID	OPr29810
Clone ID Related Accession (Same CDS sequence)	XM_015815473.1
Accession Version	XM_015815473.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3069bp) 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	2016-03-01
Organism	Protobothrops mucrosquamatus
Product	X-ray radiation resistance-associated protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386681.1) 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 :: Protobothrops mucrosquamatus Annotation Release 100 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## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases ##RefSeq-Attributes-END##

ATGGCATCGC TGTATAAACT GGATGATGGA CAGTGTTACC CCACCAATTG CTTCCCAGCT 
AAAAGCCTTC TGCAGCCTCG ATCCGAAGAA GGCGCCGGCC ACTGGCAGGT GGCTCGTCAT 
AATGTGGAGA AAACCAAGAT CGAATGGCTG TTTGGCACAA GGGCCGCCCA GCAGAGCTGG 
CAAGACTGTT GGTGGAAAGC GCAGGTGCCC AGGGCCGAGA AAATCCTCAA TAGGGCCCAG 
CTGCTGAAGC TCCACCCCGT GAAGAAGCCC TCTGACTTGT GCTCAGTGAA TATCAGCCAC 
CGGAATTTTG CCTTGGCAAG GGAAAGCGAC TTTGTGCAGT TTGATTCTGT CGCCTACATC 
AACGCCACTG AAAACCTGCT GACTTTAGAA ACGTTTCGTA ACTTTCCTGG CCTCCGGGAA 
CTGGAACTGT CTCTGAACGG TCTGAGAAAC CTTAAAGTCA GAATTGGAGA CTTTCCCCAC 
TTGGAATTCT CCAAGAAACG GAAGGCGAAG GAGAGCTGCC CAAAATTCCC AGCGTTGGAG 
GTCTTGCTTC TTGATGACAA TCATCTTTCC GACTCCAGTG TCTTCGTCAG TTTGGCCAAT 
CTTCGAAGGC TAAAGCAGCT GAACTTGGAC AAAAACAGAA TTAAAGAGGT CCCCTATCTC 
CATTACGTGA GCGACAATCA CTTCTCCATC CATCCTTTAT CGGCAAAGTC GGGCATCCGG 
GCAGGCTTAC ATTGCCGGAA GAACGCCCCC CAAAAGCCAC ACCAGGATCA GTCCCCAAGG 
CTACACCAGC AGTACAGTTA CATTATTACA CAAAACACCC AGGATCCCGA CAAGACAGAA 
GTCGTCTTTC AGACGAGACC TCCGGAAGAA ACGGCTCAGG AAAGGTCTCC TTCACCGCTT 
GAGGATCCCA AGGTCCCTTG TGCCAGCATC CACACGGAAT TCCTCCTTCC CTTACCGGAG 
CTGAGATTTC TCAGCCTTGC CAACAATCAG ATCGAGCACG AAGAAGACTT GCTGGCCGTG 
GCTCTCTTCC CCTCCCTGGC GGAGCTGACC TTCTACGGCA ACCCGTTCAC CACGTCCAGA 
AGCGGTGACC CACCACTGCT CACCAGCTTC CTTCAAAACA AACTTGGAAT TAAACTGGTT 
CGGAAAAAGA TTCCCAAGCT GGAGAAGCCA CGCATTTTTA TACCCGTCAA AGCGAACCGG 
GAGATCAAAT CCCGGCTACC TAAGGTCCGA AAGCGCCCCC TGCCGGCCGA GACAGCCGTG 
GAGACCACCT TCTGGCAGCT GTGGACGGGA TCCGAGCTGG ATCCGAGTAA AAGACTCAGT 
TCCGAAGATC TTCCGGAGAG CTCGTCCTTT TCTCTCGCCT ACGATCCTGA TCGGCCCATC 
CTAGCTCCTC TTCGGCGCGA GGAGATGTCC ACCTCTCTGA CCACTGTATA CACTGAAGCC 
TTGAGCCCGG GGTACTCCCA GGAGGAGATG TCCCGAGACA GCGAAGTTTC CTGCGAGTCT 
TCCGTAGATC AGATCCTGGC TGGTAAAGTT CCTGCGTCTC GGTCCTTGTC GGGACAAAGT 
CCTTCCGAAG TTCTTCGCCC GCCCTCCGGA TCGGCTTCAC GAGGACCGTC TGGGTTGCCC 
CCGATCATAG AGTCGCCTTC ATCAGACCAG GTTCTGTCTG AGGCACTAGC TCTACCAGAG 
AACCTGTCAG AATTTGTCCC GTACACGTGG ACATCTCCAG GAGAACATCC AGCAGAGCTA 
CGGTGGGAAC TCGTCGCCCC TCCAAACTCG CCTTCGGAGG GACAGAGCGA GTCGGAACTT 
GTTCAGGTTG TTGGACCAGA AGAAGAAGAA GGAGAAGGAG AAGATAGACC CAAGACTCTT 
GTCTCCACCG CTTCTGGCGC AGAGCCTACT CTGTCGGCGT CCGCGACGAC GTCTTTGCCG 
GAAGGGAAAG GAAGCGAACC GTTGGTATCG TCTGAAGGTG GCCTTGGAGA AGACTTGGGG 
GTGTCTCCTT CCCCGCCAGG AGAATCCTCT GCAGAAGATG AAGATCTGCA GGAATCCATG 
CCCATCTCCT TCCCCAGTGG GGAGGACGGG GGCCTCCCAG AAGCCGCCTT GCCCACCATT 
TCTTCGGAAG AAGACGAAGA TCAAGAGGAA CCTTCTCAAC TTCCCACCTC GGGCTTCCAA 
GATATGAATC TCTTGGCGTC TTCCGAGGAA GAGGAGCAGC CTGGACCTCC AAGCCCTCCT 
CTTGTGGACC GTGGCCAGGA GCAGAGCCTG ACCTTGGAGG ATTCGTCCCC GGGGCCAACG 
TCTTCGCAAC CACTGGTCCC AGCCTCCCGA TCCGTGTCCG GAGAGCTCTG CGGACTCTTT 
GCCGAGATCC AGTCCTACGC CTTGCCTCCG GAACCGGAAG AGGAGGAGGA GGAGGACACG 
TCCGCGGCGG AGGAGGTGCT GACGAGTAGC AGGGAAGGGA TCACCGAGCC CATCTTCATC 
ACTCAGGTAG ACGAATCGCT GGATTCCCGG GGGACGCGGC TGAGCCCCCC CGTGCCGGAG 
AAGTTGAGGG GCTACGAAGA TCTGCTCGGA GGAGACCCCG GCTCAGATTT TGTTGAGCCA 
AACGGGATAC AGCAGAACGT CCAGGCTTTG GAGAAGGCCC TTCGCTACCC TCTGGTCTAC 
CGCGACCCCA AGGCCAGGCT GGACCGCTAC CAGAAGCCTT ACGTCTCTGC CCGAAAGAAG 
GTCTTGAGGG TCCCTACGCC GAAGCCTCGG AAGAGCAGAA TGGAACGGCT GGAAGAAATC 
CTGCTGGAGC TGAGGAAGCC CACGAACATT GTCCACATCC CGCTAGTGTG CGTCTTGCGG 
AGGAGGAAGG AGAATTGGCG GGAATACCGG GAAGCTTTAG AACTCCTGAA GGAGTTTCAG 
AAAGATTACA AAGCCGAGGT AGCCATTCGT AACAAGATCG GCGAATCCAA GAAGGCTGCT 
CAGGATCAGG TTCGTGAAGC TGATGTGAAG ATCCAAAGTC TTCCTGAGGT CAAGGCGAGG 
AGAAAGCTAG ACGAGACCTC TGTCCAGGTC CTTCAAGAGA AGAACGACTC CCTTCCATCC 
AACCAATAA

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

RefSeq	XP_015670959.1
CDS	1..3069
Translation	MASLYKLDDGQCYPTNCFPAKSLLQPRSEEGAGHWQVARHNVEKTKIEWLFGTRAAQQSWQDCWWKAQVPRAEKILNRAQLLKLHPVKKPSDLCSVNISHRNFALARESDFVQFDSVAYINATENLLTLETFRNFPGLRELELSLNGLRNLKVRIGDFPHLEFSKKRKAKESCPKFPALEVLLLDDNHLSDSSVFVSLANLRRLKQLNLDKNRIKEVPYLHYVSDNHFSIHPLSAKSGIRAGLHCRKNAPQKPHQDQSPRLHQQYSYIITQNTQDPDKTEVVFQTRPPEETAQERSPSPLEDPKVPCASIHTEFLLPLPELRFLSLANNQIEHEEDLLAVALFPSLAELTFYGNPFTTSRSGDPPLLTSFLQNKLGIKLVRKKIPKLEKPRIFIPVKANREIKSRLPKVRKRPLPAETAVETTFWQLWTGSELDPSKRLSSEDLPESSSFSLAYDPDRPILAPLRREEMSTSLTTVYTEALSPGYSQEEMSRDSEVSCESSVDQILAGKVPASRSLSGQSPSEVLRPPSGSASRGPSGLPPIIESPSSDQVLSEALALPENLSEFVPYTWTSPGEHPAELRWELVAPPNSPSEGQSESELVQVVGPEEEEGEGEDRPKTLVSTASGAEPTLSASATTSLPEGKGSEPLVSSEGGLGEDLGVSPSPPGESSAEDEDLQESMPISFPSGEDGGLPEAALPTISSEEDEDQEEPSQLPTSGFQDMNLLASSEEEEQPGPPSPPLVDRGQEQSLTLEDSSPGPTSSQPLVPASRSVSGELCGLFAEIQSYALPPEPEEEEEEDTSAAEEVLTSSREGITEPIFITQVDESLDSRGTRLSPPVPEKLRGYEDLLGGDPGSDFVEPNGIQQNVQALEKALRYPLVYRDPKARLDRYQKPYVSARKKVLRVPTPKPRKSRMERLEEILLELRKPTNIVHIPLVCVLRRRKENWREYREALELLKEFQKDYKAEVAIRNKIGESKKAAQDQVREADVKIQSLPEVKARRKLDETSVQVLQEKNDSLPSNQ

Target ORF information:

RefSeq Version	XM_015815473.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus X-ray radiation resistance associated 1 (XRRA1), mRNA.

Target ORF information:

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

XM_015815473.1

ORF Insert Sequence:

ATGGCATCGC TGTATAAACT GGATGATGGA CAGTGTTACC CCACCAATTG CTTCCCAGCT 
AAAAGCCTTC TGCAGCCTCG ATCCGAAGAA GGCGCCGGCC ACTGGCAGGT GGCTCGTCAT 
AATGTGGAGA AAACCAAGAT CGAATGGCTG TTTGGCACAA GGGCCGCCCA GCAGAGCTGG 
CAAGACTGTT GGTGGAAAGC GCAGGTGCCC AGGGCCGAGA AAATCCTCAA TAGGGCCCAG 
CTGCTGAAGC TCCACCCCGT GAAGAAGCCC TCTGACTTGT GCTCAGTGAA TATCAGCCAC 
CGGAATTTTG CCTTGGCAAG GGAAAGCGAC TTTGTGCAGT TTGATTCTGT CGCCTACATC 
AACGCCACTG AAAACCTGCT GACTTTAGAA ACGTTTCGTA ACTTTCCTGG CCTCCGGGAA 
CTGGAACTGT CTCTGAACGG TCTGAGAAAC CTTAAAGTCA GAATTGGAGA CTTTCCCCAC 
TTGGAATTCT CCAAGAAACG GAAGGCGAAG GAGAGCTGCC CAAAATTCCC AGCGTTGGAG 
GTCTTGCTTC TTGATGACAA TCATCTTTCC GACTCCAGTG TCTTCGTCAG TTTGGCCAAT 
CTTCGAAGGC TAAAGCAGCT GAACTTGGAC AAAAACAGAA TTAAAGAGGT CCCCTATCTC 
CATTACGTGA GCGACAATCA CTTCTCCATC CATCCTTTAT CGGCAAAGTC GGGCATCCGG 
GCAGGCTTAC ATTGCCGGAA GAACGCCCCC CAAAAGCCAC ACCAGGATCA GTCCCCAAGG 
CTACACCAGC AGTACAGTTA CATTATTACA CAAAACACCC AGGATCCCGA CAAGACAGAA 
GTCGTCTTTC AGACGAGACC TCCGGAAGAA ACGGCTCAGG AAAGGTCTCC TTCACCGCTT 
GAGGATCCCA AGGTCCCTTG TGCCAGCATC CACACGGAAT TCCTCCTTCC CTTACCGGAG 
CTGAGATTTC TCAGCCTTGC CAACAATCAG ATCGAGCACG AAGAAGACTT GCTGGCCGTG 
GCTCTCTTCC CCTCCCTGGC GGAGCTGACC TTCTACGGCA ACCCGTTCAC CACGTCCAGA 
AGCGGTGACC CACCACTGCT CACCAGCTTC CTTCAAAACA AACTTGGAAT TAAACTGGTT 
CGGAAAAAGA TTCCCAAGCT GGAGAAGCCA CGCATTTTTA TACCCGTCAA AGCGAACCGG 
GAGATCAAAT CCCGGCTACC TAAGGTCCGA AAGCGCCCCC TGCCGGCCGA GACAGCCGTG 
GAGACCACCT TCTGGCAGCT GTGGACGGGA TCCGAGCTGG ATCCGAGTAA AAGACTCAGT 
TCCGAAGATC TTCCGGAGAG CTCGTCCTTT TCTCTCGCCT ACGATCCTGA TCGGCCCATC 
CTAGCTCCTC TTCGGCGCGA GGAGATGTCC ACCTCTCTGA CCACTGTATA CACTGAAGCC 
TTGAGCCCGG GGTACTCCCA GGAGGAGATG TCCCGAGACA GCGAAGTTTC CTGCGAGTCT 
TCCGTAGATC AGATCCTGGC TGGTAAAGTT CCTGCGTCTC GGTCCTTGTC GGGACAAAGT 
CCTTCCGAAG TTCTTCGCCC GCCCTCCGGA TCGGCTTCAC GAGGACCGTC TGGGTTGCCC 
CCGATCATAG AGTCGCCTTC ATCAGACCAG GTTCTGTCTG AGGCACTAGC TCTACCAGAG 
AACCTGTCAG AATTTGTCCC GTACACGTGG ACATCTCCAG GAGAACATCC AGCAGAGCTA 
CGGTGGGAAC TCGTCGCCCC TCCAAACTCG CCTTCGGAGG GACAGAGCGA GTCGGAACTT 
GTTCAGGTTG TTGGACCAGA AGAAGAAGAA GGAGAAGGAG AAGATAGACC CAAGACTCTT 
GTCTCCACCG CTTCTGGCGC AGAGCCTACT CTGTCGGCGT CCGCGACGAC GTCTTTGCCG 
GAAGGGAAAG GAAGCGAACC GTTGGTATCG TCTGAAGGTG GCCTTGGAGA AGACTTGGGG 
GTGTCTCCTT CCCCGCCAGG AGAATCCTCT GCAGAAGATG AAGATCTGCA GGAATCCATG 
CCCATCTCCT TCCCCAGTGG GGAGGACGGG GGCCTCCCAG AAGCCGCCTT GCCCACCATT 
TCTTCGGAAG AAGACGAAGA TCAAGAGGAA CCTTCTCAAC TTCCCACCTC GGGCTTCCAA 
GATATGAATC TCTTGGCGTC TTCCGAGGAA GAGGAGCAGC CTGGACCTCC AAGCCCTCCT 
CTTGTGGACC GTGGCCAGGA GCAGAGCCTG ACCTTGGAGG ATTCGTCCCC GGGGCCAACG 
TCTTCGCAAC CACTGGTCCC AGCCTCCCGA TCCGTGTCCG GAGAGCTCTG CGGACTCTTT 
GCCGAGATCC AGTCCTACGC CTTGCCTCCG GAACCGGAAG AGGAGGAGGA GGAGGACACG 
TCCGCGGCGG AGGAGGTGCT GACGAGTAGC AGGGAAGGGA TCACCGAGCC CATCTTCATC 
ACTCAGGTAG ACGAATCGCT GGATTCCCGG GGGACGCGGC TGAGCCCCCC CGTGCCGGAG 
AAGTTGAGGG GCTACGAAGA TCTGCTCGGA GGAGACCCCG GCTCAGATTT TGTTGAGCCA 
AACGGGATAC AGCAGAACGT CCAGGCTTTG GAGAAGGCCC TTCGCTACCC TCTGGTCTAC 
CGCGACCCCA AGGCCAGGCT GGACCGCTAC CAGAAGCCTT ACGTCTCTGC CCGAAAGAAG 
GTCTTGAGGG TCCCTACGCC GAAGCCTCGG AAGAGCAGAA TGGAACGGCT GGAAGAAATC 
CTGCTGGAGC TGAGGAAGCC CACGAACATT GTCCACATCC CGCTAGTGTG CGTCTTGCGG 
AGGAGGAAGG AGAATTGGCG GGAATACCGG GAAGCTTTAG AACTCCTGAA GGAGTTTCAG 
AAAGATTACA AAGCCGAGGT AGCCATTCGT AACAAGATCG GCGAATCCAA GAAGGCTGCT 
CAGGATCAGG TTCGTGAAGC TGATGTGAAG ATCCAAAGTC TTCCTGAGGT CAAGGCGAGG 
AGAAAGCTAG ACGAGACCTC TGTCCAGGTC CTTCAAGAGA AGAACGACTC CCTTCCATCC 
AACCAATAA