REXO1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	REXO1
Entrez Gene ID	57455
Full Name	RNA exonuclease 1 homolog
Synonyms	ELOABP1,EloA-BP1,REX1,TCEB3BP1
General protein information	Preferred Names RNA exonuclease 1 homolog Names RNA exonuclease 1 homolog REX1, RNA exonuclease 1 homolog elongin-A-binding protein 1 transcription elongation factor B polypeptide 3-binding protein 1
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 19 Map Location: 19p13.3
Disorder MIM:	609614

mRNA and Protein(s)

mRNA	Protein	Name
XM_017027030.2	XP_016882519.1	RNA exonuclease 1 homolog isoform X5
XM_017027030.1	XP_016882519.1	RNA exonuclease 1 homolog isoform X5
XM_011528144.1	XP_011526446.1	RNA exonuclease 1 homolog isoform X1
NM_020695.3	NP_065746.3	RNA exonuclease 1 homolog
XM_017027028.1	XP_016882517.1	RNA exonuclease 1 homolog isoform X2
XM_011528146.2	XP_011526448.1	RNA exonuclease 1 homolog isoform X3
XM_017027029.1	XP_016882518.1	RNA exonuclease 1 homolog isoform X4
NM_020695.4	NP_065746.3	RNA exonuclease 1 homolog

Pathways from BioSystems

Homologies

	REXO1	XP_001096198.2
Bos taurus (cattle)	REXO1	NP_001179237.1
Gallus gallus (chicken)	REXO1	XP_425887.3
Xenopus tropicalis (tropical clawed frog)	rexo1	XP_004911088.1
Rattus norvegicus (Norway rat)	Rexo1	NP_001012114.2
Danio rerio (zebrafish)	rexo1	NP_001119888.1
Pan troglodytes (chimpanzee)	REXO1	XP_003953363.1
Canis lupus familiaris (dog)	REXO1	XP_533958.3
Mus musculus (house mouse)	Rexo1	NP_080128.2
Homo sapiens (human)	REXO1	NP_065746.3

Gene Ontology
Bibliography

Related articles in PubMed

Demarcation of stable subpopulations within the pluripotent hESC compartment.
Bhatia S, Pilquil C, Roth-Albin I, Draper JS
PloS one8(2)e57276(2013)

REX-1 expression and p38 MAPK activation status can determine proliferation/differentiation fates in human mesenchymal stem cells.
Bhandari DR, Seo KW, Roh KH, Jung JW, Kang SK, Kang KS
PloS one5(5)e10493(2010 May)

Large-scale characterization of HeLa cell nuclear phosphoproteins.
Beausoleil SA, Jedrychowski M, Schwartz D, Elias JE, Vill?n J, Li J, Cohn MA, Cantley LC, Gygi SP
Proceedings of the National Academy of Sciences of the United States of America101(33)12130-5(2004 Aug)

Identification of EloA-BP1, a novel Elongin A binding protein with an exonuclease homology domain.
Tamura K, Miyata K, Sugahara K, Onishi S, Shuin T, Aso T
Biochemical and biophysical research communications309(1)189-95(2003 Sep)

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

Loss of REX1 expression demarcates stable, OCT4-positive lineage pluripotent human embryonic stem cells.
Title: Demarcation of stable subpopulations within the pluripotent hESC compartment.

These findings showed that REX1 regulates the proliferation/differentiation of human mesenchymal stem cells through the suppression of p38 MAPK signaling via the direct suppression of MKK3.
Title: REX-1 expression and p38 MAPK activation status can determine proliferation/differentiation fates in human mesenchymal stem cells.

cloning and characterization of a novel human exonuclease domain-containing protein, Elongin A-binding protein 1; it is capable of binding not only the NH(2)-terminal approximately 120 amino acid region of Elongin A, but also that of SII
Title: Identification of EloA-BP1, a novel Elongin A binding protein with an exonuclease homology domain.

The following REXO1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the REXO1 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)
OHu03415	NM_020695.4 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$384.30 $549.00
OHu70467	XM_011528144.1 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu70469	XM_011528146.2 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu88591	XM_017027028.1 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu88592	XM_017027029.1 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
OHu88593	XM_017027030.2 Latest version!	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
View Old Accession Versions >>
OHu88593	XM_017027030.1	Homo sapiens REX1, RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$475.30 $679.00
OHu03415	NM_020695.3	Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$384.30 $549.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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** 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)

REXO1 ( NM_020695.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_065746.3 Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.

Price & Availability↑

CloneID	OHu03415
Clone ID Related Accession (Same CDS sequence)	NM_020695.3 , NM_020695.4
Accession Version	NM_020695.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2017-10-01
Organism	Homo sapiens(human)
Product	RNA exonuclease 1 homolog
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC032244.1 and AC012615.4. On Apr 12, 2007 this sequence version replaced NM_020695.2. ##Evidence-Data-START## Transcript exon combination :: AB032964.1, BC032244.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGTGG ATGGGCACAG CTCCAGCGAG 
GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC CAAGACCAAG 
CGATGA

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

RefSeq	NP_065746.3
CDS	96..3761
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDSSCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNVDGHSSSEDAGACMHLVIWKVREDAKTKR

Target ORF information:

RefSeq Version	NM_020695.3
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.

Target ORF information:

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

NM_020695.3

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGTGG ATGGGCACAG CTCCAGCGAG 
GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC CAAGACCAAG 
CGATGA

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

REXO1 ( NM_020695.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_065746.3 Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.

Price & Availability↑

CloneID	OHu03415
Clone ID Related Accession (Same CDS sequence)	NM_020695.3 , NM_020695.4
Accession Version	NM_020695.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2019-12-29
Organism	Homo sapiens(human)
Product	RNA exonuclease 1 homolog
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC012615.4 and BC032244.1. On Nov 23, 2018 this sequence version replaced NM_020695.3. ##Evidence-Data-START## Transcript exon combination :: AB032964.1, BC032244.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000170168.9/ ENSP00000170168.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGTGG ATGGGCACAG CTCCAGCGAG 
GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC CAAGACCAAG 
CGATGA

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

RefSeq	NP_065746.3
CDS	126..3791
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDSSCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNVDGHSSSEDAGACMHLVIWKVREDAKTKR

Target ORF information:

RefSeq Version	NM_020695.4
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), mRNA.

Target ORF information:

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

NM_020695.4

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGTGG ATGGGCACAG CTCCAGCGAG 
GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC CAAGACCAAG 
CGATGA

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

REXO1 ( XM_011528144.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011526446.1 Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X1, mRNA.

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CloneID	OHu70467
Clone ID Related Accession (Same CDS sequence)	XM_011528144.1
Accession Version	XM_011528144.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4149bp) 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	RNA exonuclease 1 homolog 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 ##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##

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTGTGAGTCG CTGGCCTGCG ACGGCCTAGC TTCCTGCAGG 
ACCTGCTGCC GCTGTGGCAC CGAGTACCTC GTGTCCTCTT CAGGCCGCTG CATCCGGGAC 
GAGGAGTGTT ATTACCACTG GGGACGGCTG CGCCGGAACC GGGTGGCCGG AGGCTGGGAG 
ACCCAGTACA TGTGCTGCTC GGCTGCCGCC GGCTCTGTCG GCTGCCAAGT CGCAAAGCAA 
CACGTGCAGG ATGGCCGGAA GGAGCGCCTT GAGGGCTTCG TGAAGACCTT TGAGAAAGAG 
CTCTCAGGAG ACACCCACCC GGGGATCTAC GCCCTGGACT GCGAGATGTC CTACACCACA 
TATGGCCTGG AGCTGACGCG CGTCACGGTG GTCGACACGG ACGTGCACGT GGTTTATGAC 
ACCTTCGTGA AGCCTGACAA CGAGATCGTG GACTACAACA CCAGGTTTTC GGGGGTGACG 
GAGGCTGACC TTGCCGACAC AAGTGTCACG CTGCGTGACG TCCAGGCCGT TCTGCTGAGC 
ATGTTCAGCG CTGACACCAT CCTCATCGGA CACAGCCTGG AGAGCGACCT CCTGGCCCTG 
AAGGTCATCC ACAGCACCGT GGTGGACACG TCTGTGCTCT TCCCCCACCG CCTGGGCCTC 
CCCTACAAGC GGTCCCTGCG GAACCTCATG GCCGACTACC TCAGACAGAT CATCCAGGAC 
AATGGTGAGT GCCGGTGCCT GCCCTGGGGC CGTCCCTGCG CAGGGGCCGG GTGCTCACCG 
CATCTGCCCC GCAGTGGATG GGCACAGCTC CAGCGAGGAC GCCGGCGCCT GCATGCACCT 
GGTGATCTGG AAGGTTCGAG AAGACGCCAA GACCAAGCGA TGACGCCTGC CCGCCTCCCA 
CCCGCCTCTC CTGCCGTCCC GCTGGTCCTT AGCCCCATGC CTCTTCCAAA ACAGTGCAAT 
AAATCTCCGG TAACCCGTCC ACCTGGCCGA GGCAGCCCAG AGCAGCGGGA TGAGCTGGCG 
GCCAGAGAAC GCCCAGCCCA GCCCACCCCC GCTCACGTCC TGCCGCACCC CTCCGCCGGT 
CCCCACCCTC TGCCCCCCAG CCCTCTGGCG TCTCTAGAAA CTGCTGCTGA TGGAGACCAG 
GACAGAGCCC GCCCCCACCC GGCCCGCAGC CCCTCCTGCC CCTCCTGCCA GGCCCTCCCT 
CCCGGGTGGT GGCCGGCACC TCTGCTCCTC ACGTGGGTCG CGGGGCGGGC TTGTCCCAGG 
TTTGTTTGA

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

RefSeq	XP_011526446.1
CDS	131..4279
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDCESLACDGLASCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNGECRCLPWGRPCAGAGCSPHLPRSGWAQLQRGRRRLHAPGDLEGSRRRQDQAMTPARLPPASPAVPLVLSPMPLPKQCNKSPVTRPPGRGSPEQRDELAARERPAQPTPAHVLPHPSAGPHPLPPSPLASLETAADGDQDRARPHPARSPSCPSCQALPPGWWPAPLLLTWVAGRACPRFV

Target ORF information:

RefSeq Version	XM_011528144.1
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X1, mRNA.

Target ORF information:

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

XM_011528144.1

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTGTGAGTCG CTGGCCTGCG ACGGCCTAGC TTCCTGCAGG 
ACCTGCTGCC GCTGTGGCAC CGAGTACCTC GTGTCCTCTT CAGGCCGCTG CATCCGGGAC 
GAGGAGTGTT ATTACCACTG GGGACGGCTG CGCCGGAACC GGGTGGCCGG AGGCTGGGAG 
ACCCAGTACA TGTGCTGCTC GGCTGCCGCC GGCTCTGTCG GCTGCCAAGT CGCAAAGCAA 
CACGTGCAGG ATGGCCGGAA GGAGCGCCTT GAGGGCTTCG TGAAGACCTT TGAGAAAGAG 
CTCTCAGGAG ACACCCACCC GGGGATCTAC GCCCTGGACT GCGAGATGTC CTACACCACA 
TATGGCCTGG AGCTGACGCG CGTCACGGTG GTCGACACGG ACGTGCACGT GGTTTATGAC 
ACCTTCGTGA AGCCTGACAA CGAGATCGTG GACTACAACA CCAGGTTTTC GGGGGTGACG 
GAGGCTGACC TTGCCGACAC AAGTGTCACG CTGCGTGACG TCCAGGCCGT TCTGCTGAGC 
ATGTTCAGCG CTGACACCAT CCTCATCGGA CACAGCCTGG AGAGCGACCT CCTGGCCCTG 
AAGGTCATCC ACAGCACCGT GGTGGACACG TCTGTGCTCT TCCCCCACCG CCTGGGCCTC 
CCCTACAAGC GGTCCCTGCG GAACCTCATG GCCGACTACC TCAGACAGAT CATCCAGGAC 
AATGGTGAGT GCCGGTGCCT GCCCTGGGGC CGTCCCTGCG CAGGGGCCGG GTGCTCACCG 
CATCTGCCCC GCAGTGGATG GGCACAGCTC CAGCGAGGAC GCCGGCGCCT GCATGCACCT 
GGTGATCTGG AAGGTTCGAG AAGACGCCAA GACCAAGCGA TGACGCCTGC CCGCCTCCCA 
CCCGCCTCTC CTGCCGTCCC GCTGGTCCTT AGCCCCATGC CTCTTCCAAA ACAGTGCAAT 
AAATCTCCGG TAACCCGTCC ACCTGGCCGA GGCAGCCCAG AGCAGCGGGA TGAGCTGGCG 
GCCAGAGAAC GCCCAGCCCA GCCCACCCCC GCTCACGTCC TGCCGCACCC CTCCGCCGGT 
CCCCACCCTC TGCCCCCCAG CCCTCTGGCG TCTCTAGAAA CTGCTGCTGA TGGAGACCAG 
GACAGAGCCC GCCCCCACCC GGCCCGCAGC CCCTCCTGCC CCTCCTGCCA GGCCCTCCCT 
CCCGGGTGGT GGCCGGCACC TCTGCTCCTC ACGTGGGTCG CGGGGCGGGC TTGTCCCAGG 
TTTGTTTGA

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

REXO1 ( XM_011528146.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011526448.1 Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu70469
Clone ID Related Accession (Same CDS sequence)	XM_011528146.2
Accession Version	XM_011528146.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4044bp) 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	RNA exonuclease 1 homolog isoform X3
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_011528146.1. ##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##

ATGGCCTGTA CCCAGCTGGG CACCCCAGAG CCTTGGCGGG CGCCAGTGCG TGGGCTGGGT 
TACGACCCCT ACAACCCTGA GCTGCCCAAG CCCCCCGCGC AGAGGGAGAA TGGCACCCTG 
GGCCTGGGGG AGGAGCCGCG CCCGGATGTG CTGGAGTTGG AGCTGGTCAA CCAGGCCATC 
GAGGCCGTGC GCAGTGAGGT GGAGCTGGAG CAGCGGCGCT ACCGGGAGCT GCTGGAGACG 
ACCCGTGAGC ACCGCTCCGC CGAGGCCCCC GCCCTGGCGC CCCGCGGCCC CAACGCCAGC 
CCCACTGTGG GCCCGGACGA GGATGCCTTC CCACTGGCCT TCGACTACAG CCCCGGCAGC 
CACGGCCTAT TAAGCCCTGA TGCCGGCTAC CAGCCCACCC CACTGGCCGC CCCTGCCGAG 
CCGGGCAGCA AGTACTCGCT GGCGTCCCTG GACAGGGGTC AGGGCAGAGG TGGAGGGGGT 
GGCGGTGCCC TGGAATACGT CCCCAAGGCT GTGAGCCAGC CCCGGCGGCA CAGCCGCCCC 
GTTCCCAGTG GCAAGTACGT GGTGGACAAC TCCAGGCCAC CCACAGACCT GGAGTATGAC 
CCTCTCTCCA ACTACTCGGC CCGGCACCTC AGCAGGGCCA GCTCCCGGGA TGAGCGGGCC 
GCCAAGCGGC CCCGGGGCTC CCGCGGCAGT GAGCCCTACA CACCTGCTCC CAAGAAGCTC 
TGTGACCCCT TTGGCAGTTG CGATGCAAGG TTCTCAGACT CAGAAGATGA GGCCGCCACG 
GTCCCAGGTA ACGAGCCCAC CACGGCCAGC ACCCCCAAAG CCAGGGCCGA CCCTGAGATC 
AAGGCCACCG GGCAGCCACC CTCCAAAGAG GGCCTGGAGG CCGAGGGGGG CGGCCTGCGG 
GAGACCAAGG AGACGGCCGT GCAGTGCGAC GTGGGGGACC TCCAGCCGCC CCCAGCCAAG 
CCCGCCTCCC CAGCCCAGGT CCAGTCCTCA CAGGATGGGG GCTGCCCCAA GGAGGGAAAA 
CCCAAGAAGA AAAAAACCGG GGCCCCACCT GCCCCCAGCT GCAAAGACGG GGCCCAGGGG 
AAGGACAAGA CCAAGGACAA GGGCCGAGGG CGGCCTGTGG AGAAGCCCCG TGCGGACAAG 
AAGGGCCCGC AGGCCAGCAG CCCCCGGCGC AAGGCAGAGC GGCCGGAAGG GACCAAGAAG 
AAGCCATCTT CGGCCACTCC TGTGGCCACC TCAGGGAAAG GGAGGCCTGA CCGGCCAGCG 
CGGCGGCCGA GCCCCACAAG CGGGGACTCC CGACCGGCGG CCGGCAGAGG CCCACCCCGC 
CCCCTCCAGC TGCCCGACAG GAAGAGCACC AAGGCCCCGT CGGGGAAGCT AGTGGAGCGG 
AAAGCCCGCT CACTAGACGA GGGCGCCTCC CAGGACGCCC CCAAGCTGAA GAAGCGGGCC 
CTGAGCCACG CCGACCTCTT TGGGGACGAG AGTGAGGACG AGGCCGCAGG GCCAGGGGTG 
CCGAGCGTGT GGCCCTCTGC CCTCCCCAGC CTCAGCTCGG ACTCAGACTC CGACTCAGAC 
TCCAGCCTGG GCTTCCCGGA GGCGCAGGGG CCGCCCAAGC GGCTCAAGGC CTCCCCGCCC 
CCCTCCCCCG CCCCATCCTC CTCCTCCTCC TCCTCCTCCT CCACCTCCAG CGCGGGGGCG 
GATGTGGACT ACTCGGCCCT GGAGAAGGAG GTGGACTTTG ACTCCGACCC CATGGAGGAG 
TGCCTGCGGA TCTTCAACGA GTCCACCAGC GTCAAGACGG AGGACAGAGG CCGGCTGGCC 
CGGCAGCCCC CCAAGGAAGA GAAGAGTGAG GAGAAGGGGC TTTCGGGTCT GACCACTCTG 
TTCCCCGGGC AGAAGAGGAG GATCTCCCAC CTTTCCAAGC AAGGCCAGGA GGTGGAGCCC 
CCGAGGAGGG GTCCCGCGGT GCCCCCGGCC CGGCCCCCGA CGGCGCAGGA GGTGTGCTAC 
CTGCGGGCCC AGCAGGCGCA GAGGGCATCG GCGAGCTTGC TGCAGGCCCC CGCCAGGCTG 
GCAGAGAAGT CGCCCTCCGT CCACATTTCC GCCCCTGGCG AGAAGAGGAG GATCGCCCAC 
ATCCCCAACC CCCGCCTGGC TGCAGCCCCC ACAGGTGCCA AGAGGACCCT TGCGGCCAGC 
GGCAGCCAGT CCTCCAACGG CCCTGAGCCA GGTGGCCAGC AGCTGAAAAC ACGCACATTG 
TCGGGGATGG CGTCCAAGAC TACCACCACC ATCATCCCTA AGCGAATCGC CCACAGTCCA 
TCCTTACAGA GTTTAAAGAA ACCCATTATC CCCAAAGAGT TTGGGGGCAA AGTCCCCACC 
GTCATCCGCC AGCGCTATCT CAACCTGTTC ATCGAGGAGT GTCTCAAGTT CTGTACCTCC 
AACCAGGAGG CCATAGAGAA GGCACTGAAC GAGGAGAAGG TGGCCTATGA CCGCAGCCCC 
AGCAAGAACA TCTACCTGAA TGTGGCCGTG AACACCCTCA AGAAGCTCAG GGGCCTGGCC 
CCCAGCGCTG TGCCCGGCCT CAGCAAAACC AGTGGCCGCA GGGTTGTGTC CCACGAGGTG 
GTGTTGGGGG GCAGGTTGGC CGCCAAGACC AGCTTCTCGC TCAGCCGTCC AAGCAGCCCC 
CGGGTGGAGG ACCTGAAAGG GGCTGCCCTG TACAGCCGCC TCAGGGAGTA CCTGCTCACC 
CAGGACCAGC TCAAGGAGAA CGGCTACCCC TTCCCGCACC CAGAGCGGCC CGGGGGCGCA 
ATCATCTTCA CAGCTGAGGA GAAGAGGCCC AAGGACTGTG AGTCGCTGGC CTGCGACGGC 
CTAGCTTCCT GCAGGACCTG CTGCCGCTGT GGCACCGAGT ACCTCGTGTC CTCTTCAGGC 
CGCTGCATCC GGGACGAGGA GTGTTATTAC CACTGGGGAC GGCTGCGCCG GAACCGGGTG 
GCCGGAGGCT GGGAGACCCA GTACATGTGC TGCTCGGCTG CCGCCGGCTC TGTCGGCTGC 
CAAGTCGCAA AGCAACACGT GCAGGATGGC CGGAAGGAGC GCCTTGAGGG CTTCGTGAAG 
ACCTTTGAGA AAGAGCTCTC AGGAGACACC CACCCGGGGA TCTACGCCCT GGACTGCGAG 
ATGTCCTACA CCACATATGG CCTGGAGCTG ACGCGCGTCA CGGTGGTCGA CACGGACGTG 
CACGTGGTTT ATGACACCTT CGTGAAGCCT GACAACGAGA TCGTGGACTA CAACACCAGG 
TTTTCGGGGG TGACGGAGGC TGACCTTGCC GACACAAGTG TCACGCTGCG TGACGTCCAG 
GCCGTTCTGC TGAGCATGTT CAGCGCTGAC ACCATCCTCA TCGGACACAG CCTGGAGAGC 
GACCTCCTGG CCCTGAAGGT CATCCACAGC ACCGTGGTGG ACACGTCTGT GCTCTTCCCC 
CACCGCCTGG GCCTCCCCTA CAAGCGGTCC CTGCGGAACC TCATGGCCGA CTACCTCAGA 
CAGATCATCC AGGACAATGG TGAGTGCCGG TGCCTGCCCT GGGGCCGTCC CTGCGCAGGG 
GCCGGGTGCT CACCGCATCT GCCCCGCAGT GGATGGGCAC AGCTCCAGCG AGGACGCCGG 
CGCCTGCATG CACCTGGTGA TCTGGAAGGT TCGAGAAGAC GCCAAGACCA AGCGATGACG 
CCTGCCCGCC TCCCACCCGC CTCTCCTGCC GTCCCGCTGG TCCTTAGCCC CATGCCTCTT 
CCAAAACAGT GCAATAAATC TCCGGTAACC CGTCCACCTG GCCGAGGCAG CCCAGAGCAG 
CGGGATGAGC TGGCGGCCAG AGAACGCCCA GCCCAGCCCA CCCCCGCTCA CGTCCTGCCG 
CACCCCTCCG CCGGTCCCCA CCCTCTGCCC CCCAGCCCTC TGGCGTCTCT AGAAACTGCT 
GCTGATGGAG ACCAGGACAG AGCCCGCCCC CACCCGGCCC GCAGCCCCTC CTGCCCCTCC 
TGCCAGGCCC TCCCTCCCGG GTGGTGGCCG GCACCTCTGC TCCTCACGTG GGTCGCGGGG 
CGGGCTTGTC CCAGGTTTGT TTGA

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

RefSeq	XP_011526448.1
CDS	500..4543
Translation	MACTQLGTPEPWRAPVRGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDCESLACDGLASCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNGECRCLPWGRPCAGAGCSPHLPRSGWAQLQRGRRRLHAPGDLEGSRRRQDQAMTPARLPPASPAVPLVLSPMPLPKQCNKSPVTRPPGRGSPEQRDELAARERPAQPTPAHVLPHPSAGPHPLPPSPLASLETAADGDQDRARPHPARSPSCPSCQALPPGWWPAPLLLTWVAGRACPRFV

Target ORF information:

RefSeq Version	XM_011528146.2
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X3, mRNA.

Target ORF information:

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

XM_011528146.2

ORF Insert Sequence:

ATGGCCTGTA CCCAGCTGGG CACCCCAGAG CCTTGGCGGG CGCCAGTGCG TGGGCTGGGT 
TACGACCCCT ACAACCCTGA GCTGCCCAAG CCCCCCGCGC AGAGGGAGAA TGGCACCCTG 
GGCCTGGGGG AGGAGCCGCG CCCGGATGTG CTGGAGTTGG AGCTGGTCAA CCAGGCCATC 
GAGGCCGTGC GCAGTGAGGT GGAGCTGGAG CAGCGGCGCT ACCGGGAGCT GCTGGAGACG 
ACCCGTGAGC ACCGCTCCGC CGAGGCCCCC GCCCTGGCGC CCCGCGGCCC CAACGCCAGC 
CCCACTGTGG GCCCGGACGA GGATGCCTTC CCACTGGCCT TCGACTACAG CCCCGGCAGC 
CACGGCCTAT TAAGCCCTGA TGCCGGCTAC CAGCCCACCC CACTGGCCGC CCCTGCCGAG 
CCGGGCAGCA AGTACTCGCT GGCGTCCCTG GACAGGGGTC AGGGCAGAGG TGGAGGGGGT 
GGCGGTGCCC TGGAATACGT CCCCAAGGCT GTGAGCCAGC CCCGGCGGCA CAGCCGCCCC 
GTTCCCAGTG GCAAGTACGT GGTGGACAAC TCCAGGCCAC CCACAGACCT GGAGTATGAC 
CCTCTCTCCA ACTACTCGGC CCGGCACCTC AGCAGGGCCA GCTCCCGGGA TGAGCGGGCC 
GCCAAGCGGC CCCGGGGCTC CCGCGGCAGT GAGCCCTACA CACCTGCTCC CAAGAAGCTC 
TGTGACCCCT TTGGCAGTTG CGATGCAAGG TTCTCAGACT CAGAAGATGA GGCCGCCACG 
GTCCCAGGTA ACGAGCCCAC CACGGCCAGC ACCCCCAAAG CCAGGGCCGA CCCTGAGATC 
AAGGCCACCG GGCAGCCACC CTCCAAAGAG GGCCTGGAGG CCGAGGGGGG CGGCCTGCGG 
GAGACCAAGG AGACGGCCGT GCAGTGCGAC GTGGGGGACC TCCAGCCGCC CCCAGCCAAG 
CCCGCCTCCC CAGCCCAGGT CCAGTCCTCA CAGGATGGGG GCTGCCCCAA GGAGGGAAAA 
CCCAAGAAGA AAAAAACCGG GGCCCCACCT GCCCCCAGCT GCAAAGACGG GGCCCAGGGG 
AAGGACAAGA CCAAGGACAA GGGCCGAGGG CGGCCTGTGG AGAAGCCCCG TGCGGACAAG 
AAGGGCCCGC AGGCCAGCAG CCCCCGGCGC AAGGCAGAGC GGCCGGAAGG GACCAAGAAG 
AAGCCATCTT CGGCCACTCC TGTGGCCACC TCAGGGAAAG GGAGGCCTGA CCGGCCAGCG 
CGGCGGCCGA GCCCCACAAG CGGGGACTCC CGACCGGCGG CCGGCAGAGG CCCACCCCGC 
CCCCTCCAGC TGCCCGACAG GAAGAGCACC AAGGCCCCGT CGGGGAAGCT AGTGGAGCGG 
AAAGCCCGCT CACTAGACGA GGGCGCCTCC CAGGACGCCC CCAAGCTGAA GAAGCGGGCC 
CTGAGCCACG CCGACCTCTT TGGGGACGAG AGTGAGGACG AGGCCGCAGG GCCAGGGGTG 
CCGAGCGTGT GGCCCTCTGC CCTCCCCAGC CTCAGCTCGG ACTCAGACTC CGACTCAGAC 
TCCAGCCTGG GCTTCCCGGA GGCGCAGGGG CCGCCCAAGC GGCTCAAGGC CTCCCCGCCC 
CCCTCCCCCG CCCCATCCTC CTCCTCCTCC TCCTCCTCCT CCACCTCCAG CGCGGGGGCG 
GATGTGGACT ACTCGGCCCT GGAGAAGGAG GTGGACTTTG ACTCCGACCC CATGGAGGAG 
TGCCTGCGGA TCTTCAACGA GTCCACCAGC GTCAAGACGG AGGACAGAGG CCGGCTGGCC 
CGGCAGCCCC CCAAGGAAGA GAAGAGTGAG GAGAAGGGGC TTTCGGGTCT GACCACTCTG 
TTCCCCGGGC AGAAGAGGAG GATCTCCCAC CTTTCCAAGC AAGGCCAGGA GGTGGAGCCC 
CCGAGGAGGG GTCCCGCGGT GCCCCCGGCC CGGCCCCCGA CGGCGCAGGA GGTGTGCTAC 
CTGCGGGCCC AGCAGGCGCA GAGGGCATCG GCGAGCTTGC TGCAGGCCCC CGCCAGGCTG 
GCAGAGAAGT CGCCCTCCGT CCACATTTCC GCCCCTGGCG AGAAGAGGAG GATCGCCCAC 
ATCCCCAACC CCCGCCTGGC TGCAGCCCCC ACAGGTGCCA AGAGGACCCT TGCGGCCAGC 
GGCAGCCAGT CCTCCAACGG CCCTGAGCCA GGTGGCCAGC AGCTGAAAAC ACGCACATTG 
TCGGGGATGG CGTCCAAGAC TACCACCACC ATCATCCCTA AGCGAATCGC CCACAGTCCA 
TCCTTACAGA GTTTAAAGAA ACCCATTATC CCCAAAGAGT TTGGGGGCAA AGTCCCCACC 
GTCATCCGCC AGCGCTATCT CAACCTGTTC ATCGAGGAGT GTCTCAAGTT CTGTACCTCC 
AACCAGGAGG CCATAGAGAA GGCACTGAAC GAGGAGAAGG TGGCCTATGA CCGCAGCCCC 
AGCAAGAACA TCTACCTGAA TGTGGCCGTG AACACCCTCA AGAAGCTCAG GGGCCTGGCC 
CCCAGCGCTG TGCCCGGCCT CAGCAAAACC AGTGGCCGCA GGGTTGTGTC CCACGAGGTG 
GTGTTGGGGG GCAGGTTGGC CGCCAAGACC AGCTTCTCGC TCAGCCGTCC AAGCAGCCCC 
CGGGTGGAGG ACCTGAAAGG GGCTGCCCTG TACAGCCGCC TCAGGGAGTA CCTGCTCACC 
CAGGACCAGC TCAAGGAGAA CGGCTACCCC TTCCCGCACC CAGAGCGGCC CGGGGGCGCA 
ATCATCTTCA CAGCTGAGGA GAAGAGGCCC AAGGACTGTG AGTCGCTGGC CTGCGACGGC 
CTAGCTTCCT GCAGGACCTG CTGCCGCTGT GGCACCGAGT ACCTCGTGTC CTCTTCAGGC 
CGCTGCATCC GGGACGAGGA GTGTTATTAC CACTGGGGAC GGCTGCGCCG GAACCGGGTG 
GCCGGAGGCT GGGAGACCCA GTACATGTGC TGCTCGGCTG CCGCCGGCTC TGTCGGCTGC 
CAAGTCGCAA AGCAACACGT GCAGGATGGC CGGAAGGAGC GCCTTGAGGG CTTCGTGAAG 
ACCTTTGAGA AAGAGCTCTC AGGAGACACC CACCCGGGGA TCTACGCCCT GGACTGCGAG 
ATGTCCTACA CCACATATGG CCTGGAGCTG ACGCGCGTCA CGGTGGTCGA CACGGACGTG 
CACGTGGTTT ATGACACCTT CGTGAAGCCT GACAACGAGA TCGTGGACTA CAACACCAGG 
TTTTCGGGGG TGACGGAGGC TGACCTTGCC GACACAAGTG TCACGCTGCG TGACGTCCAG 
GCCGTTCTGC TGAGCATGTT CAGCGCTGAC ACCATCCTCA TCGGACACAG CCTGGAGAGC 
GACCTCCTGG CCCTGAAGGT CATCCACAGC ACCGTGGTGG ACACGTCTGT GCTCTTCCCC 
CACCGCCTGG GCCTCCCCTA CAAGCGGTCC CTGCGGAACC TCATGGCCGA CTACCTCAGA 
CAGATCATCC AGGACAATGG TGAGTGCCGG TGCCTGCCCT GGGGCCGTCC CTGCGCAGGG 
GCCGGGTGCT CACCGCATCT GCCCCGCAGT GGATGGGCAC AGCTCCAGCG AGGACGCCGG 
CGCCTGCATG CACCTGGTGA TCTGGAAGGT TCGAGAAGAC GCCAAGACCA AGCGATGACG 
CCTGCCCGCC TCCCACCCGC CTCTCCTGCC GTCCCGCTGG TCCTTAGCCC CATGCCTCTT 
CCAAAACAGT GCAATAAATC TCCGGTAACC CGTCCACCTG GCCGAGGCAG CCCAGAGCAG 
CGGGATGAGC TGGCGGCCAG AGAACGCCCA GCCCAGCCCA CCCCCGCTCA CGTCCTGCCG 
CACCCCTCCG CCGGTCCCCA CCCTCTGCCC CCCAGCCCTC TGGCGTCTCT AGAAACTGCT 
GCTGATGGAG ACCAGGACAG AGCCCGCCCC CACCCGGCCC GCAGCCCCTC CTGCCCCTCC 
TGCCAGGCCC TCCCTCCCGG GTGGTGGCCG GCACCTCTGC TCCTCACGTG GGTCGCGGGG 
CGGGCTTGTC CCAGGTTTGT TTGA

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

REXO1 ( XM_017027028.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882517.1 Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu88591
Clone ID Related Accession (Same CDS sequence)	XM_017027028.1
Accession Version	XM_017027028.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4122bp) 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	RNA exonuclease 1 homolog 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 mRNA and 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##

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGGTG AGTGCCGGTG CCTGCCCTGG 
GGCCGTCCCT GCGCAGGGGC CGGGTGCTCA CCGCATCTGC CCCGCAGTGG ATGGGCACAG 
CTCCAGCGAG GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC 
CAAGACCAAG CGATGACGCC TGCCCGCCTC CCACCCGCCT CTCCTGCCGT CCCGCTGGTC 
CTTAGCCCCA TGCCTCTTCC AAAACAGTGC AATAAATCTC CGGTAACCCG TCCACCTGGC 
CGAGGCAGCC CAGAGCAGCG GGATGAGCTG GCGGCCAGAG AACGCCCAGC CCAGCCCACC 
CCCGCTCACG TCCTGCCGCA CCCCTCCGCC GGTCCCCACC CTCTGCCCCC CAGCCCTCTG 
GCGTCTCTAG AAACTGCTGC TGATGGAGAC CAGGACAGAG CCCGCCCCCA CCCGGCCCGC 
AGCCCCTCCT GCCCCTCCTG CCAGGCCCTC CCTCCCGGGT GGTGGCCGGC ACCTCTGCTC 
CTCACGTGGG TCGCGGGGCG GGCTTGTCCC AGGTTTGTTT GA

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

RefSeq	XP_016882517.1
CDS	131..4252
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDSSCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNGECRCLPWGRPCAGAGCSPHLPRSGWAQLQRGRRRLHAPGDLEGSRRRQDQAMTPARLPPASPAVPLVLSPMPLPKQCNKSPVTRPPGRGSPEQRDELAARERPAQPTPAHVLPHPSAGPHPLPPSPLASLETAADGDQDRARPHPARSPSCPSCQALPPGWWPAPLLLTWVAGRACPRFV

Target ORF information:

RefSeq Version	XM_017027028.1
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X2, mRNA.

Target ORF information:

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

XM_017027028.1

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTCTTCCTGC AGGACCTGCT GCCGCTGTGG CACCGAGTAC 
CTCGTGTCCT CTTCAGGCCG CTGCATCCGG GACGAGGAGT GTTATTACCA CTGGGGACGG 
CTGCGCCGGA ACCGGGTGGC CGGAGGCTGG GAGACCCAGT ACATGTGCTG CTCGGCTGCC 
GCCGGCTCTG TCGGCTGCCA AGTCGCAAAG CAACACGTGC AGGATGGCCG GAAGGAGCGC 
CTTGAGGGCT TCGTGAAGAC CTTTGAGAAA GAGCTCTCAG GAGACACCCA CCCGGGGATC 
TACGCCCTGG ACTGCGAGAT GTCCTACACC ACATATGGCC TGGAGCTGAC GCGCGTCACG 
GTGGTCGACA CGGACGTGCA CGTGGTTTAT GACACCTTCG TGAAGCCTGA CAACGAGATC 
GTGGACTACA ACACCAGGTT TTCGGGGGTG ACGGAGGCTG ACCTTGCCGA CACAAGTGTC 
ACGCTGCGTG ACGTCCAGGC CGTTCTGCTG AGCATGTTCA GCGCTGACAC CATCCTCATC 
GGACACAGCC TGGAGAGCGA CCTCCTGGCC CTGAAGGTCA TCCACAGCAC CGTGGTGGAC 
ACGTCTGTGC TCTTCCCCCA CCGCCTGGGC CTCCCCTACA AGCGGTCCCT GCGGAACCTC 
ATGGCCGACT ACCTCAGACA GATCATCCAG GACAATGGTG AGTGCCGGTG CCTGCCCTGG 
GGCCGTCCCT GCGCAGGGGC CGGGTGCTCA CCGCATCTGC CCCGCAGTGG ATGGGCACAG 
CTCCAGCGAG GACGCCGGCG CCTGCATGCA CCTGGTGATC TGGAAGGTTC GAGAAGACGC 
CAAGACCAAG CGATGACGCC TGCCCGCCTC CCACCCGCCT CTCCTGCCGT CCCGCTGGTC 
CTTAGCCCCA TGCCTCTTCC AAAACAGTGC AATAAATCTC CGGTAACCCG TCCACCTGGC 
CGAGGCAGCC CAGAGCAGCG GGATGAGCTG GCGGCCAGAG AACGCCCAGC CCAGCCCACC 
CCCGCTCACG TCCTGCCGCA CCCCTCCGCC GGTCCCCACC CTCTGCCCCC CAGCCCTCTG 
GCGTCTCTAG AAACTGCTGC TGATGGAGAC CAGGACAGAG CCCGCCCCCA CCCGGCCCGC 
AGCCCCTCCT GCCCCTCCTG CCAGGCCCTC CCTCCCGGGT GGTGGCCGGC ACCTCTGCTC 
CTCACGTGGG TCGCGGGGCG GGCTTGTCCC AGGTTTGTTT GA

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

REXO1 ( XM_017027029.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882518.1 Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X4, mRNA.

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CloneID	OHu88592
Clone ID Related Accession (Same CDS sequence)	XM_017027029.1
Accession Version	XM_017027029.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3693bp) 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	RNA exonuclease 1 homolog isoform X4
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##

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTGTGAGTCG CTGGCCTGCG ACGGCCTAGC TTCCTGCAGG 
ACCTGCTGCC GCTGTGGCAC CGAGTACCTC GTGTCCTCTT CAGGCCGCTG CATCCGGGAC 
GAGGAGTGTT ATTACCACTG GGGACGGCTG CGCCGGAACC GGGTGGCCGG AGGCTGGGAG 
ACCCAGTACA TGTGCTGCTC GGCTGCCGCC GGCTCTGTCG GCTGCCAAGT CGCAAAGCAA 
CACGTGCAGG ATGGCCGGAA GGAGCGCCTT GAGGGCTTCG TGAAGACCTT TGAGAAAGAG 
CTCTCAGGAG ACACCCACCC GGGGATCTAC GCCCTGGACT GCGAGATGTC CTACACCACA 
TATGGCCTGG AGCTGACGCG CGTCACGGTG GTCGACACGG ACGTGCACGT GGTTTATGAC 
ACCTTCGTGA AGCCTGACAA CGAGATCGTG GACTACAACA CCAGGTTTTC GGGGGTGACG 
GAGGCTGACC TTGCCGACAC AAGTGTCACG CTGCGTGACG TCCAGGCCGT TCTGCTGAGC 
ATGTTCAGCG CTGACACCAT CCTCATCGGA CACAGCCTGG AGAGCGACCT CCTGGCCCTG 
AAGGTCATCC ACAGCACCGT GGTGGACACG TCTGTGCTCT TCCCCCACCG CCTGGGCCTC 
CCCTACAAGC GGTCCCTGCG GAACCTCATG GCCGACTACC TCAGACAGAT CATCCAGGAC 
AATGTGGATG GGCACAGCTC CAGCGAGGAC GCCGGCGCCT GCATGCACCT GGTGATCTGG 
AAGGTTCGAG AAGACGCCAA GACCAAGCGA TGA

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

RefSeq	XP_016882518.1
CDS	131..3823
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEKVAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFSLSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDCESLACDGLASCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRVAGGWETQYMCCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLELTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSADTILIGHSLESDLLALKVIHSTVVDTSVLFPHRLGLPYKRSLRNLMADYLRQIIQDNVDGHSSSEDAGACMHLVIWKVREDAKTKR

Target ORF information:

RefSeq Version	XM_017027029.1
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X4, mRNA.

Target ORF information:

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

XM_017027029.1

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGGCAC TGAACGAGGA GAAGGTGGCC TATGACCGCA GCCCCAGCAA GAACATCTAC 
CTGAATGTGG CCGTGAACAC CCTCAAGAAG CTCAGGGGCC TGGCCCCCAG CGCTGTGCCC 
GGCCTCAGCA AAACCAGTGG CCGCAGGGTT GTGTCCCACG AGGTGGTGTT GGGGGGCAGG 
TTGGCCGCCA AGACCAGCTT CTCGCTCAGC CGTCCAAGCA GCCCCCGGGT GGAGGACCTG 
AAAGGGGCTG CCCTGTACAG CCGCCTCAGG GAGTACCTGC TCACCCAGGA CCAGCTCAAG 
GAGAACGGCT ACCCCTTCCC GCACCCAGAG CGGCCCGGGG GCGCAATCAT CTTCACAGCT 
GAGGAGAAGA GGCCCAAGGA CTGTGAGTCG CTGGCCTGCG ACGGCCTAGC TTCCTGCAGG 
ACCTGCTGCC GCTGTGGCAC CGAGTACCTC GTGTCCTCTT CAGGCCGCTG CATCCGGGAC 
GAGGAGTGTT ATTACCACTG GGGACGGCTG CGCCGGAACC GGGTGGCCGG AGGCTGGGAG 
ACCCAGTACA TGTGCTGCTC GGCTGCCGCC GGCTCTGTCG GCTGCCAAGT CGCAAAGCAA 
CACGTGCAGG ATGGCCGGAA GGAGCGCCTT GAGGGCTTCG TGAAGACCTT TGAGAAAGAG 
CTCTCAGGAG ACACCCACCC GGGGATCTAC GCCCTGGACT GCGAGATGTC CTACACCACA 
TATGGCCTGG AGCTGACGCG CGTCACGGTG GTCGACACGG ACGTGCACGT GGTTTATGAC 
ACCTTCGTGA AGCCTGACAA CGAGATCGTG GACTACAACA CCAGGTTTTC GGGGGTGACG 
GAGGCTGACC TTGCCGACAC AAGTGTCACG CTGCGTGACG TCCAGGCCGT TCTGCTGAGC 
ATGTTCAGCG CTGACACCAT CCTCATCGGA CACAGCCTGG AGAGCGACCT CCTGGCCCTG 
AAGGTCATCC ACAGCACCGT GGTGGACACG TCTGTGCTCT TCCCCCACCG CCTGGGCCTC 
CCCTACAAGC GGTCCCTGCG GAACCTCATG GCCGACTACC TCAGACAGAT CATCCAGGAC 
AATGTGGATG GGCACAGCTC CAGCGAGGAC GCCGGCGCCT GCATGCACCT GGTGATCTGG 
AAGGTTCGAG AAGACGCCAA GACCAAGCGA TGA

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

REXO1 ( XM_017027030.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882519.1 Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu88593
Clone ID Related Accession (Same CDS sequence)	XM_017027030.2 , XM_017027030.1
Accession Version	XM_017027030.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2532bp) 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	RNA exonuclease 1 homolog isoform X5
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 Mar 26, 2018 this sequence version replaced XM_017027030.1. ##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##

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGCTGT GA

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

RefSeq	XP_016882519.1
CDS	319..2850
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKL

Target ORF information:

RefSeq Version	XM_017027030.2
Organism	Homo sapiens(human)
Definition	Homo sapiens RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.

Target ORF information:

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

XM_017027030.2

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGCTGT GA

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

REXO1 ( XM_017027030.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882519.1 Homo sapiens REX1, RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OHu88593
Clone ID Related Accession (Same CDS sequence)	XM_017027030.2 , XM_017027030.1
Accession Version	XM_017027030.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2532bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	RNA exonuclease 1 homolog isoform X5
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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGCTGT GA

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

RefSeq	XP_016882519.1
CDS	319..2850
Translation	MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAGLGYDPYNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTREHRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGSKYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLSNYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPGNEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPASPAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGPQASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQLPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSVWPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVDYSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQPPKEEKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVEPPRRGPAVPPARPPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIPKRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKL

Target ORF information:

RefSeq Version	XM_017027030.1
Organism	Homo sapiens(human)
Definition	Homo sapiens REX1, RNA exonuclease 1 homolog (REXO1), transcript variant X8, mRNA.

Target ORF information:

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

XM_017027030.1

ORF Insert Sequence:

ATGCTACGCT CCACTGGCTT CTTCCGGGCC ATTGACTGCC CCTATTGGTC TGGGGCGCCC 
GGGGGGCCCT GCCGGCGGCC CTACTGCCAC TTCCGGCACC GCGGGGCCCG GGGCTCCGGC 
GCGCCCGGTG ACGGCGGAGA GGCGCCCCCC GCAGCAGGGC TGGGTTACGA CCCCTACAAC 
CCTGAGCTGC CCAAGCCCCC CGCGCAGAGG GAGAATGGCA CCCTGGGCCT GGGGGAGGAG 
CCGCGCCCGG ATGTGCTGGA GTTGGAGCTG GTCAACCAGG CCATCGAGGC CGTGCGCAGT 
GAGGTGGAGC TGGAGCAGCG GCGCTACCGG GAGCTGCTGG AGACGACCCG TGAGCACCGC 
TCCGCCGAGG CCCCCGCCCT GGCGCCCCGC GGCCCCAACG CCAGCCCCAC TGTGGGCCCG 
GACGAGGATG CCTTCCCACT GGCCTTCGAC TACAGCCCCG GCAGCCACGG CCTATTAAGC 
CCTGATGCCG GCTACCAGCC CACCCCACTG GCCGCCCCTG CCGAGCCGGG CAGCAAGTAC 
TCGCTGGCGT CCCTGGACAG GGGTCAGGGC AGAGGTGGAG GGGGTGGCGG TGCCCTGGAA 
TACGTCCCCA AGGCTGTGAG CCAGCCCCGG CGGCACAGCC GCCCCGTTCC CAGTGGCAAG 
TACGTGGTGG ACAACTCCAG GCCACCCACA GACCTGGAGT ATGACCCTCT CTCCAACTAC 
TCGGCCCGGC ACCTCAGCAG GGCCAGCTCC CGGGATGAGC GGGCCGCCAA GCGGCCCCGG 
GGCTCCCGCG GCAGTGAGCC CTACACACCT GCTCCCAAGA AGCTCTGTGA CCCCTTTGGC 
AGTTGCGATG CAAGGTTCTC AGACTCAGAA GATGAGGCCG CCACGGTCCC AGGTAACGAG 
CCCACCACGG CCAGCACCCC CAAAGCCAGG GCCGACCCTG AGATCAAGGC CACCGGGCAG 
CCACCCTCCA AAGAGGGCCT GGAGGCCGAG GGGGGCGGCC TGCGGGAGAC CAAGGAGACG 
GCCGTGCAGT GCGACGTGGG GGACCTCCAG CCGCCCCCAG CCAAGCCCGC CTCCCCAGCC 
CAGGTCCAGT CCTCACAGGA TGGGGGCTGC CCCAAGGAGG GAAAACCCAA GAAGAAAAAA 
ACCGGGGCCC CACCTGCCCC CAGCTGCAAA GACGGGGCCC AGGGGAAGGA CAAGACCAAG 
GACAAGGGCC GAGGGCGGCC TGTGGAGAAG CCCCGTGCGG ACAAGAAGGG CCCGCAGGCC 
AGCAGCCCCC GGCGCAAGGC AGAGCGGCCG GAAGGGACCA AGAAGAAGCC ATCTTCGGCC 
ACTCCTGTGG CCACCTCAGG GAAAGGGAGG CCTGACCGGC CAGCGCGGCG GCCGAGCCCC 
ACAAGCGGGG ACTCCCGACC GGCGGCCGGC AGAGGCCCAC CCCGCCCCCT CCAGCTGCCC 
GACAGGAAGA GCACCAAGGC CCCGTCGGGG AAGCTAGTGG AGCGGAAAGC CCGCTCACTA 
GACGAGGGCG CCTCCCAGGA CGCCCCCAAG CTGAAGAAGC GGGCCCTGAG CCACGCCGAC 
CTCTTTGGGG ACGAGAGTGA GGACGAGGCC GCAGGGCCAG GGGTGCCGAG CGTGTGGCCC 
TCTGCCCTCC CCAGCCTCAG CTCGGACTCA GACTCCGACT CAGACTCCAG CCTGGGCTTC 
CCGGAGGCGC AGGGGCCGCC CAAGCGGCTC AAGGCCTCCC CGCCCCCCTC CCCCGCCCCA 
TCCTCCTCCT CCTCCTCCTC CTCCTCCACC TCCAGCGCGG GGGCGGATGT GGACTACTCG 
GCCCTGGAGA AGGAGGTGGA CTTTGACTCC GACCCCATGG AGGAGTGCCT GCGGATCTTC 
AACGAGTCCA CCAGCGTCAA GACGGAGGAC AGAGGCCGGC TGGCCCGGCA GCCCCCCAAG 
GAAGAGAAGA GTGAGGAGAA GGGGCTTTCG GGTCTGACCA CTCTGTTCCC CGGGCAGAAG 
AGGAGGATCT CCCACCTTTC CAAGCAAGGC CAGGAGGTGG AGCCCCCGAG GAGGGGTCCC 
GCGGTGCCCC CGGCCCGGCC CCCGACGGCG CAGGAGGTGT GCTACCTGCG GGCCCAGCAG 
GCGCAGAGGG CATCGGCGAG CTTGCTGCAG GCCCCCGCCA GGCTGGCAGA GAAGTCGCCC 
TCCGTCCACA TTTCCGCCCC TGGCGAGAAG AGGAGGATCG CCCACATCCC CAACCCCCGC 
CTGGCTGCAG CCCCCACAGG TGCCAAGAGG ACCCTTGCGG CCAGCGGCAG CCAGTCCTCC 
AACGGCCCTG AGCCAGGTGG CCAGCAGCTG AAAACACGCA CATTGTCGGG GATGGCGTCC 
AAGACTACCA CCACCATCAT CCCTAAGCGA ATCGCCCACA GTCCATCCTT ACAGAGTTTA 
AAGAAACCCA TTATCCCCAA AGAGTTTGGG GGCAAAGTCC CCACCGTCAT CCGCCAGCGC 
TATCTCAACC TGTTCATCGA GGAGTGTCTC AAGTTCTGTA CCTCCAACCA GGAGGCCATA 
GAGAAGCTGT GA

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

PubMed

Demarcation of stable subpopulations within the pluripotent hESC compartment.
PloS one8(2)e57276(2013)
Bhatia S,Pilquil C,Roth-Albin I,Draper JS

REX-1 expression and p38 MAPK activation status can determine proliferation/differentiation fates in human mesenchymal stem cells.
PloS one5(5)e10493(2010 May)
Bhandari DR,Seo KW,Roh KH,Jung JW,Kang SK,Kang KS

Large-scale characterization of HeLa cell nuclear phosphoproteins.
Proceedings of the National Academy of Sciences of the United States of America101(33)12130-5(2004 Aug)
Beausoleil SA,Jedrychowski M,Schwartz D,Elias JE,Vill?n J,Li J,Cohn MA,Cantley LC,Gygi SP

Identification of EloA-BP1, a novel Elongin A binding protein with an exonuclease homology domain.
Biochemical and biophysical research communications309(1)189-95(2003 Sep)
Tamura K,Miyata K,Sugahara K,Onishi S,Shuin T,Aso T

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REXO1 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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