RERE cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	RERE
Entrez Gene ID	473
Full Name	arginine-glutamic acid dipeptide repeats
Synonyms	ARG,ARP,ATN1L,DNB1,NEDBEH
General protein information	Preferred Names arginine-glutamic acid dipeptide repeats Names arginine-glutamic acid dipeptide repeats protein arginine-glutamic acid dipeptide (RE) repeats atrophin 2 atrophin-1 like protein atrophin-1 related protein
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 1 Map Location: 1p36.23
Summary	This gene encodes a member of the atrophin family of arginine-glutamic acid (RE) dipeptide repeat-containing proteins. The encoded protein co-localizes with a transcription factor in the nucleus, and its overexpression triggers apoptosis. A similar protein in mouse associates with histone deacetylase and is thought to function as a transcriptional co-repressor during embryonic development. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008].
Disorder MIM:	605226
Disorder Html:	Neurodevelopmental disorder with or without anomalies of the brain, eye, or heart, 616975 (3)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011541511.2	XP_011539813.1	arginine-glutamic acid dipeptide repeats protein isoform X4
NM_001042681.1	NP_001036146.1	arginine-glutamic acid dipeptide repeats protein isoform a
NM_001042682.2	NP_001036147.1	arginine-glutamic acid dipeptide repeats protein isoform b
XM_017001358.1	XP_016856847.1	arginine-glutamic acid dipeptide repeats protein isoform X1
NM_001042682.1	NP_001036147.1	arginine-glutamic acid dipeptide repeats protein isoform b
XM_005263464.1	XP_005263521.1	arginine-glutamic acid dipeptide repeats protein isoform X1
XM_006710653.1	XP_006710716.1	arginine-glutamic acid dipeptide repeats protein isoform X1
XM_005263464.2	XP_005263521.1	arginine-glutamic acid dipeptide repeats protein isoform X1
XM_017001359.1	XP_016856848.1	arginine-glutamic acid dipeptide repeats protein isoform X1
XM_011541510.2	XP_011539812.1	arginine-glutamic acid dipeptide repeats protein isoform X2
XM_005263466.1	XP_005263523.1	arginine-glutamic acid dipeptide repeats protein isoform X3
NM_012102.3	NP_036234.3	arginine-glutamic acid dipeptide repeats protein isoform a
NM_001042681.2	NP_001036146.1	arginine-glutamic acid dipeptide repeats protein isoform a
XM_011541510.1	XP_011539812.1	arginine-glutamic acid dipeptide repeats protein isoform X2
XM_011541511.1	XP_011539813.1	arginine-glutamic acid dipeptide repeats protein isoform X4
NM_012102.4	NP_036234.3	arginine-glutamic acid dipeptide repeats protein isoform a

Pathways from BioSystems

Homologies

	RERE	XP_001097585.1
Rattus norvegicus (Norway rat)	Rere	NP_446337.2
Danio rerio (zebrafish)	rerea	XP_005162260.1
Homo sapiens (human)	RERE	NP_001036146.1
Canis lupus familiaris (dog)	RERE	XP_005620544.1
Bos taurus (cattle)	RERE	XP_005217062.1
Mus musculus (house mouse)	Rere	NP_001078961.1
Xenopus tropicalis (tropical clawed frog)	rere	XP_004916194.1
Pan troglodytes (chimpanzee)	RERE	XP_001159462.1
Gallus gallus (chicken)	RERE	XP_417594.3

Gene Ontology
Bibliography

Related articles in PubMed

De Novo Mutations of RERE Cause a Genetic Syndrome with Features that Overlap Those Associated with Proximal 1p36 Deletions.
Fregeau B, Kim BJ, Hern?ndez-Garc?a A, Jordan VK, Cho MT, Schnur RE, Monaghan KG, Juusola J, Rosenfeld JA, Bhoj E, Zackai EH, Sacharow S, Bara?ano K, Bosch DGM, de Vries BBA, Lindstrom K, Schroeder A, James P, Kulch P, Lalani SR, van Haelst MM, van Gassen KLI, van Binsbergen E, Barkovich AJ, Scott DA, Sherr EH
American journal of human genetics98(5)963-970(2016 May)

Meta-analysis of genome-wide association studies identifies novel loci that influence cupping and the glaucomatous process.
Springelkamp H, H?hn R, Mishra A, Hysi PG, Khor CC, Loomis SJ, Bailey JN, Gibson J, Thorleifsson G, Janssen SF, Luo X, Ramdas WD, Vithana E, Nongpiur ME, Montgomery GW, Xu L, Mountain JE, Gharahkhani P, Lu Y, Amin N, Karssen LC, Sim KS, van Leeuwen EM, Iglesias AI, Verhoeven VJ, Hauser MA, Loon SC, Despriet DD, Nag A, Venturini C, Sanfilippo PG, Schillert A, Kang JH, Landers J, Jonasson F, Cree AJ, van Koolwijk LM, Rivadeneira F, Souzeau E, Jonsson V, Menon G, , Weinreb RN, de Jong PT, Oostra BA, Uitterlinden AG, Hofman A, Ennis S, Thorsteinsdottir U, Burdon KP, , , Spector TD, Mirshahi A, Saw SM, Vingerling JR, Teo YY, Haines JL, Wolfs RC, Lemij HG, Tai ES, Jansonius NM, Jonas JB, Cheng CY, Aung T, Viswanathan AC, Klaver CC, Craig JE, Macgregor S, Mackey DA, Lotery AJ, Stefansson K, Bergen AA, Young TL, Wiggs JL, Pfeiffer N, Wong TY, Pasquale LR, Hewitt AW, van Duijn CM, Hammond CJ
Nature communications54883(2014 Sep)

Common genetic variants associated with cognitive performance identified using the proxy-phenotype method.
Rietveld CA, Esko T, Davies G, Pers TH, Turley P, Benyamin B, Chabris CF, Emilsson V, Johnson AD, Lee JJ, de Leeuw C, Marioni RE, Medland SE, Miller MB, Rostapshova O, van der Lee SJ, Vinkhuyzen AA, Amin N, Conley D, Derringer J, van Duijn CM, Fehrmann R, Franke L, Glaeser EL, Hansell NK, Hayward C, Iacono WG, Ibrahim-Verbaas C, Jaddoe V, Karjalainen J, Laibson D, Lichtenstein P, Liewald DC, Magnusson PK, Martin NG, McGue M, McMahon G, Pedersen NL, Pinker S, Porteous DJ, Posthuma D, Rivadeneira F, Smith BH, Starr JM, Tiemeier H, Timpson NJ, Trzaskowski M, Uitterlinden AG, Verhulst FC, Ward ME, Wright MJ, Davey Smith G, Deary IJ, Johannesson M, Plomin R, Visscher PM, Benjamin DJ, Cesarini D, Koellinger PD
Proceedings of the National Academy of Sciences of the United States of America111(38)13790-4(2014 Sep)

Identification of novel genetic Loci associated with thyroid peroxidase antibodies and clinical thyroid disease.
Medici M, Porcu E, Pistis G, Teumer A, Brown SJ, Jensen RA, Rawal R, Roef GL, Plantinga TS, Vermeulen SH, Lahti J, Simmonds MJ, Husemoen LL, Freathy RM, Shields BM, Pietzner D, Nagy R, Broer L, Chaker L, Korevaar TI, Plia MG, Sala C, V?lker U, Richards JB, Sweep FC, Gieger C, Corre T, Kajantie E, Thuesen B, Taes YE, Visser WE, Hattersley AT, Kratzsch J, Hamilton A, Li W, Homuth G, Lobina M, Mariotti S, Soranzo N, Cocca M, Nauck M, Spielhagen C, Ross A, Arnold A, van de Bunt M, Liyanarachchi S, Heier M, Grabe HJ, Masciullo C, Galesloot TE, Lim EM, Reischl E, Leedman PJ, Lai S, Delitala A, Bremner AP, Philips DI, Beilby JP, Mulas A, Vocale M, Abecasis G, Forsen T, James A, Widen E, Hui J, Prokisch H, Rietzschel EE, Palotie A, Feddema P, Fletcher SJ, Schramm K, Rotter JI, Kluttig A, Radke D, Traglia M, Surdulescu GL, He H, Franklyn JA, Tiller D, Vaidya B, de Meyer T, J?rgensen T, Eriksson JG, O'Leary PC, Wichmann E, Hermus AR, Psaty BM, Ittermann T, Hofman A, Bosi E, Schlessinger D, Wallaschofski H, Pirastu N, Aulchenko YS, de la Chapelle A, Netea-Maier RT, Gough SC, Meyer Zu Schwabedissen H, Frayling TM, Kaufman JM, Linneberg A, R?ikk?nen K, Smit JW, Kiemeney LA, Rivadeneira F, Uitterlinden AG, Walsh JP, Meisinger C, den Heijer M, Visser TJ, Spector TD, Wilson SG, V?lzke H, Cappola A, Toniolo D, Sanna S, Naitza S, Peeters RP
PLoS genetics10(2)e1004123(2014 Feb)

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

suggest that mutations in RERE cause a genetic syndrome and that haploinsufficiency of RERE might be sufficient to cause many of the phenotypes associated with proximal 1p36 deletions
Title: De Novo Mutations of RERE Cause a Genetic Syndrome with Features that Overlap Those Associated with Proximal 1p36 Deletions.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

Observational study of gene-disease association. (HuGE Navigator)
Title: Variant of TYR and autoimmunity susceptibility loci in generalized vitiligo.

Observational study of gene-disease association. (HuGE Navigator)
Title: High resolution linkage and linkage disequilibrium analyses of chromosome 1p36 SNPs identify new positional candidate genes for low bone mineral density.

The mouse ortholog of RERE is required for embryonic development
Title: Atrophin 2 recruits histone deacetylase and is required for the function of multiple signaling centers during mouse embryogenesis.

The following RERE gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RERE 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)
OHu56401	XM_011541511.2 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	15-17	$643.30 $919.00
OHu17244	NM_001042681.2 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17244	NM_012102.4 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17349	NM_001042682.2 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu17244	XM_017001358.1 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17244	XM_006710653.1 Latest version!	Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17244	XM_017001359.1 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17244	XM_005263464.2 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu33454	XM_011541510.2 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu33455	XM_005263466.1 Latest version!	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$643.30 $919.00
View Old Accession Versions >>
OHu17349	NM_001042682.1	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
OHu17244	XM_005263464.1	Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu17244	NM_001042681.1	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu33454	XM_011541510.1	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
OHu56401	XM_011541511.1	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	15-17	$643.30 $919.00
OHu17244	NM_012102.3	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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

Reference Sequences (Refseq)

RERE ( XM_011541511.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539813.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu56401
Clone ID Related Accession (Same CDS sequence)	XM_011541511.2 , XM_011541511.1
Accession Version	XM_011541511.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3546bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011541511.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGAAGGC GTCCAGCTCA GCGCATGAAG 
GTCGCCTCAG TGACCCACAG CTCAGTGGTC CTGGCCACAT GCGGCCATCC TTCGAGCCAC 
CACCAACCAC CATTGCTGCT GTGCCCCCCT ACATCGGGCC CGACACACCT GCCCTTCGGA 
CTCTGA

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

RefSeq	XP_011539813.1
CDS	679..4224
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARRRPAQRMKVASVTHSSVVLATCGHPSSHHQPPLLLCPPTSGPTHLPFGL

Target ORF information:

RefSeq Version	XM_011541511.2
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.

Target ORF information:

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

XM_011541511.2

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGAAGGC GTCCAGCTCA GCGCATGAAG 
GTCGCCTCAG TGACCCACAG CTCAGTGGTC CTGGCCACAT GCGGCCATCC TTCGAGCCAC 
CACCAACCAC CATTGCTGCT GTGCCCCCCT ACATCGGGCC CGACACACCT GCCCTTCGGA 
CTCTGA

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

RERE ( XM_011541511.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539813.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu56401
Clone ID Related Accession (Same CDS sequence)	XM_011541511.2 , XM_011541511.1
Accession Version	XM_011541511.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3546bp) 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	arginine-glutamic acid dipeptide repeats protein isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: 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##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGAAGGC GTCCAGCTCA GCGCATGAAG 
GTCGCCTCAG TGACCCACAG CTCAGTGGTC CTGGCCACAT GCGGCCATCC TTCGAGCCAC 
CACCAACCAC CATTGCTGCT GTGCCCCCCT ACATCGGGCC CGACACACCT GCCCTTCGGA 
CTCTGA

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

RefSeq	XP_011539813.1
CDS	677..4222
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARRRPAQRMKVASVTHSSVVLATCGHPSSHHQPPLLLCPPTSGPTHLPFGL

Target ORF information:

RefSeq Version	XM_011541511.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X6, mRNA.

Target ORF information:

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

XM_011541511.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGAAGGC GTCCAGCTCA GCGCATGAAG 
GTCGCCTCAG TGACCCACAG CTCAGTGGTC CTGGCCACAT GCGGCCATCC TTCGAGCCAC 
CACCAACCAC CATTGCTGCT GTGCCCCCCT ACATCGGGCC CGACACACCT GCCCTTCGGA 
CTCTGA

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

RERE ( NM_001042681.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001036146.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	NM_001042681.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	arginine-glutamic acid dipeptide repeats protein isoform a
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA868444.1, BC062342.1, AL356072.21 and CD679363.1. Transcript Variant: This variant (2) lacks an alternate exon in the 5' UTR, compared to variant 1. Variants 1 and 2 encode the same isoform (a). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC062342.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	NP_001036146.1
CDS	626..5326
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_001042681.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.

Target ORF information:

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

NM_001042681.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( NM_012102.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_036234.3 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	NM_012102.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	2019-02-16
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform a
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA868444.1, AB036737.1, AL357552.25, BC062342.1, AL356072.21 and CD679363.1. This sequence is a reference standard in the RefSeqGene project. On Aug 16, 2006 this sequence version replaced NM_012102.2. Transcript Variant: This variant (1) represents the longest transcript. Variants 1 and 2 encode the same isoform (a). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB036737.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	NP_036234.3
CDS	811..5511
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_012102.3
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.

Target ORF information:

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

NM_012102.3

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( NM_001042681.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001036146.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	NM_001042681.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	2019-08-02
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform a
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA868444.1, BC062342.1, AL356072.21 and CD679363.1. On Nov 23, 2018 this sequence version replaced NM_001042681.1. Transcript Variant: This variant (2) lacks an alternate exon in the 5' UTR, compared to variant 1. Variants 1 and 2 encode the same isoform (a). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC062342.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000400908.7/ ENSP00000383700.2 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	NP_001036146.1
CDS	626..5326
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_001042681.2
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 2, mRNA.

Target ORF information:

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

NM_001042681.2

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( NM_012102.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_036234.3 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	NM_012102.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	2019-08-21
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform a
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA868444.1, AB036737.1, AL357552.25, BC062342.1, AL356072.21 and CD679363.1. This sequence is a reference standard in the RefSeqGene project. On May 31, 2019 this sequence version replaced NM_012102.3. Transcript Variant: This variant (1) represents the longest transcript. Variants 1 and 2 encode the same isoform (a). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB036737.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	NP_036234.3
CDS	811..5511
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_012102.4
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 1, mRNA.

Target ORF information:

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

NM_012102.4

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( NM_001042682.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001036147.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu17349
Clone ID Related Accession (Same CDS sequence)	NM_001042682.2 , NM_001042682.1
Accession Version	NM_001042682.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3039bp) 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	2019-08-02
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform b
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL096855.48, CD674939.1, AF016005.1, BC062342.1, AL356072.21 and CD679363.1. On May 31, 2019 this sequence version replaced NM_001042682.1. Transcript Variant: This variant (3) contains a distinct 5' UTR and lacks an in-frame portion of the 5' coding region, compared to variant 1. The resulting isoform (b) has a shorter N-terminus when compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF016005.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGTTCAAAC CCGTCAAGGA AGAGGATGAT GGGCTCAGTG GGAAGCATAG CATGAGGACA 
CGGCGGAGTC GGGGCTCGAT GTCGACACTA CGCAGTGGTC GGAAGAAGCA GCCAGCCAGC 
CCTGATGGTC GCACCTCACC CATCAATGAA GACATCCGCT CCAGCGGCCG GAACTCCCCC 
AGCGCTGCCA GTACCTCCAG CAATGACAGT AAAGCAGAGA CAGTGAAGAA GTCGGCCAAG 
AAGGTGAAGG AGGAAGCCTC TTCCCCTCTT AAGAGTAACA AACGCCAGCG GGAGAAGGTG 
GCCTCTGATA CGGAGGAGGC TGACAGGACC AGCTCCAAGA AGACAAAAAC GCAGGAGATC 
AGCAGGCCCA ACTCGCCATC TGAAGGTGAG GGAGAGAGTT CAGACAGTCG CAGCGTCAAC 
GATGAGGGTA GCAGTGACCC CAAAGACATC GACCAGGACA ATCGCAGCAC GTCCCCGAGC 
ATCCCCAGCC CCCAGGACAA TGAGAGTGAC TCGGACTCGT CAGCCCAGCA GCAGATGCTG 
CAGGCCCAGC CCCCAGCCTT GCAGGCTCCC ACTGGGGTCA CCCCAGCTCC CTCCTCAGCT 
CCTCCAGGGA CCCCTCAGCT GCCCACGCCA GGGCCCACGC CCTCTGCCAC TGCAGTTCCC 
CCACAGGGCT CCCCCACGGC CTCCCAGGCC CCTAACCAGC CACAGGCTCC CACAGCGCCT 
GTTCCCCACA CCCACATCCA ACAGGCACCG GCCTTGCACC CCCAGCGGCC GCCCTCACCG 
CATCCCCCGC CGCATCCCTC GCCACATCCC CCGCTGCAGC CTCTGACTGG GTCGGCGGGC 
CAGCCTTCTG CACCCTCTCA TGCCCAGCCC CCACTGCACG GTCAGGGCCC ACCCGGCCCT 
CACAGCCTGC AGGCTGGGCC CCTGCTGCAG CACCCAGGCC CCCCACAGCC CTTTGGCCTC 
CCTCCCCAGG CCTCCCAAGG CCAGGCCCCT CTGGGGACCT CCCCAGCAGC AGCGTACCCT 
CACACCTCCC TGCAGCTGCC AGCCTCTCAG TCAGCGCTGC AGTCCCAACA GCCTCCACGG 
GAGCAGCCCC TGCCACCAGC GCCCTTGGCC ATGCCCCACA TCAAGCCCCC GCCTACCACT 
CCCATCCCCC AGCTGCCGGC GCCACAGGCC CACAAGCACC CTCCCCACCT CTCGGGGCCC 
TCACCCTTCT CCATGAATGC CAACCTGCCT CCCCCTCCAG CCCTGAAGCC CCTGAGCTCC 
CTGTCCACAC ATCACCCCCC GTCGGCTCAC CCCCCACCCC TGCAACTCAT GCCTCAGAGC 
CAGCCATTGC CCTCCTCGCC CGCCCAGCCC CCCGGGCTGA CCCAGAGCCA GAACCTGCCC 
CCGCCCCCTG CCTCCCACCC CCCTACAGGC CTCCACCAGG TGGCCCCCCA ACCCCCGTTT 
GCTCAGCACC CCTTTGTCCC TGGAGGCCCT CCTCCCATCA CCCCTCCGAC CTGCCCCTCC 
ACCTCTACCC CACCGGCGGG ACCTGGCACC TCGGCCCAGC CACCCTGCTC TGGTGCGGCG 
GCTTCAGGAG GCAGCATAGC GGGGGGGTCG TCCTGCCCAC TCCCCACCGT CCAGATCAAG 
GAGGAGGCTC TGGACGACGC TGAGGAGCCT GAGAGCCCCC CTCCCCCACC AAGGAGCCCG 
TCCCCGGAGC CCACTGTGGT GGACACCCCC AGTCACGCCA GCCAGTCAGC TAGGTTCTAC 
AAACACCTGG ACCGGGGCTA CAACTCGTGT GCCCGGACAG ACCTGTACTT CATGCCTCTG 
GCCGGGTCCA AGCTGGCCAA GAAGAGGGAG GAGGCCATTG AGAAGGCCAA GCGCGAGGCT 
GAGCAGAAAG CCCGAGAGGA GCGAGAGCGG GAGAAGGAGA AGGAGAAGGA GCGGGAGCGG 
GAGCGAGAGC GGGAGCGCGA GGCAGAGCGG GCGGCTAAGG CGTCCAGCTC AGCGCATGAA 
GGTCGCCTCA GTGACCCACA GCTCAGTGGT CCTGGCCACA TGCGGCCATC CTTCGAGCCA 
CCACCAACCA CCATTGCTGC TGTGCCCCCC TACATCGGGC CCGACACACC TGCCCTTCGG 
ACTCTGAGCG AGTACGCCCG GCCCCACGTC ATGTCGCCCA CCAACCGCAA CCACCCCTTC 
TACATGCCCC TTAACCCCAC GGACCCCCTG CTGGCCTACC ACATGCCTGG CCTCTACAAC 
GTCGACCCCA CCATCCGCGA GCGGGAGCTC CGGGAGCGGG AGATCCGAGA GCGGGAGATC 
CGAGAGCGGG AGCTGCGGGA GAGGATGAAG CCGGGCTTCG AGGTGAAGCC CCCAGAGCTG 
GACCCCCTGC ACCCAGCCGC CAACCCCATG GAGCACTTTG CCCGGCACAG CGCCCTCACC 
ATCCCCCCGA CCGCCGGGCC CCACCCTTTT GCTTCTTTCC ACCCGGGCCT GAACCCCTTG 
GAGAGGGAGA GACTGGCCCT GGCGGGCCCC CAGCTGCGGC CCGAGATGAG CTACCCTGAC 
AGACTGGCAG CCGAGCGTAT CCACGCAGAG CGCATGGCAT CGCTGACCAG CGATCCCCTG 
GCCCGACTGC AGATGTTCAA CGTGACTCCG CACCATCACC AGCACTCTCA CATTCACTCC 
CACCTCCACC TCCACCAGCA GGACCCCCTC CACCAAGGTT CAGCAGGCCC CGTTCACCCG 
CTGGTCGACC CCCTGACTGC CGGTCCCCAC CTGGCTCGCT TCCCCTACCC GCCTGGCACT 
CTCCCCAACC CTCTGCTTGG ACAGCCCCCA CACGAGCACG AGATGCTTCG CCACCCAGTT 
TTCGGCACCC CCTACCCCCG TGACCTGCCT GGGGCCATCC CACCCCCCAT GTCAGCAGCC 
CACCAGCTGC AGGCCATGCA TGCCCAGTCG GCCGAGCTGC AGAGACTGGC CATGGAGCAG 
CAGTGGCTGC ATGGACACCC CCACATGCAT GGTGGCCACC TACCAAGTCA GGAAGATTAT 
TACAGTCGAC TGAAGAAAGA AGGTGACAAG CAGTTATAA

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

RefSeq	NP_001036147.1
CDS	732..3770
Translation	MFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_001042682.2
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.

Target ORF information:

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

NM_001042682.2

ORF Insert Sequence:

ATGTTCAAAC CCGTCAAGGA AGAGGATGAT GGGCTCAGTG GGAAGCATAG CATGAGGACA 
CGGCGGAGTC GGGGCTCGAT GTCGACACTA CGCAGTGGTC GGAAGAAGCA GCCAGCCAGC 
CCTGATGGTC GCACCTCACC CATCAATGAA GACATCCGCT CCAGCGGCCG GAACTCCCCC 
AGCGCTGCCA GTACCTCCAG CAATGACAGT AAAGCAGAGA CAGTGAAGAA GTCGGCCAAG 
AAGGTGAAGG AGGAAGCCTC TTCCCCTCTT AAGAGTAACA AACGCCAGCG GGAGAAGGTG 
GCCTCTGATA CGGAGGAGGC TGACAGGACC AGCTCCAAGA AGACAAAAAC GCAGGAGATC 
AGCAGGCCCA ACTCGCCATC TGAAGGTGAG GGAGAGAGTT CAGACAGTCG CAGCGTCAAC 
GATGAGGGTA GCAGTGACCC CAAAGACATC GACCAGGACA ATCGCAGCAC GTCCCCGAGC 
ATCCCCAGCC CCCAGGACAA TGAGAGTGAC TCGGACTCGT CAGCCCAGCA GCAGATGCTG 
CAGGCCCAGC CCCCAGCCTT GCAGGCTCCC ACTGGGGTCA CCCCAGCTCC CTCCTCAGCT 
CCTCCAGGGA CCCCTCAGCT GCCCACGCCA GGGCCCACGC CCTCTGCCAC TGCAGTTCCC 
CCACAGGGCT CCCCCACGGC CTCCCAGGCC CCTAACCAGC CACAGGCTCC CACAGCGCCT 
GTTCCCCACA CCCACATCCA ACAGGCACCG GCCTTGCACC CCCAGCGGCC GCCCTCACCG 
CATCCCCCGC CGCATCCCTC GCCACATCCC CCGCTGCAGC CTCTGACTGG GTCGGCGGGC 
CAGCCTTCTG CACCCTCTCA TGCCCAGCCC CCACTGCACG GTCAGGGCCC ACCCGGCCCT 
CACAGCCTGC AGGCTGGGCC CCTGCTGCAG CACCCAGGCC CCCCACAGCC CTTTGGCCTC 
CCTCCCCAGG CCTCCCAAGG CCAGGCCCCT CTGGGGACCT CCCCAGCAGC AGCGTACCCT 
CACACCTCCC TGCAGCTGCC AGCCTCTCAG TCAGCGCTGC AGTCCCAACA GCCTCCACGG 
GAGCAGCCCC TGCCACCAGC GCCCTTGGCC ATGCCCCACA TCAAGCCCCC GCCTACCACT 
CCCATCCCCC AGCTGCCGGC GCCACAGGCC CACAAGCACC CTCCCCACCT CTCGGGGCCC 
TCACCCTTCT CCATGAATGC CAACCTGCCT CCCCCTCCAG CCCTGAAGCC CCTGAGCTCC 
CTGTCCACAC ATCACCCCCC GTCGGCTCAC CCCCCACCCC TGCAACTCAT GCCTCAGAGC 
CAGCCATTGC CCTCCTCGCC CGCCCAGCCC CCCGGGCTGA CCCAGAGCCA GAACCTGCCC 
CCGCCCCCTG CCTCCCACCC CCCTACAGGC CTCCACCAGG TGGCCCCCCA ACCCCCGTTT 
GCTCAGCACC CCTTTGTCCC TGGAGGCCCT CCTCCCATCA CCCCTCCGAC CTGCCCCTCC 
ACCTCTACCC CACCGGCGGG ACCTGGCACC TCGGCCCAGC CACCCTGCTC TGGTGCGGCG 
GCTTCAGGAG GCAGCATAGC GGGGGGGTCG TCCTGCCCAC TCCCCACCGT CCAGATCAAG 
GAGGAGGCTC TGGACGACGC TGAGGAGCCT GAGAGCCCCC CTCCCCCACC AAGGAGCCCG 
TCCCCGGAGC CCACTGTGGT GGACACCCCC AGTCACGCCA GCCAGTCAGC TAGGTTCTAC 
AAACACCTGG ACCGGGGCTA CAACTCGTGT GCCCGGACAG ACCTGTACTT CATGCCTCTG 
GCCGGGTCCA AGCTGGCCAA GAAGAGGGAG GAGGCCATTG AGAAGGCCAA GCGCGAGGCT 
GAGCAGAAAG CCCGAGAGGA GCGAGAGCGG GAGAAGGAGA AGGAGAAGGA GCGGGAGCGG 
GAGCGAGAGC GGGAGCGCGA GGCAGAGCGG GCGGCTAAGG CGTCCAGCTC AGCGCATGAA 
GGTCGCCTCA GTGACCCACA GCTCAGTGGT CCTGGCCACA TGCGGCCATC CTTCGAGCCA 
CCACCAACCA CCATTGCTGC TGTGCCCCCC TACATCGGGC CCGACACACC TGCCCTTCGG 
ACTCTGAGCG AGTACGCCCG GCCCCACGTC ATGTCGCCCA CCAACCGCAA CCACCCCTTC 
TACATGCCCC TTAACCCCAC GGACCCCCTG CTGGCCTACC ACATGCCTGG CCTCTACAAC 
GTCGACCCCA CCATCCGCGA GCGGGAGCTC CGGGAGCGGG AGATCCGAGA GCGGGAGATC 
CGAGAGCGGG AGCTGCGGGA GAGGATGAAG CCGGGCTTCG AGGTGAAGCC CCCAGAGCTG 
GACCCCCTGC ACCCAGCCGC CAACCCCATG GAGCACTTTG CCCGGCACAG CGCCCTCACC 
ATCCCCCCGA CCGCCGGGCC CCACCCTTTT GCTTCTTTCC ACCCGGGCCT GAACCCCTTG 
GAGAGGGAGA GACTGGCCCT GGCGGGCCCC CAGCTGCGGC CCGAGATGAG CTACCCTGAC 
AGACTGGCAG CCGAGCGTAT CCACGCAGAG CGCATGGCAT CGCTGACCAG CGATCCCCTG 
GCCCGACTGC AGATGTTCAA CGTGACTCCG CACCATCACC AGCACTCTCA CATTCACTCC 
CACCTCCACC TCCACCAGCA GGACCCCCTC CACCAAGGTT CAGCAGGCCC CGTTCACCCG 
CTGGTCGACC CCCTGACTGC CGGTCCCCAC CTGGCTCGCT TCCCCTACCC GCCTGGCACT 
CTCCCCAACC CTCTGCTTGG ACAGCCCCCA CACGAGCACG AGATGCTTCG CCACCCAGTT 
TTCGGCACCC CCTACCCCCG TGACCTGCCT GGGGCCATCC CACCCCCCAT GTCAGCAGCC 
CACCAGCTGC AGGCCATGCA TGCCCAGTCG GCCGAGCTGC AGAGACTGGC CATGGAGCAG 
CAGTGGCTGC ATGGACACCC CCACATGCAT GGTGGCCACC TACCAAGTCA GGAAGATTAT 
TACAGTCGAC TGAAGAAAGA AGGTGACAAG CAGTTATAA

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

RERE ( NM_001042682.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001036147.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu17349
Clone ID Related Accession (Same CDS sequence)	NM_001042682.2 , NM_001042682.1
Accession Version	NM_001042682.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3039bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-07-20
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform b
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from CD674939.1, AF016005.1, BC062342.1, AL356072.21 and CD679363.1. Transcript Variant: This variant (3) contains a distinct 5' UTR and lacks an in-frame portion of the 5' coding region, compared to variant 1. The resulting isoform (b) has a shorter N-terminus when compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF016005.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGTTCAAAC CCGTCAAGGA AGAGGATGAT GGGCTCAGTG GGAAGCATAG CATGAGGACA 
CGGCGGAGTC GGGGCTCGAT GTCGACACTA CGCAGTGGTC GGAAGAAGCA GCCAGCCAGC 
CCTGATGGTC GCACCTCACC CATCAATGAA GACATCCGCT CCAGCGGCCG GAACTCCCCC 
AGCGCTGCCA GTACCTCCAG CAATGACAGT AAAGCAGAGA CAGTGAAGAA GTCGGCCAAG 
AAGGTGAAGG AGGAAGCCTC TTCCCCTCTT AAGAGTAACA AACGCCAGCG GGAGAAGGTG 
GCCTCTGATA CGGAGGAGGC TGACAGGACC AGCTCCAAGA AGACAAAAAC GCAGGAGATC 
AGCAGGCCCA ACTCGCCATC TGAAGGTGAG GGAGAGAGTT CAGACAGTCG CAGCGTCAAC 
GATGAGGGTA GCAGTGACCC CAAAGACATC GACCAGGACA ATCGCAGCAC GTCCCCGAGC 
ATCCCCAGCC CCCAGGACAA TGAGAGTGAC TCGGACTCGT CAGCCCAGCA GCAGATGCTG 
CAGGCCCAGC CCCCAGCCTT GCAGGCTCCC ACTGGGGTCA CCCCAGCTCC CTCCTCAGCT 
CCTCCAGGGA CCCCTCAGCT GCCCACGCCA GGGCCCACGC CCTCTGCCAC TGCAGTTCCC 
CCACAGGGCT CCCCCACGGC CTCCCAGGCC CCTAACCAGC CACAGGCTCC CACAGCGCCT 
GTTCCCCACA CCCACATCCA ACAGGCACCG GCCTTGCACC CCCAGCGGCC GCCCTCACCG 
CATCCCCCGC CGCATCCCTC GCCACATCCC CCGCTGCAGC CTCTGACTGG GTCGGCGGGC 
CAGCCTTCTG CACCCTCTCA TGCCCAGCCC CCACTGCACG GTCAGGGCCC ACCCGGCCCT 
CACAGCCTGC AGGCTGGGCC CCTGCTGCAG CACCCAGGCC CCCCACAGCC CTTTGGCCTC 
CCTCCCCAGG CCTCCCAAGG CCAGGCCCCT CTGGGGACCT CCCCAGCAGC AGCGTACCCT 
CACACCTCCC TGCAGCTGCC AGCCTCTCAG TCAGCGCTGC AGTCCCAACA GCCTCCACGG 
GAGCAGCCCC TGCCACCAGC GCCCTTGGCC ATGCCCCACA TCAAGCCCCC GCCTACCACT 
CCCATCCCCC AGCTGCCGGC GCCACAGGCC CACAAGCACC CTCCCCACCT CTCGGGGCCC 
TCACCCTTCT CCATGAATGC CAACCTGCCT CCCCCTCCAG CCCTGAAGCC CCTGAGCTCC 
CTGTCCACAC ATCACCCCCC GTCGGCTCAC CCCCCACCCC TGCAACTCAT GCCTCAGAGC 
CAGCCATTGC CCTCCTCGCC CGCCCAGCCC CCCGGGCTGA CCCAGAGCCA GAACCTGCCC 
CCGCCCCCTG CCTCCCACCC CCCTACAGGC CTCCACCAGG TGGCCCCCCA ACCCCCGTTT 
GCTCAGCACC CCTTTGTCCC TGGAGGCCCT CCTCCCATCA CCCCTCCGAC CTGCCCCTCC 
ACCTCTACCC CACCGGCGGG ACCTGGCACC TCGGCCCAGC CACCCTGCTC TGGTGCGGCG 
GCTTCAGGAG GCAGCATAGC GGGGGGGTCG TCCTGCCCAC TCCCCACCGT CCAGATCAAG 
GAGGAGGCTC TGGACGACGC TGAGGAGCCT GAGAGCCCCC CTCCCCCACC AAGGAGCCCG 
TCCCCGGAGC CCACTGTGGT GGACACCCCC AGTCACGCCA GCCAGTCAGC TAGGTTCTAC 
AAACACCTGG ACCGGGGCTA CAACTCGTGT GCCCGGACAG ACCTGTACTT CATGCCTCTG 
GCCGGGTCCA AGCTGGCCAA GAAGAGGGAG GAGGCCATTG AGAAGGCCAA GCGCGAGGCT 
GAGCAGAAAG CCCGAGAGGA GCGAGAGCGG GAGAAGGAGA AGGAGAAGGA GCGGGAGCGG 
GAGCGAGAGC GGGAGCGCGA GGCAGAGCGG GCGGCTAAGG CGTCCAGCTC AGCGCATGAA 
GGTCGCCTCA GTGACCCACA GCTCAGTGGT CCTGGCCACA TGCGGCCATC CTTCGAGCCA 
CCACCAACCA CCATTGCTGC TGTGCCCCCC TACATCGGGC CCGACACACC TGCCCTTCGG 
ACTCTGAGCG AGTACGCCCG GCCCCACGTC ATGTCGCCCA CCAACCGCAA CCACCCCTTC 
TACATGCCCC TTAACCCCAC GGACCCCCTG CTGGCCTACC ACATGCCTGG CCTCTACAAC 
GTCGACCCCA CCATCCGCGA GCGGGAGCTC CGGGAGCGGG AGATCCGAGA GCGGGAGATC 
CGAGAGCGGG AGCTGCGGGA GAGGATGAAG CCGGGCTTCG AGGTGAAGCC CCCAGAGCTG 
GACCCCCTGC ACCCAGCCGC CAACCCCATG GAGCACTTTG CCCGGCACAG CGCCCTCACC 
ATCCCCCCGA CCGCCGGGCC CCACCCTTTT GCTTCTTTCC ACCCGGGCCT GAACCCCTTG 
GAGAGGGAGA GACTGGCCCT GGCGGGCCCC CAGCTGCGGC CCGAGATGAG CTACCCTGAC 
AGACTGGCAG CCGAGCGTAT CCACGCAGAG CGCATGGCAT CGCTGACCAG CGATCCCCTG 
GCCCGACTGC AGATGTTCAA CGTGACTCCG CACCATCACC AGCACTCTCA CATTCACTCC 
CACCTCCACC TCCACCAGCA GGACCCCCTC CACCAAGGTT CAGCAGGCCC CGTTCACCCG 
CTGGTCGACC CCCTGACTGC CGGTCCCCAC CTGGCTCGCT TCCCCTACCC GCCTGGCACT 
CTCCCCAACC CTCTGCTTGG ACAGCCCCCA CACGAGCACG AGATGCTTCG CCACCCAGTT 
TTCGGCACCC CCTACCCCCG TGACCTGCCT GGGGCCATCC CACCCCCCAT GTCAGCAGCC 
CACCAGCTGC AGGCCATGCA TGCCCAGTCG GCCGAGCTGC AGAGACTGGC CATGGAGCAG 
CAGTGGCTGC ATGGACACCC CCACATGCAT GGTGGCCACC TACCAAGTCA GGAAGATTAT 
TACAGTCGAC TGAAGAAAGA AGGTGACAAG CAGTTATAA

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

RefSeq	NP_001036147.1
CDS	587..3625
Translation	MFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	NM_001042682.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant 3, mRNA.

Target ORF information:

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

NM_001042682.1

ORF Insert Sequence:

ATGTTCAAAC CCGTCAAGGA AGAGGATGAT GGGCTCAGTG GGAAGCATAG CATGAGGACA 
CGGCGGAGTC GGGGCTCGAT GTCGACACTA CGCAGTGGTC GGAAGAAGCA GCCAGCCAGC 
CCTGATGGTC GCACCTCACC CATCAATGAA GACATCCGCT CCAGCGGCCG GAACTCCCCC 
AGCGCTGCCA GTACCTCCAG CAATGACAGT AAAGCAGAGA CAGTGAAGAA GTCGGCCAAG 
AAGGTGAAGG AGGAAGCCTC TTCCCCTCTT AAGAGTAACA AACGCCAGCG GGAGAAGGTG 
GCCTCTGATA CGGAGGAGGC TGACAGGACC AGCTCCAAGA AGACAAAAAC GCAGGAGATC 
AGCAGGCCCA ACTCGCCATC TGAAGGTGAG GGAGAGAGTT CAGACAGTCG CAGCGTCAAC 
GATGAGGGTA GCAGTGACCC CAAAGACATC GACCAGGACA ATCGCAGCAC GTCCCCGAGC 
ATCCCCAGCC CCCAGGACAA TGAGAGTGAC TCGGACTCGT CAGCCCAGCA GCAGATGCTG 
CAGGCCCAGC CCCCAGCCTT GCAGGCTCCC ACTGGGGTCA CCCCAGCTCC CTCCTCAGCT 
CCTCCAGGGA CCCCTCAGCT GCCCACGCCA GGGCCCACGC CCTCTGCCAC TGCAGTTCCC 
CCACAGGGCT CCCCCACGGC CTCCCAGGCC CCTAACCAGC CACAGGCTCC CACAGCGCCT 
GTTCCCCACA CCCACATCCA ACAGGCACCG GCCTTGCACC CCCAGCGGCC GCCCTCACCG 
CATCCCCCGC CGCATCCCTC GCCACATCCC CCGCTGCAGC CTCTGACTGG GTCGGCGGGC 
CAGCCTTCTG CACCCTCTCA TGCCCAGCCC CCACTGCACG GTCAGGGCCC ACCCGGCCCT 
CACAGCCTGC AGGCTGGGCC CCTGCTGCAG CACCCAGGCC CCCCACAGCC CTTTGGCCTC 
CCTCCCCAGG CCTCCCAAGG CCAGGCCCCT CTGGGGACCT CCCCAGCAGC AGCGTACCCT 
CACACCTCCC TGCAGCTGCC AGCCTCTCAG TCAGCGCTGC AGTCCCAACA GCCTCCACGG 
GAGCAGCCCC TGCCACCAGC GCCCTTGGCC ATGCCCCACA TCAAGCCCCC GCCTACCACT 
CCCATCCCCC AGCTGCCGGC GCCACAGGCC CACAAGCACC CTCCCCACCT CTCGGGGCCC 
TCACCCTTCT CCATGAATGC CAACCTGCCT CCCCCTCCAG CCCTGAAGCC CCTGAGCTCC 
CTGTCCACAC ATCACCCCCC GTCGGCTCAC CCCCCACCCC TGCAACTCAT GCCTCAGAGC 
CAGCCATTGC CCTCCTCGCC CGCCCAGCCC CCCGGGCTGA CCCAGAGCCA GAACCTGCCC 
CCGCCCCCTG CCTCCCACCC CCCTACAGGC CTCCACCAGG TGGCCCCCCA ACCCCCGTTT 
GCTCAGCACC CCTTTGTCCC TGGAGGCCCT CCTCCCATCA CCCCTCCGAC CTGCCCCTCC 
ACCTCTACCC CACCGGCGGG ACCTGGCACC TCGGCCCAGC CACCCTGCTC TGGTGCGGCG 
GCTTCAGGAG GCAGCATAGC GGGGGGGTCG TCCTGCCCAC TCCCCACCGT CCAGATCAAG 
GAGGAGGCTC TGGACGACGC TGAGGAGCCT GAGAGCCCCC CTCCCCCACC AAGGAGCCCG 
TCCCCGGAGC CCACTGTGGT GGACACCCCC AGTCACGCCA GCCAGTCAGC TAGGTTCTAC 
AAACACCTGG ACCGGGGCTA CAACTCGTGT GCCCGGACAG ACCTGTACTT CATGCCTCTG 
GCCGGGTCCA AGCTGGCCAA GAAGAGGGAG GAGGCCATTG AGAAGGCCAA GCGCGAGGCT 
GAGCAGAAAG CCCGAGAGGA GCGAGAGCGG GAGAAGGAGA AGGAGAAGGA GCGGGAGCGG 
GAGCGAGAGC GGGAGCGCGA GGCAGAGCGG GCGGCTAAGG CGTCCAGCTC AGCGCATGAA 
GGTCGCCTCA GTGACCCACA GCTCAGTGGT CCTGGCCACA TGCGGCCATC CTTCGAGCCA 
CCACCAACCA CCATTGCTGC TGTGCCCCCC TACATCGGGC CCGACACACC TGCCCTTCGG 
ACTCTGAGCG AGTACGCCCG GCCCCACGTC ATGTCGCCCA CCAACCGCAA CCACCCCTTC 
TACATGCCCC TTAACCCCAC GGACCCCCTG CTGGCCTACC ACATGCCTGG CCTCTACAAC 
GTCGACCCCA CCATCCGCGA GCGGGAGCTC CGGGAGCGGG AGATCCGAGA GCGGGAGATC 
CGAGAGCGGG AGCTGCGGGA GAGGATGAAG CCGGGCTTCG AGGTGAAGCC CCCAGAGCTG 
GACCCCCTGC ACCCAGCCGC CAACCCCATG GAGCACTTTG CCCGGCACAG CGCCCTCACC 
ATCCCCCCGA CCGCCGGGCC CCACCCTTTT GCTTCTTTCC ACCCGGGCCT GAACCCCTTG 
GAGAGGGAGA GACTGGCCCT GGCGGGCCCC CAGCTGCGGC CCGAGATGAG CTACCCTGAC 
AGACTGGCAG CCGAGCGTAT CCACGCAGAG CGCATGGCAT CGCTGACCAG CGATCCCCTG 
GCCCGACTGC AGATGTTCAA CGTGACTCCG CACCATCACC AGCACTCTCA CATTCACTCC 
CACCTCCACC TCCACCAGCA GGACCCCCTC CACCAAGGTT CAGCAGGCCC CGTTCACCCG 
CTGGTCGACC CCCTGACTGC CGGTCCCCAC CTGGCTCGCT TCCCCTACCC GCCTGGCACT 
CTCCCCAACC CTCTGCTTGG ACAGCCCCCA CACGAGCACG AGATGCTTCG CCACCCAGTT 
TTCGGCACCC CCTACCCCCG TGACCTGCCT GGGGCCATCC CACCCCCCAT GTCAGCAGCC 
CACCAGCTGC AGGCCATGCA TGCCCAGTCG GCCGAGCTGC AGAGACTGGC CATGGAGCAG 
CAGTGGCTGC ATGGACACCC CCACATGCAT GGTGGCCACC TACCAAGTCA GGAAGATTAT 
TACAGTCGAC TGAAGAAAGA AGGTGACAAG CAGTTATAA

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

RERE ( XM_017001358.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856847.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	XM_017001358.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	XP_016856847.1
CDS	316..5016
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_017001358.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X2, mRNA.

Target ORF information:

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

XM_017001358.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( XM_005263464.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005263521.1 Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	XM_005263464.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	2015-03-11
Organism	Homo sapiens(Human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X1
Comment

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq

XP_005263521.1

Translation

MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_005263464.1
Organism	Homo sapiens(Human)
Definition	Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X1, mRNA.

Target ORF information:

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

XM_005263464.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( XM_006710653.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006710716.1 Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	XM_006710653.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) 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	2015-03-11
Organism	Homo sapiens(Human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X1
Comment

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq

XP_006710716.1

Translation

MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_006710653.1
Organism	Homo sapiens(Human)
Definition	Homo sapiens arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant X2, mRNA.

Target ORF information:

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

XM_006710653.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( XM_005263464.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005263521.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	XM_005263464.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005263464.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	XP_005263521.1
CDS	565..5265
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_005263464.2
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X1, mRNA.

Target ORF information:

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

XM_005263464.2

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( XM_017001359.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016856848.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu17244
Clone ID Related Accession (Same CDS sequence)	NM_001042681.1 , XM_017001358.1 , XM_005263464.1 , XM_006710653.1 , XM_005263464.2 , XM_017001359.1 , NM_012102.3 , NM_001042681.2 , NM_012102.4
Accession Version	XM_017001359.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4701bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RefSeq	XP_016856848.1
CDS	821..5521
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLVHNSQACCRSPTPALCDPPACSLPVASQPPQHLSEAGRGPVGSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_017001359.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X3, mRNA.

Target ORF information:

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

XM_017001359.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGGTCC ACAACTCCCA GGCCTGTTGC 
AGATCTCCAA CTCCTGCTTT GTGTGACCCC CCAGCATGCT CTCTGCCGGT GGCATCACAG 
CCACCACAGC ATCTTTCTGA AGCCGGGAGA GGGCCTGTAG GGAGTAAGAG GGACCATCTC 
CTCATGAACG TCAAATGGTA CTACCGTCAA TCTGAGGTTC CAGATTCTGT GTATCAGCAT 
TTGGTTCAGG ATCGACATAA TGAAAATGAC TCTGGAAGAG AACTTGTCAT TACAGACCCA 
GTTATCAAGA ACCGAGAGCT CTTCATTTCT GATTACGTTG ACACTTACCA TGCTGCTGCC 
CTTAGAGGGA AGTGTAACAT CTCCCATTTT TCTGACATAT TTGCTGCTAG AGAGTTTAAA 
GCCCGAGTGG ATTCATTTTT CTACATATTA GGATATAACC CTGAGACAAG GAGGCTGAAC 
AGTACCCAGG GGGAGATTCG TGTCGGTCCT AGTCATCAGG CCAAACTTCC AGATCTGCAA 
CCATTTCCTT CTCCAGATGG TGATACAGTG ACCCAACATG AGGAACTGGT CTGGATGCCT 
GGAGTTAACG ACTGTGACCT CCTTATGTAC TTGAGGGCAG CAAGGAGCAT GGCGGCATTT 
GCAGGAATGT GTGATGGAGG CTCTACAGAG GACGGCTGTG TCGCAGCCTC TCGGGATGAC 
ACCACTCTGA ATGCACTGAA CACACTGCAT GAAAGCGGTT ACGATGCTGG CAAAGCCCTG 
CAGCGCCTGG TGAAGAAGCC TGTGCCCAAG CTCATCGAGA AGTGCTGGAC CGAGGACGAA 
GTGAAACGCT TCGTTAAGGG ACTCAGGCAG TACGGGAAGA ACTTCTTCAG AATTAGAAAG 
GAGCTGCTTC CCAATAAGGA AACAGGGGAG CTGATCACCT TCTATTACTA TTGGAAGAAG 
ACCCCCGAAG CAGCCAGCTC CCGAGCCCAT CGTAGGCACC GCAGGCAGGC CGTGTTCAGG 
AGGATTAAGA CTCGCACCGC GTCCACACCC GTCAACACAC CCTCCAGACC CCCGTCCAGT 
GAATTCTTGG ACCTAAGTTC AGCCAGTGAA GATGACTTCG ACAGTGAGGA CAGTGAGCAG 
GAGCTGAAGG GGTACGCCTG CCGCCACTGC TTCACCACCA CCTCCAAAGA TTGGCACCAC 
GGAGGCCGGG AGAACATCCT GCTTTGCACC GACTGTCGCA TCCACTTCAA GAAATACGGT 
GAGCTCCCGC CCATTGAGAA GCCCGTGGAC CCGCCACCGT TTATGTTCAA ACCCGTCAAG 
GAAGAGGATG ATGGGCTCAG TGGGAAGCAT AGCATGAGGA CACGGCGGAG TCGGGGCTCG 
ATGTCGACAC TACGCAGTGG TCGGAAGAAG CAGCCAGCCA GCCCTGATGG TCGCACCTCA 
CCCATCAATG AAGACATCCG CTCCAGCGGC CGGAACTCCC CCAGCGCTGC CAGTACCTCC 
AGCAATGACA GTAAAGCAGA GACAGTGAAG AAGTCGGCCA AGAAGGTGAA GGAGGAAGCC 
TCTTCCCCTC TTAAGAGTAA CAAACGCCAG CGGGAGAAGG TGGCCTCTGA TACGGAGGAG 
GCTGACAGGA CCAGCTCCAA GAAGACAAAA ACGCAGGAGA TCAGCAGGCC CAACTCGCCA 
TCTGAAGGTG AGGGAGAGAG TTCAGACAGT CGCAGCGTCA ACGATGAGGG TAGCAGTGAC 
CCCAAAGACA TCGACCAGGA CAATCGCAGC ACGTCCCCGA GCATCCCCAG CCCCCAGGAC 
AATGAGAGTG ACTCGGACTC GTCAGCCCAG CAGCAGATGC TGCAGGCCCA GCCCCCAGCC 
TTGCAGGCTC CCACTGGGGT CACCCCAGCT CCCTCCTCAG CTCCTCCAGG GACCCCTCAG 
CTGCCCACGC CAGGGCCCAC GCCCTCTGCC ACTGCAGTTC CCCCACAGGG CTCCCCCACG 
GCCTCCCAGG CCCCTAACCA GCCACAGGCT CCCACAGCGC CTGTTCCCCA CACCCACATC 
CAACAGGCAC CGGCCTTGCA CCCCCAGCGG CCGCCCTCAC CGCATCCCCC GCCGCATCCC 
TCGCCACATC CCCCGCTGCA GCCTCTGACT GGGTCGGCGG GCCAGCCTTC TGCACCCTCT 
CATGCCCAGC CCCCACTGCA CGGTCAGGGC CCACCCGGCC CTCACAGCCT GCAGGCTGGG 
CCCCTGCTGC AGCACCCAGG CCCCCCACAG CCCTTTGGCC TCCCTCCCCA GGCCTCCCAA 
GGCCAGGCCC CTCTGGGGAC CTCCCCAGCA GCAGCGTACC CTCACACCTC CCTGCAGCTG 
CCAGCCTCTC AGTCAGCGCT GCAGTCCCAA CAGCCTCCAC GGGAGCAGCC CCTGCCACCA 
GCGCCCTTGG CCATGCCCCA CATCAAGCCC CCGCCTACCA CTCCCATCCC CCAGCTGCCG 
GCGCCACAGG CCCACAAGCA CCCTCCCCAC CTCTCGGGGC CCTCACCCTT CTCCATGAAT 
GCCAACCTGC CTCCCCCTCC AGCCCTGAAG CCCCTGAGCT CCCTGTCCAC ACATCACCCC 
CCGTCGGCTC ACCCCCCACC CCTGCAACTC ATGCCTCAGA GCCAGCCATT GCCCTCCTCG 
CCCGCCCAGC CCCCCGGGCT GACCCAGAGC CAGAACCTGC CCCCGCCCCC TGCCTCCCAC 
CCCCCTACAG GCCTCCACCA GGTGGCCCCC CAACCCCCGT TTGCTCAGCA CCCCTTTGTC 
CCTGGAGGCC CTCCTCCCAT CACCCCTCCG ACCTGCCCCT CCACCTCTAC CCCACCGGCG 
GGACCTGGCA CCTCGGCCCA GCCACCCTGC TCTGGTGCGG CGGCTTCAGG AGGCAGCATA 
GCGGGGGGGT CGTCCTGCCC ACTCCCCACC GTCCAGATCA AGGAGGAGGC TCTGGACGAC 
GCTGAGGAGC CTGAGAGCCC CCCTCCCCCA CCAAGGAGCC CGTCCCCGGA GCCCACTGTG 
GTGGACACCC CCAGTCACGC CAGCCAGTCA GCTAGGTTCT ACAAACACCT GGACCGGGGC 
TACAACTCGT GTGCCCGGAC AGACCTGTAC TTCATGCCTC TGGCCGGGTC CAAGCTGGCC 
AAGAAGAGGG AGGAGGCCAT TGAGAAGGCC AAGCGCGAGG CTGAGCAGAA AGCCCGAGAG 
GAGCGAGAGC GGGAGAAGGA GAAGGAGAAG GAGCGGGAGC GGGAGCGAGA GCGGGAGCGC 
GAGGCAGAGC GGGCGGCTAA GGCGTCCAGC TCAGCGCATG AAGGTCGCCT CAGTGACCCA 
CAGCTCAGTG GTCCTGGCCA CATGCGGCCA TCCTTCGAGC CACCACCAAC CACCATTGCT 
GCTGTGCCCC CCTACATCGG GCCCGACACA CCTGCCCTTC GGACTCTGAG CGAGTACGCC 
CGGCCCCACG TCATGTCGCC CACCAACCGC AACCACCCCT TCTACATGCC CCTTAACCCC 
ACGGACCCCC TGCTGGCCTA CCACATGCCT GGCCTCTACA ACGTCGACCC CACCATCCGC 
GAGCGGGAGC TCCGGGAGCG GGAGATCCGA GAGCGGGAGA TCCGAGAGCG GGAGCTGCGG 
GAGAGGATGA AGCCGGGCTT CGAGGTGAAG CCCCCAGAGC TGGACCCCCT GCACCCAGCC 
GCCAACCCCA TGGAGCACTT TGCCCGGCAC AGCGCCCTCA CCATCCCCCC GACCGCCGGG 
CCCCACCCTT TTGCTTCTTT CCACCCGGGC CTGAACCCCT TGGAGAGGGA GAGACTGGCC 
CTGGCGGGCC CCCAGCTGCG GCCCGAGATG AGCTACCCTG ACAGACTGGC AGCCGAGCGT 
ATCCACGCAG AGCGCATGGC ATCGCTGACC AGCGATCCCC TGGCCCGACT GCAGATGTTC 
AACGTGACTC CGCACCATCA CCAGCACTCT CACATTCACT CCCACCTCCA CCTCCACCAG 
CAGGACCCCC TCCACCAAGG TTCAGCAGGC CCCGTTCACC CGCTGGTCGA CCCCCTGACT 
GCCGGTCCCC ACCTGGCTCG CTTCCCCTAC CCGCCTGGCA CTCTCCCCAA CCCTCTGCTT 
GGACAGCCCC CACACGAGCA CGAGATGCTT CGCCACCCAG TTTTCGGCAC CCCCTACCCC 
CGTGACCTGC CTGGGGCCAT CCCACCCCCC ATGTCAGCAG CCCACCAGCT GCAGGCCATG 
CATGCCCAGT CGGCCGAGCT GCAGAGACTG GCCATGGAGC AGCAGTGGCT GCATGGACAC 
CCCCACATGC ATGGTGGCCA CCTACCAAGT CAGGAAGATT ATTACAGTCG ACTGAAGAAA 
GAAGGTGACA AGCAGTTATA A

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

RERE ( XM_011541510.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539812.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu33454
Clone ID Related Accession (Same CDS sequence)	XM_011541510.2 , XM_011541510.1
Accession Version	XM_011541510.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4575bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011541510.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGAGTA AGAGGGACCA TCTCCTCATG 
AACGTCAAAT GGTACTACCG TCAATCTGAG GTTCCAGATT CTGTGTATCA GCATTTGGTT 
CAGGATCGAC ATAATGAAAA TGACTCTGGA AGAGAACTTG TCATTACAGA CCCAGTTATC 
AAGAACCGAG AGCTCTTCAT TTCTGATTAC GTTGACACTT ACCATGCTGC TGCCCTTAGA 
GGGAAGTGTA ACATCTCCCA TTTTTCTGAC ATATTTGCTG CTAGAGAGTT TAAAGCCCGA 
GTGGATTCAT TTTTCTACAT ATTAGGATAT AACCCTGAGA CAAGGAGGCT GAACAGTACC 
CAGGGGGAGA TTCGTGTCGG TCCTAGTCAT CAGGCCAAAC TTCCAGATCT GCAACCATTT 
CCTTCTCCAG ATGGTGATAC AGTGACCCAA CATGAGGAAC TGGTCTGGAT GCCTGGAGTT 
AACGACTGTG ACCTCCTTAT GTACTTGAGG GCAGCAAGGA GCATGGCGGC ATTTGCAGGA 
ATGTGTGATG GAGGCTCTAC AGAGGACGGC TGTGTCGCAG CCTCTCGGGA TGACACCACT 
CTGAATGCAC TGAACACACT GCATGAAAGC GGTTACGATG CTGGCAAAGC CCTGCAGCGC 
CTGGTGAAGA AGCCTGTGCC CAAGCTCATC GAGAAGTGCT GGACCGAGGA CGAAGTGAAA 
CGCTTCGTTA AGGGACTCAG GCAGTACGGG AAGAACTTCT TCAGAATTAG AAAGGAGCTG 
CTTCCCAATA AGGAAACAGG GGAGCTGATC ACCTTCTATT ACTATTGGAA GAAGACCCCC 
GAAGCAGCCA GCTCCCGAGC CCATCGTAGG CACCGCAGGC AGGCCGTGTT CAGGAGGATT 
AAGACTCGCA CCGCGTCCAC ACCCGTCAAC ACACCCTCCA GACCCCCGTC CAGTGAATTC 
TTGGACCTAA GTTCAGCCAG TGAAGATGAC TTCGACAGTG AGGACAGTGA GCAGGAGCTG 
AAGGGGTACG CCTGCCGCCA CTGCTTCACC ACCACCTCCA AAGATTGGCA CCACGGAGGC 
CGGGAGAACA TCCTGCTTTG CACCGACTGT CGCATCCACT TCAAGAAATA CGGTGAGCTC 
CCGCCCATTG AGAAGCCCGT GGACCCGCCA CCGTTTATGT TCAAACCCGT CAAGGAAGAG 
GATGATGGGC TCAGTGGGAA GCATAGCATG AGGACACGGC GGAGTCGGGG CTCGATGTCG 
ACACTACGCA GTGGTCGGAA GAAGCAGCCA GCCAGCCCTG ATGGTCGCAC CTCACCCATC 
AATGAAGACA TCCGCTCCAG CGGCCGGAAC TCCCCCAGCG CTGCCAGTAC CTCCAGCAAT 
GACAGTAAAG CAGAGACAGT GAAGAAGTCG GCCAAGAAGG TGAAGGAGGA AGCCTCTTCC 
CCTCTTAAGA GTAACAAACG CCAGCGGGAG AAGGTGGCCT CTGATACGGA GGAGGCTGAC 
AGGACCAGCT CCAAGAAGAC AAAAACGCAG GAGATCAGCA GGCCCAACTC GCCATCTGAA 
GGTGAGGGAG AGAGTTCAGA CAGTCGCAGC GTCAACGATG AGGGTAGCAG TGACCCCAAA 
GACATCGACC AGGACAATCG CAGCACGTCC CCGAGCATCC CCAGCCCCCA GGACAATGAG 
AGTGACTCGG ACTCGTCAGC CCAGCAGCAG ATGCTGCAGG CCCAGCCCCC AGCCTTGCAG 
GCTCCCACTG GGGTCACCCC AGCTCCCTCC TCAGCTCCTC CAGGGACCCC TCAGCTGCCC 
ACGCCAGGGC CCACGCCCTC TGCCACTGCA GTTCCCCCAC AGGGCTCCCC CACGGCCTCC 
CAGGCCCCTA ACCAGCCACA GGCTCCCACA GCGCCTGTTC CCCACACCCA CATCCAACAG 
GCACCGGCCT TGCACCCCCA GCGGCCGCCC TCACCGCATC CCCCGCCGCA TCCCTCGCCA 
CATCCCCCGC TGCAGCCTCT GACTGGGTCG GCGGGCCAGC CTTCTGCACC CTCTCATGCC 
CAGCCCCCAC TGCACGGTCA GGGCCCACCC GGCCCTCACA GCCTGCAGGC TGGGCCCCTG 
CTGCAGCACC CAGGCCCCCC ACAGCCCTTT GGCCTCCCTC CCCAGGCCTC CCAAGGCCAG 
GCCCCTCTGG GGACCTCCCC AGCAGCAGCG TACCCTCACA CCTCCCTGCA GCTGCCAGCC 
TCTCAGTCAG CGCTGCAGTC CCAACAGCCT CCACGGGAGC AGCCCCTGCC ACCAGCGCCC 
TTGGCCATGC CCCACATCAA GCCCCCGCCT ACCACTCCCA TCCCCCAGCT GCCGGCGCCA 
CAGGCCCACA AGCACCCTCC CCACCTCTCG GGGCCCTCAC CCTTCTCCAT GAATGCCAAC 
CTGCCTCCCC CTCCAGCCCT GAAGCCCCTG AGCTCCCTGT CCACACATCA CCCCCCGTCG 
GCTCACCCCC CACCCCTGCA ACTCATGCCT CAGAGCCAGC CATTGCCCTC CTCGCCCGCC 
CAGCCCCCCG GGCTGACCCA GAGCCAGAAC CTGCCCCCGC CCCCTGCCTC CCACCCCCCT 
ACAGGCCTCC ACCAGGTGGC CCCCCAACCC CCGTTTGCTC AGCACCCCTT TGTCCCTGGA 
GGCCCTCCTC CCATCACCCC TCCGACCTGC CCCTCCACCT CTACCCCACC GGCGGGACCT 
GGCACCTCGG CCCAGCCACC CTGCTCTGGT GCGGCGGCTT CAGGAGGCAG CATAGCGGGG 
GGGTCGTCCT GCCCACTCCC CACCGTCCAG ATCAAGGAGG AGGCTCTGGA CGACGCTGAG 
GAGCCTGAGA GCCCCCCTCC CCCACCAAGG AGCCCGTCCC CGGAGCCCAC TGTGGTGGAC 
ACCCCCAGTC ACGCCAGCCA GTCAGCTAGG TTCTACAAAC ACCTGGACCG GGGCTACAAC 
TCGTGTGCCC GGACAGACCT GTACTTCATG CCTCTGGCCG GGTCCAAGCT GGCCAAGAAG 
AGGGAGGAGG CCATTGAGAA GGCCAAGCGC GAGGCTGAGC AGAAAGCCCG AGAGGAGCGA 
GAGCGGGAGA AGGAGAAGGA GAAGGAGCGG GAGCGGGAGC GAGAGCGGGA GCGCGAGGCA 
GAGCGGGCGG CTAAGGCGTC CAGCTCAGCG CATGAAGGTC GCCTCAGTGA CCCACAGCTC 
AGTGGTCCTG GCCACATGCG GCCATCCTTC GAGCCACCAC CAACCACCAT TGCTGCTGTG 
CCCCCCTACA TCGGGCCCGA CACACCTGCC CTTCGGACTC TGAGCGAGTA CGCCCGGCCC 
CACGTCATGT CGCCCACCAA CCGCAACCAC CCCTTCTACA TGCCCCTTAA CCCCACGGAC 
CCCCTGCTGG CCTACCACAT GCCTGGCCTC TACAACGTCG ACCCCACCAT CCGCGAGCGG 
GAGCTCCGGG AGCGGGAGAT CCGAGAGCGG GAGATCCGAG AGCGGGAGCT GCGGGAGAGG 
ATGAAGCCGG GCTTCGAGGT GAAGCCCCCA GAGCTGGACC CCCTGCACCC AGCCGCCAAC 
CCCATGGAGC ACTTTGCCCG GCACAGCGCC CTCACCATCC CCCCGACCGC CGGGCCCCAC 
CCTTTTGCTT CTTTCCACCC GGGCCTGAAC CCCTTGGAGA GGGAGAGACT GGCCCTGGCG 
GGCCCCCAGC TGCGGCCCGA GATGAGCTAC CCTGACAGAC TGGCAGCCGA GCGTATCCAC 
GCAGAGCGCA TGGCATCGCT GACCAGCGAT CCCCTGGCCC GACTGCAGAT GTTCAACGTG 
ACTCCGCACC ATCACCAGCA CTCTCACATT CACTCCCACC TCCACCTCCA CCAGCAGGAC 
CCCCTCCACC AAGGTTCAGC AGGCCCCGTT CACCCGCTGG TCGACCCCCT GACTGCCGGT 
CCCCACCTGG CTCGCTTCCC CTACCCGCCT GGCACTCTCC CCAACCCTCT GCTTGGACAG 
CCCCCACACG AGCACGAGAT GCTTCGCCAC CCAGTTTTCG GCACCCCCTA CCCCCGTGAC 
CTGCCTGGGG CCATCCCACC CCCCATGTCA GCAGCCCACC AGCTGCAGGC CATGCATGCC 
CAGTCGGCCG AGCTGCAGAG ACTGGCCATG GAGCAGCAGT GGCTGCATGG ACACCCCCAC 
ATGCATGGTG GCCACCTACC AAGTCAGGAA GATTATTACA GTCGACTGAA GAAAGAAGGT 
GACAAGCAGT TATAA

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

RefSeq	XP_011539812.1
CDS	679..5253
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_011541510.2
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.

Target ORF information:

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

XM_011541510.2

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGAGTA AGAGGGACCA TCTCCTCATG 
AACGTCAAAT GGTACTACCG TCAATCTGAG GTTCCAGATT CTGTGTATCA GCATTTGGTT 
CAGGATCGAC ATAATGAAAA TGACTCTGGA AGAGAACTTG TCATTACAGA CCCAGTTATC 
AAGAACCGAG AGCTCTTCAT TTCTGATTAC GTTGACACTT ACCATGCTGC TGCCCTTAGA 
GGGAAGTGTA ACATCTCCCA TTTTTCTGAC ATATTTGCTG CTAGAGAGTT TAAAGCCCGA 
GTGGATTCAT TTTTCTACAT ATTAGGATAT AACCCTGAGA CAAGGAGGCT GAACAGTACC 
CAGGGGGAGA TTCGTGTCGG TCCTAGTCAT CAGGCCAAAC TTCCAGATCT GCAACCATTT 
CCTTCTCCAG ATGGTGATAC AGTGACCCAA CATGAGGAAC TGGTCTGGAT GCCTGGAGTT 
AACGACTGTG ACCTCCTTAT GTACTTGAGG GCAGCAAGGA GCATGGCGGC ATTTGCAGGA 
ATGTGTGATG GAGGCTCTAC AGAGGACGGC TGTGTCGCAG CCTCTCGGGA TGACACCACT 
CTGAATGCAC TGAACACACT GCATGAAAGC GGTTACGATG CTGGCAAAGC CCTGCAGCGC 
CTGGTGAAGA AGCCTGTGCC CAAGCTCATC GAGAAGTGCT GGACCGAGGA CGAAGTGAAA 
CGCTTCGTTA AGGGACTCAG GCAGTACGGG AAGAACTTCT TCAGAATTAG AAAGGAGCTG 
CTTCCCAATA AGGAAACAGG GGAGCTGATC ACCTTCTATT ACTATTGGAA GAAGACCCCC 
GAAGCAGCCA GCTCCCGAGC CCATCGTAGG CACCGCAGGC AGGCCGTGTT CAGGAGGATT 
AAGACTCGCA CCGCGTCCAC ACCCGTCAAC ACACCCTCCA GACCCCCGTC CAGTGAATTC 
TTGGACCTAA GTTCAGCCAG TGAAGATGAC TTCGACAGTG AGGACAGTGA GCAGGAGCTG 
AAGGGGTACG CCTGCCGCCA CTGCTTCACC ACCACCTCCA AAGATTGGCA CCACGGAGGC 
CGGGAGAACA TCCTGCTTTG CACCGACTGT CGCATCCACT TCAAGAAATA CGGTGAGCTC 
CCGCCCATTG AGAAGCCCGT GGACCCGCCA CCGTTTATGT TCAAACCCGT CAAGGAAGAG 
GATGATGGGC TCAGTGGGAA GCATAGCATG AGGACACGGC GGAGTCGGGG CTCGATGTCG 
ACACTACGCA GTGGTCGGAA GAAGCAGCCA GCCAGCCCTG ATGGTCGCAC CTCACCCATC 
AATGAAGACA TCCGCTCCAG CGGCCGGAAC TCCCCCAGCG CTGCCAGTAC CTCCAGCAAT 
GACAGTAAAG CAGAGACAGT GAAGAAGTCG GCCAAGAAGG TGAAGGAGGA AGCCTCTTCC 
CCTCTTAAGA GTAACAAACG CCAGCGGGAG AAGGTGGCCT CTGATACGGA GGAGGCTGAC 
AGGACCAGCT CCAAGAAGAC AAAAACGCAG GAGATCAGCA GGCCCAACTC GCCATCTGAA 
GGTGAGGGAG AGAGTTCAGA CAGTCGCAGC GTCAACGATG AGGGTAGCAG TGACCCCAAA 
GACATCGACC AGGACAATCG CAGCACGTCC CCGAGCATCC CCAGCCCCCA GGACAATGAG 
AGTGACTCGG ACTCGTCAGC CCAGCAGCAG ATGCTGCAGG CCCAGCCCCC AGCCTTGCAG 
GCTCCCACTG GGGTCACCCC AGCTCCCTCC TCAGCTCCTC CAGGGACCCC TCAGCTGCCC 
ACGCCAGGGC CCACGCCCTC TGCCACTGCA GTTCCCCCAC AGGGCTCCCC CACGGCCTCC 
CAGGCCCCTA ACCAGCCACA GGCTCCCACA GCGCCTGTTC CCCACACCCA CATCCAACAG 
GCACCGGCCT TGCACCCCCA GCGGCCGCCC TCACCGCATC CCCCGCCGCA TCCCTCGCCA 
CATCCCCCGC TGCAGCCTCT GACTGGGTCG GCGGGCCAGC CTTCTGCACC CTCTCATGCC 
CAGCCCCCAC TGCACGGTCA GGGCCCACCC GGCCCTCACA GCCTGCAGGC TGGGCCCCTG 
CTGCAGCACC CAGGCCCCCC ACAGCCCTTT GGCCTCCCTC CCCAGGCCTC CCAAGGCCAG 
GCCCCTCTGG GGACCTCCCC AGCAGCAGCG TACCCTCACA CCTCCCTGCA GCTGCCAGCC 
TCTCAGTCAG CGCTGCAGTC CCAACAGCCT CCACGGGAGC AGCCCCTGCC ACCAGCGCCC 
TTGGCCATGC CCCACATCAA GCCCCCGCCT ACCACTCCCA TCCCCCAGCT GCCGGCGCCA 
CAGGCCCACA AGCACCCTCC CCACCTCTCG GGGCCCTCAC CCTTCTCCAT GAATGCCAAC 
CTGCCTCCCC CTCCAGCCCT GAAGCCCCTG AGCTCCCTGT CCACACATCA CCCCCCGTCG 
GCTCACCCCC CACCCCTGCA ACTCATGCCT CAGAGCCAGC CATTGCCCTC CTCGCCCGCC 
CAGCCCCCCG GGCTGACCCA GAGCCAGAAC CTGCCCCCGC CCCCTGCCTC CCACCCCCCT 
ACAGGCCTCC ACCAGGTGGC CCCCCAACCC CCGTTTGCTC AGCACCCCTT TGTCCCTGGA 
GGCCCTCCTC CCATCACCCC TCCGACCTGC CCCTCCACCT CTACCCCACC GGCGGGACCT 
GGCACCTCGG CCCAGCCACC CTGCTCTGGT GCGGCGGCTT CAGGAGGCAG CATAGCGGGG 
GGGTCGTCCT GCCCACTCCC CACCGTCCAG ATCAAGGAGG AGGCTCTGGA CGACGCTGAG 
GAGCCTGAGA GCCCCCCTCC CCCACCAAGG AGCCCGTCCC CGGAGCCCAC TGTGGTGGAC 
ACCCCCAGTC ACGCCAGCCA GTCAGCTAGG TTCTACAAAC ACCTGGACCG GGGCTACAAC 
TCGTGTGCCC GGACAGACCT GTACTTCATG CCTCTGGCCG GGTCCAAGCT GGCCAAGAAG 
AGGGAGGAGG CCATTGAGAA GGCCAAGCGC GAGGCTGAGC AGAAAGCCCG AGAGGAGCGA 
GAGCGGGAGA AGGAGAAGGA GAAGGAGCGG GAGCGGGAGC GAGAGCGGGA GCGCGAGGCA 
GAGCGGGCGG CTAAGGCGTC CAGCTCAGCG CATGAAGGTC GCCTCAGTGA CCCACAGCTC 
AGTGGTCCTG GCCACATGCG GCCATCCTTC GAGCCACCAC CAACCACCAT TGCTGCTGTG 
CCCCCCTACA TCGGGCCCGA CACACCTGCC CTTCGGACTC TGAGCGAGTA CGCCCGGCCC 
CACGTCATGT CGCCCACCAA CCGCAACCAC CCCTTCTACA TGCCCCTTAA CCCCACGGAC 
CCCCTGCTGG CCTACCACAT GCCTGGCCTC TACAACGTCG ACCCCACCAT CCGCGAGCGG 
GAGCTCCGGG AGCGGGAGAT CCGAGAGCGG GAGATCCGAG AGCGGGAGCT GCGGGAGAGG 
ATGAAGCCGG GCTTCGAGGT GAAGCCCCCA GAGCTGGACC CCCTGCACCC AGCCGCCAAC 
CCCATGGAGC ACTTTGCCCG GCACAGCGCC CTCACCATCC CCCCGACCGC CGGGCCCCAC 
CCTTTTGCTT CTTTCCACCC GGGCCTGAAC CCCTTGGAGA GGGAGAGACT GGCCCTGGCG 
GGCCCCCAGC TGCGGCCCGA GATGAGCTAC CCTGACAGAC TGGCAGCCGA GCGTATCCAC 
GCAGAGCGCA TGGCATCGCT GACCAGCGAT CCCCTGGCCC GACTGCAGAT GTTCAACGTG 
ACTCCGCACC ATCACCAGCA CTCTCACATT CACTCCCACC TCCACCTCCA CCAGCAGGAC 
CCCCTCCACC AAGGTTCAGC AGGCCCCGTT CACCCGCTGG TCGACCCCCT GACTGCCGGT 
CCCCACCTGG CTCGCTTCCC CTACCCGCCT GGCACTCTCC CCAACCCTCT GCTTGGACAG 
CCCCCACACG AGCACGAGAT GCTTCGCCAC CCAGTTTTCG GCACCCCCTA CCCCCGTGAC 
CTGCCTGGGG CCATCCCACC CCCCATGTCA GCAGCCCACC AGCTGCAGGC CATGCATGCC 
CAGTCGGCCG AGCTGCAGAG ACTGGCCATG GAGCAGCAGT GGCTGCATGG ACACCCCCAC 
ATGCATGGTG GCCACCTACC AAGTCAGGAA GATTATTACA GTCGACTGAA GAAAGAAGGT 
GACAAGCAGT TATAA

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

RERE ( XM_011541510.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011539812.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu33454
Clone ID Related Accession (Same CDS sequence)	XM_011541510.2 , XM_011541510.1
Accession Version	XM_011541510.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4575bp) 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	arginine-glutamic acid dipeptide repeats protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: 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##

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGAGTA AGAGGGACCA TCTCCTCATG 
AACGTCAAAT GGTACTACCG TCAATCTGAG GTTCCAGATT CTGTGTATCA GCATTTGGTT 
CAGGATCGAC ATAATGAAAA TGACTCTGGA AGAGAACTTG TCATTACAGA CCCAGTTATC 
AAGAACCGAG AGCTCTTCAT TTCTGATTAC GTTGACACTT ACCATGCTGC TGCCCTTAGA 
GGGAAGTGTA ACATCTCCCA TTTTTCTGAC ATATTTGCTG CTAGAGAGTT TAAAGCCCGA 
GTGGATTCAT TTTTCTACAT ATTAGGATAT AACCCTGAGA CAAGGAGGCT GAACAGTACC 
CAGGGGGAGA TTCGTGTCGG TCCTAGTCAT CAGGCCAAAC TTCCAGATCT GCAACCATTT 
CCTTCTCCAG ATGGTGATAC AGTGACCCAA CATGAGGAAC TGGTCTGGAT GCCTGGAGTT 
AACGACTGTG ACCTCCTTAT GTACTTGAGG GCAGCAAGGA GCATGGCGGC ATTTGCAGGA 
ATGTGTGATG GAGGCTCTAC AGAGGACGGC TGTGTCGCAG CCTCTCGGGA TGACACCACT 
CTGAATGCAC TGAACACACT GCATGAAAGC GGTTACGATG CTGGCAAAGC CCTGCAGCGC 
CTGGTGAAGA AGCCTGTGCC CAAGCTCATC GAGAAGTGCT GGACCGAGGA CGAAGTGAAA 
CGCTTCGTTA AGGGACTCAG GCAGTACGGG AAGAACTTCT TCAGAATTAG AAAGGAGCTG 
CTTCCCAATA AGGAAACAGG GGAGCTGATC ACCTTCTATT ACTATTGGAA GAAGACCCCC 
GAAGCAGCCA GCTCCCGAGC CCATCGTAGG CACCGCAGGC AGGCCGTGTT CAGGAGGATT 
AAGACTCGCA CCGCGTCCAC ACCCGTCAAC ACACCCTCCA GACCCCCGTC CAGTGAATTC 
TTGGACCTAA GTTCAGCCAG TGAAGATGAC TTCGACAGTG AGGACAGTGA GCAGGAGCTG 
AAGGGGTACG CCTGCCGCCA CTGCTTCACC ACCACCTCCA AAGATTGGCA CCACGGAGGC 
CGGGAGAACA TCCTGCTTTG CACCGACTGT CGCATCCACT TCAAGAAATA CGGTGAGCTC 
CCGCCCATTG AGAAGCCCGT GGACCCGCCA CCGTTTATGT TCAAACCCGT CAAGGAAGAG 
GATGATGGGC TCAGTGGGAA GCATAGCATG AGGACACGGC GGAGTCGGGG CTCGATGTCG 
ACACTACGCA GTGGTCGGAA GAAGCAGCCA GCCAGCCCTG ATGGTCGCAC CTCACCCATC 
AATGAAGACA TCCGCTCCAG CGGCCGGAAC TCCCCCAGCG CTGCCAGTAC CTCCAGCAAT 
GACAGTAAAG CAGAGACAGT GAAGAAGTCG GCCAAGAAGG TGAAGGAGGA AGCCTCTTCC 
CCTCTTAAGA GTAACAAACG CCAGCGGGAG AAGGTGGCCT CTGATACGGA GGAGGCTGAC 
AGGACCAGCT CCAAGAAGAC AAAAACGCAG GAGATCAGCA GGCCCAACTC GCCATCTGAA 
GGTGAGGGAG AGAGTTCAGA CAGTCGCAGC GTCAACGATG AGGGTAGCAG TGACCCCAAA 
GACATCGACC AGGACAATCG CAGCACGTCC CCGAGCATCC CCAGCCCCCA GGACAATGAG 
AGTGACTCGG ACTCGTCAGC CCAGCAGCAG ATGCTGCAGG CCCAGCCCCC AGCCTTGCAG 
GCTCCCACTG GGGTCACCCC AGCTCCCTCC TCAGCTCCTC CAGGGACCCC TCAGCTGCCC 
ACGCCAGGGC CCACGCCCTC TGCCACTGCA GTTCCCCCAC AGGGCTCCCC CACGGCCTCC 
CAGGCCCCTA ACCAGCCACA GGCTCCCACA GCGCCTGTTC CCCACACCCA CATCCAACAG 
GCACCGGCCT TGCACCCCCA GCGGCCGCCC TCACCGCATC CCCCGCCGCA TCCCTCGCCA 
CATCCCCCGC TGCAGCCTCT GACTGGGTCG GCGGGCCAGC CTTCTGCACC CTCTCATGCC 
CAGCCCCCAC TGCACGGTCA GGGCCCACCC GGCCCTCACA GCCTGCAGGC TGGGCCCCTG 
CTGCAGCACC CAGGCCCCCC ACAGCCCTTT GGCCTCCCTC CCCAGGCCTC CCAAGGCCAG 
GCCCCTCTGG GGACCTCCCC AGCAGCAGCG TACCCTCACA CCTCCCTGCA GCTGCCAGCC 
TCTCAGTCAG CGCTGCAGTC CCAACAGCCT CCACGGGAGC AGCCCCTGCC ACCAGCGCCC 
TTGGCCATGC CCCACATCAA GCCCCCGCCT ACCACTCCCA TCCCCCAGCT GCCGGCGCCA 
CAGGCCCACA AGCACCCTCC CCACCTCTCG GGGCCCTCAC CCTTCTCCAT GAATGCCAAC 
CTGCCTCCCC CTCCAGCCCT GAAGCCCCTG AGCTCCCTGT CCACACATCA CCCCCCGTCG 
GCTCACCCCC CACCCCTGCA ACTCATGCCT CAGAGCCAGC CATTGCCCTC CTCGCCCGCC 
CAGCCCCCCG GGCTGACCCA GAGCCAGAAC CTGCCCCCGC CCCCTGCCTC CCACCCCCCT 
ACAGGCCTCC ACCAGGTGGC CCCCCAACCC CCGTTTGCTC AGCACCCCTT TGTCCCTGGA 
GGCCCTCCTC CCATCACCCC TCCGACCTGC CCCTCCACCT CTACCCCACC GGCGGGACCT 
GGCACCTCGG CCCAGCCACC CTGCTCTGGT GCGGCGGCTT CAGGAGGCAG CATAGCGGGG 
GGGTCGTCCT GCCCACTCCC CACCGTCCAG ATCAAGGAGG AGGCTCTGGA CGACGCTGAG 
GAGCCTGAGA GCCCCCCTCC CCCACCAAGG AGCCCGTCCC CGGAGCCCAC TGTGGTGGAC 
ACCCCCAGTC ACGCCAGCCA GTCAGCTAGG TTCTACAAAC ACCTGGACCG GGGCTACAAC 
TCGTGTGCCC GGACAGACCT GTACTTCATG CCTCTGGCCG GGTCCAAGCT GGCCAAGAAG 
AGGGAGGAGG CCATTGAGAA GGCCAAGCGC GAGGCTGAGC AGAAAGCCCG AGAGGAGCGA 
GAGCGGGAGA AGGAGAAGGA GAAGGAGCGG GAGCGGGAGC GAGAGCGGGA GCGCGAGGCA 
GAGCGGGCGG CTAAGGCGTC CAGCTCAGCG CATGAAGGTC GCCTCAGTGA CCCACAGCTC 
AGTGGTCCTG GCCACATGCG GCCATCCTTC GAGCCACCAC CAACCACCAT TGCTGCTGTG 
CCCCCCTACA TCGGGCCCGA CACACCTGCC CTTCGGACTC TGAGCGAGTA CGCCCGGCCC 
CACGTCATGT CGCCCACCAA CCGCAACCAC CCCTTCTACA TGCCCCTTAA CCCCACGGAC 
CCCCTGCTGG CCTACCACAT GCCTGGCCTC TACAACGTCG ACCCCACCAT CCGCGAGCGG 
GAGCTCCGGG AGCGGGAGAT CCGAGAGCGG GAGATCCGAG AGCGGGAGCT GCGGGAGAGG 
ATGAAGCCGG GCTTCGAGGT GAAGCCCCCA GAGCTGGACC CCCTGCACCC AGCCGCCAAC 
CCCATGGAGC ACTTTGCCCG GCACAGCGCC CTCACCATCC CCCCGACCGC CGGGCCCCAC 
CCTTTTGCTT CTTTCCACCC GGGCCTGAAC CCCTTGGAGA GGGAGAGACT GGCCCTGGCG 
GGCCCCCAGC TGCGGCCCGA GATGAGCTAC CCTGACAGAC TGGCAGCCGA GCGTATCCAC 
GCAGAGCGCA TGGCATCGCT GACCAGCGAT CCCCTGGCCC GACTGCAGAT GTTCAACGTG 
ACTCCGCACC ATCACCAGCA CTCTCACATT CACTCCCACC TCCACCTCCA CCAGCAGGAC 
CCCCTCCACC AAGGTTCAGC AGGCCCCGTT CACCCGCTGG TCGACCCCCT GACTGCCGGT 
CCCCACCTGG CTCGCTTCCC CTACCCGCCT GGCACTCTCC CCAACCCTCT GCTTGGACAG 
CCCCCACACG AGCACGAGAT GCTTCGCCAC CCAGTTTTCG GCACCCCCTA CCCCCGTGAC 
CTGCCTGGGG CCATCCCACC CCCCATGTCA GCAGCCCACC AGCTGCAGGC CATGCATGCC 
CAGTCGGCCG AGCTGCAGAG ACTGGCCATG GAGCAGCAGT GGCTGCATGG ACACCCCCAC 
ATGCATGGTG GCCACCTACC AAGTCAGGAA GATTATTACA GTCGACTGAA GAAAGAAGGT 
GACAAGCAGT TATAA

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

RefSeq	XP_011539812.1
CDS	677..5251
Translation	MTADKDKDKDKEKDRDRDRDREREKRDKARESENSRPRRSCTLEGGAKNYAESDHSEDEDNDNNSATAEESTKKNKKKPPKKKSRYERTDTGEITSYITEDDVVYRPGDCVYIESRRPNTPYFICSIQDFKLSKRDHLLMNVKWYYRQSEVPDSVYQHLVQDRHNENDSGRELVITDPVIKNRELFISDYVDTYHAAALRGKCNISHFSDIFAAREFKARVDSFFYILGYNPETRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_011541510.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X4, mRNA.

Target ORF information:

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

XM_011541510.1

ORF Insert Sequence:

ATGACAGCGG ACAAAGACAA AGACAAAGAC AAAGAGAAGG ACCGGGACCG AGACCGGGAC 
CGAGAGAGAG AGAAAAGAGA CAAAGCAAGA GAGAGTGAGA ATTCAAGGCC ACGCCGGAGC 
TGTACCTTGG AAGGAGGAGC CAAAAATTAT GCTGAGAGTG ATCACAGTGA AGACGAGGAC 
AATGACAACA ATAGTGCCAC CGCAGAGGAG TCCACGAAGA AGAATAAGAA GAAACCACCG 
AAAAAAAAGT CTCGTTATGA AAGGACAGAT ACCGGTGAGA TAACATCCTA CATCACTGAA 
GATGATGTGG TCTACAGACC AGGAGACTGT GTGTATATCG AGAGTCGGAG GCCAAACACA 
CCGTATTTCA TCTGTAGCAT TCAAGACTTC AAACTGAGTA AGAGGGACCA TCTCCTCATG 
AACGTCAAAT GGTACTACCG TCAATCTGAG GTTCCAGATT CTGTGTATCA GCATTTGGTT 
CAGGATCGAC ATAATGAAAA TGACTCTGGA AGAGAACTTG TCATTACAGA CCCAGTTATC 
AAGAACCGAG AGCTCTTCAT TTCTGATTAC GTTGACACTT ACCATGCTGC TGCCCTTAGA 
GGGAAGTGTA ACATCTCCCA TTTTTCTGAC ATATTTGCTG CTAGAGAGTT TAAAGCCCGA 
GTGGATTCAT TTTTCTACAT ATTAGGATAT AACCCTGAGA CAAGGAGGCT GAACAGTACC 
CAGGGGGAGA TTCGTGTCGG TCCTAGTCAT CAGGCCAAAC TTCCAGATCT GCAACCATTT 
CCTTCTCCAG ATGGTGATAC AGTGACCCAA CATGAGGAAC TGGTCTGGAT GCCTGGAGTT 
AACGACTGTG ACCTCCTTAT GTACTTGAGG GCAGCAAGGA GCATGGCGGC ATTTGCAGGA 
ATGTGTGATG GAGGCTCTAC AGAGGACGGC TGTGTCGCAG CCTCTCGGGA TGACACCACT 
CTGAATGCAC TGAACACACT GCATGAAAGC GGTTACGATG CTGGCAAAGC CCTGCAGCGC 
CTGGTGAAGA AGCCTGTGCC CAAGCTCATC GAGAAGTGCT GGACCGAGGA CGAAGTGAAA 
CGCTTCGTTA AGGGACTCAG GCAGTACGGG AAGAACTTCT TCAGAATTAG AAAGGAGCTG 
CTTCCCAATA AGGAAACAGG GGAGCTGATC ACCTTCTATT ACTATTGGAA GAAGACCCCC 
GAAGCAGCCA GCTCCCGAGC CCATCGTAGG CACCGCAGGC AGGCCGTGTT CAGGAGGATT 
AAGACTCGCA CCGCGTCCAC ACCCGTCAAC ACACCCTCCA GACCCCCGTC CAGTGAATTC 
TTGGACCTAA GTTCAGCCAG TGAAGATGAC TTCGACAGTG AGGACAGTGA GCAGGAGCTG 
AAGGGGTACG CCTGCCGCCA CTGCTTCACC ACCACCTCCA AAGATTGGCA CCACGGAGGC 
CGGGAGAACA TCCTGCTTTG CACCGACTGT CGCATCCACT TCAAGAAATA CGGTGAGCTC 
CCGCCCATTG AGAAGCCCGT GGACCCGCCA CCGTTTATGT TCAAACCCGT CAAGGAAGAG 
GATGATGGGC TCAGTGGGAA GCATAGCATG AGGACACGGC GGAGTCGGGG CTCGATGTCG 
ACACTACGCA GTGGTCGGAA GAAGCAGCCA GCCAGCCCTG ATGGTCGCAC CTCACCCATC 
AATGAAGACA TCCGCTCCAG CGGCCGGAAC TCCCCCAGCG CTGCCAGTAC CTCCAGCAAT 
GACAGTAAAG CAGAGACAGT GAAGAAGTCG GCCAAGAAGG TGAAGGAGGA AGCCTCTTCC 
CCTCTTAAGA GTAACAAACG CCAGCGGGAG AAGGTGGCCT CTGATACGGA GGAGGCTGAC 
AGGACCAGCT CCAAGAAGAC AAAAACGCAG GAGATCAGCA GGCCCAACTC GCCATCTGAA 
GGTGAGGGAG AGAGTTCAGA CAGTCGCAGC GTCAACGATG AGGGTAGCAG TGACCCCAAA 
GACATCGACC AGGACAATCG CAGCACGTCC CCGAGCATCC CCAGCCCCCA GGACAATGAG 
AGTGACTCGG ACTCGTCAGC CCAGCAGCAG ATGCTGCAGG CCCAGCCCCC AGCCTTGCAG 
GCTCCCACTG GGGTCACCCC AGCTCCCTCC TCAGCTCCTC CAGGGACCCC TCAGCTGCCC 
ACGCCAGGGC CCACGCCCTC TGCCACTGCA GTTCCCCCAC AGGGCTCCCC CACGGCCTCC 
CAGGCCCCTA ACCAGCCACA GGCTCCCACA GCGCCTGTTC CCCACACCCA CATCCAACAG 
GCACCGGCCT TGCACCCCCA GCGGCCGCCC TCACCGCATC CCCCGCCGCA TCCCTCGCCA 
CATCCCCCGC TGCAGCCTCT GACTGGGTCG GCGGGCCAGC CTTCTGCACC CTCTCATGCC 
CAGCCCCCAC TGCACGGTCA GGGCCCACCC GGCCCTCACA GCCTGCAGGC TGGGCCCCTG 
CTGCAGCACC CAGGCCCCCC ACAGCCCTTT GGCCTCCCTC CCCAGGCCTC CCAAGGCCAG 
GCCCCTCTGG GGACCTCCCC AGCAGCAGCG TACCCTCACA CCTCCCTGCA GCTGCCAGCC 
TCTCAGTCAG CGCTGCAGTC CCAACAGCCT CCACGGGAGC AGCCCCTGCC ACCAGCGCCC 
TTGGCCATGC CCCACATCAA GCCCCCGCCT ACCACTCCCA TCCCCCAGCT GCCGGCGCCA 
CAGGCCCACA AGCACCCTCC CCACCTCTCG GGGCCCTCAC CCTTCTCCAT GAATGCCAAC 
CTGCCTCCCC CTCCAGCCCT GAAGCCCCTG AGCTCCCTGT CCACACATCA CCCCCCGTCG 
GCTCACCCCC CACCCCTGCA ACTCATGCCT CAGAGCCAGC CATTGCCCTC CTCGCCCGCC 
CAGCCCCCCG GGCTGACCCA GAGCCAGAAC CTGCCCCCGC CCCCTGCCTC CCACCCCCCT 
ACAGGCCTCC ACCAGGTGGC CCCCCAACCC CCGTTTGCTC AGCACCCCTT TGTCCCTGGA 
GGCCCTCCTC CCATCACCCC TCCGACCTGC CCCTCCACCT CTACCCCACC GGCGGGACCT 
GGCACCTCGG CCCAGCCACC CTGCTCTGGT GCGGCGGCTT CAGGAGGCAG CATAGCGGGG 
GGGTCGTCCT GCCCACTCCC CACCGTCCAG ATCAAGGAGG AGGCTCTGGA CGACGCTGAG 
GAGCCTGAGA GCCCCCCTCC CCCACCAAGG AGCCCGTCCC CGGAGCCCAC TGTGGTGGAC 
ACCCCCAGTC ACGCCAGCCA GTCAGCTAGG TTCTACAAAC ACCTGGACCG GGGCTACAAC 
TCGTGTGCCC GGACAGACCT GTACTTCATG CCTCTGGCCG GGTCCAAGCT GGCCAAGAAG 
AGGGAGGAGG CCATTGAGAA GGCCAAGCGC GAGGCTGAGC AGAAAGCCCG AGAGGAGCGA 
GAGCGGGAGA AGGAGAAGGA GAAGGAGCGG GAGCGGGAGC GAGAGCGGGA GCGCGAGGCA 
GAGCGGGCGG CTAAGGCGTC CAGCTCAGCG CATGAAGGTC GCCTCAGTGA CCCACAGCTC 
AGTGGTCCTG GCCACATGCG GCCATCCTTC GAGCCACCAC CAACCACCAT TGCTGCTGTG 
CCCCCCTACA TCGGGCCCGA CACACCTGCC CTTCGGACTC TGAGCGAGTA CGCCCGGCCC 
CACGTCATGT CGCCCACCAA CCGCAACCAC CCCTTCTACA TGCCCCTTAA CCCCACGGAC 
CCCCTGCTGG CCTACCACAT GCCTGGCCTC TACAACGTCG ACCCCACCAT CCGCGAGCGG 
GAGCTCCGGG AGCGGGAGAT CCGAGAGCGG GAGATCCGAG AGCGGGAGCT GCGGGAGAGG 
ATGAAGCCGG GCTTCGAGGT GAAGCCCCCA GAGCTGGACC CCCTGCACCC AGCCGCCAAC 
CCCATGGAGC ACTTTGCCCG GCACAGCGCC CTCACCATCC CCCCGACCGC CGGGCCCCAC 
CCTTTTGCTT CTTTCCACCC GGGCCTGAAC CCCTTGGAGA GGGAGAGACT GGCCCTGGCG 
GGCCCCCAGC TGCGGCCCGA GATGAGCTAC CCTGACAGAC TGGCAGCCGA GCGTATCCAC 
GCAGAGCGCA TGGCATCGCT GACCAGCGAT CCCCTGGCCC GACTGCAGAT GTTCAACGTG 
ACTCCGCACC ATCACCAGCA CTCTCACATT CACTCCCACC TCCACCTCCA CCAGCAGGAC 
CCCCTCCACC AAGGTTCAGC AGGCCCCGTT CACCCGCTGG TCGACCCCCT GACTGCCGGT 
CCCCACCTGG CTCGCTTCCC CTACCCGCCT GGCACTCTCC CCAACCCTCT GCTTGGACAG 
CCCCCACACG AGCACGAGAT GCTTCGCCAC CCAGTTTTCG GCACCCCCTA CCCCCGTGAC 
CTGCCTGGGG CCATCCCACC CCCCATGTCA GCAGCCCACC AGCTGCAGGC CATGCATGCC 
CAGTCGGCCG AGCTGCAGAG ACTGGCCATG GAGCAGCAGT GGCTGCATGG ACACCCCCAC 
ATGCATGGTG GCCACCTACC AAGTCAGGAA GATTATTACA GTCGACTGAA GAAAGAAGGT 
GACAAGCAGT TATAA

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

RERE ( XM_005263466.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_005263523.1 Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu33455
Clone ID Related Accession (Same CDS sequence)	XM_005263466.1
Accession Version	XM_005263466.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3897bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-03-25
Organism	Homo sapiens(human)
Product	arginine-glutamic acid dipeptide repeats protein isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATGATC CATTCAGCCC CTGCAGGAGG CTGAACAGTA CCCAGGGGGA GATTCGTGTC 
GGTCCTAGTC ATCAGGCCAA ACTTCCAGAT CTGCAACCAT TTCCTTCTCC AGATGGTGAT 
ACAGTGACCC AACATGAGGA ACTGGTCTGG ATGCCTGGAG TTAACGACTG TGACCTCCTT 
ATGTACTTGA GGGCAGCAAG GAGCATGGCG GCATTTGCAG GAATGTGTGA TGGAGGCTCT 
ACAGAGGACG GCTGTGTCGC AGCCTCTCGG GATGACACCA CTCTGAATGC ACTGAACACA 
CTGCATGAAA GCGGTTACGA TGCTGGCAAA GCCCTGCAGC GCCTGGTGAA GAAGCCTGTG 
CCCAAGCTCA TCGAGAAGTG CTGGACCGAG GACGAAGTGA AACGCTTCGT TAAGGGACTC 
AGGCAGTACG GGAAGAACTT CTTCAGAATT AGAAAGGAGC TGCTTCCCAA TAAGGAAACA 
GGGGAGCTGA TCACCTTCTA TTACTATTGG AAGAAGACCC CCGAAGCAGC CAGCTCCCGA 
GCCCATCGTA GGCACCGCAG GCAGGCCGTG TTCAGGAGGA TTAAGACTCG CACCGCGTCC 
ACACCCGTCA ACACACCCTC CAGACCCCCG TCCAGTGAAT TCTTGGACCT AAGTTCAGCC 
AGTGAAGATG ACTTCGACAG TGAGGACAGT GAGCAGGAGC TGAAGGGGTA CGCCTGCCGC 
CACTGCTTCA CCACCACCTC CAAAGATTGG CACCACGGAG GCCGGGAGAA CATCCTGCTT 
TGCACCGACT GTCGCATCCA CTTCAAGAAA TACGGTGAGC TCCCGCCCAT TGAGAAGCCC 
GTGGACCCGC CACCGTTTAT GTTCAAACCC GTCAAGGAAG AGGATGATGG GCTCAGTGGG 
AAGCATAGCA TGAGGACACG GCGGAGTCGG GGCTCGATGT CGACACTACG CAGTGGTCGG 
AAGAAGCAGC CAGCCAGCCC TGATGGTCGC ACCTCACCCA TCAATGAAGA CATCCGCTCC 
AGCGGCCGGA ACTCCCCCAG CGCTGCCAGT ACCTCCAGCA ATGACAGTAA AGCAGAGACA 
GTGAAGAAGT CGGCCAAGAA GGTGAAGGAG GAAGCCTCTT CCCCTCTTAA GAGTAACAAA 
CGCCAGCGGG AGAAGGTGGC CTCTGATACG GAGGAGGCTG ACAGGACCAG CTCCAAGAAG 
ACAAAAACGC AGGAGATCAG CAGGCCCAAC TCGCCATCTG AAGGTGAGGG AGAGAGTTCA 
GACAGTCGCA GCGTCAACGA TGAGGGTAGC AGTGACCCCA AAGACATCGA CCAGGACAAT 
CGCAGCACGT CCCCGAGCAT CCCCAGCCCC CAGGACAATG AGAGTGACTC GGACTCGTCA 
GCCCAGCAGC AGATGCTGCA GGCCCAGCCC CCAGCCTTGC AGGCTCCCAC TGGGGTCACC 
CCAGCTCCCT CCTCAGCTCC TCCAGGGACC CCTCAGCTGC CCACGCCAGG GCCCACGCCC 
TCTGCCACTG CAGTTCCCCC ACAGGGCTCC CCCACGGCCT CCCAGGCCCC TAACCAGCCA 
CAGGCTCCCA CAGCGCCTGT TCCCCACACC CACATCCAAC AGGCACCGGC CTTGCACCCC 
CAGCGGCCGC CCTCACCGCA TCCCCCGCCG CATCCCTCGC CACATCCCCC GCTGCAGCCT 
CTGACTGGGT CGGCGGGCCA GCCTTCTGCA CCCTCTCATG CCCAGCCCCC ACTGCACGGT 
CAGGGCCCAC CCGGCCCTCA CAGCCTGCAG GCTGGGCCCC TGCTGCAGCA CCCAGGCCCC 
CCACAGCCCT TTGGCCTCCC TCCCCAGGCC TCCCAAGGCC AGGCCCCTCT GGGGACCTCC 
CCAGCAGCAG CGTACCCTCA CACCTCCCTG CAGCTGCCAG CCTCTCAGTC AGCGCTGCAG 
TCCCAACAGC CTCCACGGGA GCAGCCCCTG CCACCAGCGC CCTTGGCCAT GCCCCACATC 
AAGCCCCCGC CTACCACTCC CATCCCCCAG CTGCCGGCGC CACAGGCCCA CAAGCACCCT 
CCCCACCTCT CGGGGCCCTC ACCCTTCTCC ATGAATGCCA ACCTGCCTCC CCCTCCAGCC 
CTGAAGCCCC TGAGCTCCCT GTCCACACAT CACCCCCCGT CGGCTCACCC CCCACCCCTG 
CAACTCATGC CTCAGAGCCA GCCATTGCCC TCCTCGCCCG CCCAGCCCCC CGGGCTGACC 
CAGAGCCAGA ACCTGCCCCC GCCCCCTGCC TCCCACCCCC CTACAGGCCT CCACCAGGTG 
GCCCCCCAAC CCCCGTTTGC TCAGCACCCC TTTGTCCCTG GAGGCCCTCC TCCCATCACC 
CCTCCGACCT GCCCCTCCAC CTCTACCCCA CCGGCGGGAC CTGGCACCTC GGCCCAGCCA 
CCCTGCTCTG GTGCGGCGGC TTCAGGAGGC AGCATAGCGG GGGGGTCGTC CTGCCCACTC 
CCCACCGTCC AGATCAAGGA GGAGGCTCTG GACGACGCTG AGGAGCCTGA GAGCCCCCCT 
CCCCCACCAA GGAGCCCGTC CCCGGAGCCC ACTGTGGTGG ACACCCCCAG TCACGCCAGC 
CAGTCAGCTA GGTTCTACAA ACACCTGGAC CGGGGCTACA ACTCGTGTGC CCGGACAGAC 
CTGTACTTCA TGCCTCTGGC CGGGTCCAAG CTGGCCAAGA AGAGGGAGGA GGCCATTGAG 
AAGGCCAAGC GCGAGGCTGA GCAGAAAGCC CGAGAGGAGC GAGAGCGGGA GAAGGAGAAG 
GAGAAGGAGC GGGAGCGGGA GCGAGAGCGG GAGCGCGAGG CAGAGCGGGC GGCTAAGGCG 
TCCAGCTCAG CGCATGAAGG TCGCCTCAGT GACCCACAGC TCAGTGGTCC TGGCCACATG 
CGGCCATCCT TCGAGCCACC ACCAACCACC ATTGCTGCTG TGCCCCCCTA CATCGGGCCC 
GACACACCTG CCCTTCGGAC TCTGAGCGAG TACGCCCGGC CCCACGTCAT GTCGCCCACC 
AACCGCAACC ACCCCTTCTA CATGCCCCTT AACCCCACGG ACCCCCTGCT GGCCTACCAC 
ATGCCTGGCC TCTACAACGT CGACCCCACC ATCCGCGAGC GGGAGCTCCG GGAGCGGGAG 
ATCCGAGAGC GGGAGATCCG AGAGCGGGAG CTGCGGGAGA GGATGAAGCC GGGCTTCGAG 
GTGAAGCCCC CAGAGCTGGA CCCCCTGCAC CCAGCCGCCA ACCCCATGGA GCACTTTGCC 
CGGCACAGCG CCCTCACCAT CCCCCCGACC GCCGGGCCCC ACCCTTTTGC TTCTTTCCAC 
CCGGGCCTGA ACCCCTTGGA GAGGGAGAGA CTGGCCCTGG CGGGCCCCCA GCTGCGGCCC 
GAGATGAGCT ACCCTGACAG ACTGGCAGCC GAGCGTATCC ACGCAGAGCG CATGGCATCG 
CTGACCAGCG ATCCCCTGGC CCGACTGCAG ATGTTCAACG TGACTCCGCA CCATCACCAG 
CACTCTCACA TTCACTCCCA CCTCCACCTC CACCAGCAGG ACCCCCTCCA CCAAGGTTCA 
GCAGGCCCCG TTCACCCGCT GGTCGACCCC CTGACTGCCG GTCCCCACCT GGCTCGCTTC 
CCCTACCCGC CTGGCACTCT CCCCAACCCT CTGCTTGGAC AGCCCCCACA CGAGCACGAG 
ATGCTTCGCC ACCCAGTTTT CGGCACCCCC TACCCCCGTG ACCTGCCTGG GGCCATCCCA 
CCCCCCATGT CAGCAGCCCA CCAGCTGCAG GCCATGCATG CCCAGTCGGC CGAGCTGCAG 
AGACTGGCCA TGGAGCAGCA GTGGCTGCAT GGACACCCCC ACATGCATGG TGGCCACCTA 
CCAAGTCAGG AAGATTATTA CAGTCGACTG AAGAAAGAAG GTGACAAGCA GTTATAA

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

RefSeq	XP_005263523.1
CDS	252..4148
Translation	MDDPFSPCRRLNSTQGEIRVGPSHQAKLPDLQPFPSPDGDTVTQHEELVWMPGVNDCDLLMYLRAARSMAAFAGMCDGGSTEDGCVAASRDDTTLNALNTLHESGYDAGKALQRLVKKPVPKLIEKCWTEDEVKRFVKGLRQYGKNFFRIRKELLPNKETGELITFYYYWKKTPEAASSRAHRRHRRQAVFRRIKTRTASTPVNTPSRPPSSEFLDLSSASEDDFDSEDSEQELKGYACRHCFTTTSKDWHHGGRENILLCTDCRIHFKKYGELPPIEKPVDPPPFMFKPVKEEDDGLSGKHSMRTRRSRGSMSTLRSGRKKQPASPDGRTSPINEDIRSSGRNSPSAASTSSNDSKAETVKKSAKKVKEEASSPLKSNKRQREKVASDTEEADRTSSKKTKTQEISRPNSPSEGEGESSDSRSVNDEGSSDPKDIDQDNRSTSPSIPSPQDNESDSDSSAQQQMLQAQPPALQAPTGVTPAPSSAPPGTPQLPTPGPTPSATAVPPQGSPTASQAPNQPQAPTAPVPHTHIQQAPALHPQRPPSPHPPPHPSPHPPLQPLTGSAGQPSAPSHAQPPLHGQGPPGPHSLQAGPLLQHPGPPQPFGLPPQASQGQAPLGTSPAAAYPHTSLQLPASQSALQSQQPPREQPLPPAPLAMPHIKPPPTTPIPQLPAPQAHKHPPHLSGPSPFSMNANLPPPPALKPLSSLSTHHPPSAHPPPLQLMPQSQPLPSSPAQPPGLTQSQNLPPPPASHPPTGLHQVAPQPPFAQHPFVPGGPPPITPPTCPSTSTPPAGPGTSAQPPCSGAAASGGSIAGGSSCPLPTVQIKEEALDDAEEPESPPPPPRSPSPEPTVVDTPSHASQSARFYKHLDRGYNSCARTDLYFMPLAGSKLAKKREEAIEKAKREAEQKAREEREREKEKEKEREREREREREAERAAKASSSAHEGRLSDPQLSGPGHMRPSFEPPPTTIAAVPPYIGPDTPALRTLSEYARPHVMSPTNRNHPFYMPLNPTDPLLAYHMPGLYNVDPTIRERELREREIREREIRERELRERMKPGFEVKPPELDPLHPAANPMEHFARHSALTIPPTAGPHPFASFHPGLNPLERERLALAGPQLRPEMSYPDRLAAERIHAERMASLTSDPLARLQMFNVTPHHHQHSHIHSHLHLHQQDPLHQGSAGPVHPLVDPLTAGPHLARFPYPPGTLPNPLLGQPPHEHEMLRHPVFGTPYPRDLPGAIPPPMSAAHQLQAMHAQSAELQRLAMEQQWLHGHPHMHGGHLPSQEDYYSRLKKEGDKQL

Target ORF information:

RefSeq Version	XM_005263466.1
Organism	Homo sapiens(human)
Definition	Homo sapiens arginine-glutamic acid dipeptide repeats (RERE), transcript variant X5, mRNA.

Target ORF information:

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

XM_005263466.1

ORF Insert Sequence:

ATGGATGATC CATTCAGCCC CTGCAGGAGG CTGAACAGTA CCCAGGGGGA GATTCGTGTC 
GGTCCTAGTC ATCAGGCCAA ACTTCCAGAT CTGCAACCAT TTCCTTCTCC AGATGGTGAT 
ACAGTGACCC AACATGAGGA ACTGGTCTGG ATGCCTGGAG TTAACGACTG TGACCTCCTT 
ATGTACTTGA GGGCAGCAAG GAGCATGGCG GCATTTGCAG GAATGTGTGA TGGAGGCTCT 
ACAGAGGACG GCTGTGTCGC AGCCTCTCGG GATGACACCA CTCTGAATGC ACTGAACACA 
CTGCATGAAA GCGGTTACGA TGCTGGCAAA GCCCTGCAGC GCCTGGTGAA GAAGCCTGTG 
CCCAAGCTCA TCGAGAAGTG CTGGACCGAG GACGAAGTGA AACGCTTCGT TAAGGGACTC 
AGGCAGTACG GGAAGAACTT CTTCAGAATT AGAAAGGAGC TGCTTCCCAA TAAGGAAACA 
GGGGAGCTGA TCACCTTCTA TTACTATTGG AAGAAGACCC CCGAAGCAGC CAGCTCCCGA 
GCCCATCGTA GGCACCGCAG GCAGGCCGTG TTCAGGAGGA TTAAGACTCG CACCGCGTCC 
ACACCCGTCA ACACACCCTC CAGACCCCCG TCCAGTGAAT TCTTGGACCT AAGTTCAGCC 
AGTGAAGATG ACTTCGACAG TGAGGACAGT GAGCAGGAGC TGAAGGGGTA CGCCTGCCGC 
CACTGCTTCA CCACCACCTC CAAAGATTGG CACCACGGAG GCCGGGAGAA CATCCTGCTT 
TGCACCGACT GTCGCATCCA CTTCAAGAAA TACGGTGAGC TCCCGCCCAT TGAGAAGCCC 
GTGGACCCGC CACCGTTTAT GTTCAAACCC GTCAAGGAAG AGGATGATGG GCTCAGTGGG 
AAGCATAGCA TGAGGACACG GCGGAGTCGG GGCTCGATGT CGACACTACG CAGTGGTCGG 
AAGAAGCAGC CAGCCAGCCC TGATGGTCGC ACCTCACCCA TCAATGAAGA CATCCGCTCC 
AGCGGCCGGA ACTCCCCCAG CGCTGCCAGT ACCTCCAGCA ATGACAGTAA AGCAGAGACA 
GTGAAGAAGT CGGCCAAGAA GGTGAAGGAG GAAGCCTCTT CCCCTCTTAA GAGTAACAAA 
CGCCAGCGGG AGAAGGTGGC CTCTGATACG GAGGAGGCTG ACAGGACCAG CTCCAAGAAG 
ACAAAAACGC AGGAGATCAG CAGGCCCAAC TCGCCATCTG AAGGTGAGGG AGAGAGTTCA 
GACAGTCGCA GCGTCAACGA TGAGGGTAGC AGTGACCCCA AAGACATCGA CCAGGACAAT 
CGCAGCACGT CCCCGAGCAT CCCCAGCCCC CAGGACAATG AGAGTGACTC GGACTCGTCA 
GCCCAGCAGC AGATGCTGCA GGCCCAGCCC CCAGCCTTGC AGGCTCCCAC TGGGGTCACC 
CCAGCTCCCT CCTCAGCTCC TCCAGGGACC CCTCAGCTGC CCACGCCAGG GCCCACGCCC 
TCTGCCACTG CAGTTCCCCC ACAGGGCTCC CCCACGGCCT CCCAGGCCCC TAACCAGCCA 
CAGGCTCCCA CAGCGCCTGT TCCCCACACC CACATCCAAC AGGCACCGGC CTTGCACCCC 
CAGCGGCCGC CCTCACCGCA TCCCCCGCCG CATCCCTCGC CACATCCCCC GCTGCAGCCT 
CTGACTGGGT CGGCGGGCCA GCCTTCTGCA CCCTCTCATG CCCAGCCCCC ACTGCACGGT 
CAGGGCCCAC CCGGCCCTCA CAGCCTGCAG GCTGGGCCCC TGCTGCAGCA CCCAGGCCCC 
CCACAGCCCT TTGGCCTCCC TCCCCAGGCC TCCCAAGGCC AGGCCCCTCT GGGGACCTCC 
CCAGCAGCAG CGTACCCTCA CACCTCCCTG CAGCTGCCAG CCTCTCAGTC AGCGCTGCAG 
TCCCAACAGC CTCCACGGGA GCAGCCCCTG CCACCAGCGC CCTTGGCCAT GCCCCACATC 
AAGCCCCCGC CTACCACTCC CATCCCCCAG CTGCCGGCGC CACAGGCCCA CAAGCACCCT 
CCCCACCTCT CGGGGCCCTC ACCCTTCTCC ATGAATGCCA ACCTGCCTCC CCCTCCAGCC 
CTGAAGCCCC TGAGCTCCCT GTCCACACAT CACCCCCCGT CGGCTCACCC CCCACCCCTG 
CAACTCATGC CTCAGAGCCA GCCATTGCCC TCCTCGCCCG CCCAGCCCCC CGGGCTGACC 
CAGAGCCAGA ACCTGCCCCC GCCCCCTGCC TCCCACCCCC CTACAGGCCT CCACCAGGTG 
GCCCCCCAAC CCCCGTTTGC TCAGCACCCC TTTGTCCCTG GAGGCCCTCC TCCCATCACC 
CCTCCGACCT GCCCCTCCAC CTCTACCCCA CCGGCGGGAC CTGGCACCTC GGCCCAGCCA 
CCCTGCTCTG GTGCGGCGGC TTCAGGAGGC AGCATAGCGG GGGGGTCGTC CTGCCCACTC 
CCCACCGTCC AGATCAAGGA GGAGGCTCTG GACGACGCTG AGGAGCCTGA GAGCCCCCCT 
CCCCCACCAA GGAGCCCGTC CCCGGAGCCC ACTGTGGTGG ACACCCCCAG TCACGCCAGC 
CAGTCAGCTA GGTTCTACAA ACACCTGGAC CGGGGCTACA ACTCGTGTGC CCGGACAGAC 
CTGTACTTCA TGCCTCTGGC CGGGTCCAAG CTGGCCAAGA AGAGGGAGGA GGCCATTGAG 
AAGGCCAAGC GCGAGGCTGA GCAGAAAGCC CGAGAGGAGC GAGAGCGGGA GAAGGAGAAG 
GAGAAGGAGC GGGAGCGGGA GCGAGAGCGG GAGCGCGAGG CAGAGCGGGC GGCTAAGGCG 
TCCAGCTCAG CGCATGAAGG TCGCCTCAGT GACCCACAGC TCAGTGGTCC TGGCCACATG 
CGGCCATCCT TCGAGCCACC ACCAACCACC ATTGCTGCTG TGCCCCCCTA CATCGGGCCC 
GACACACCTG CCCTTCGGAC TCTGAGCGAG TACGCCCGGC CCCACGTCAT GTCGCCCACC 
AACCGCAACC ACCCCTTCTA CATGCCCCTT AACCCCACGG ACCCCCTGCT GGCCTACCAC 
ATGCCTGGCC TCTACAACGT CGACCCCACC ATCCGCGAGC GGGAGCTCCG GGAGCGGGAG 
ATCCGAGAGC GGGAGATCCG AGAGCGGGAG CTGCGGGAGA GGATGAAGCC GGGCTTCGAG 
GTGAAGCCCC CAGAGCTGGA CCCCCTGCAC CCAGCCGCCA ACCCCATGGA GCACTTTGCC 
CGGCACAGCG CCCTCACCAT CCCCCCGACC GCCGGGCCCC ACCCTTTTGC TTCTTTCCAC 
CCGGGCCTGA ACCCCTTGGA GAGGGAGAGA CTGGCCCTGG CGGGCCCCCA GCTGCGGCCC 
GAGATGAGCT ACCCTGACAG ACTGGCAGCC GAGCGTATCC ACGCAGAGCG CATGGCATCG 
CTGACCAGCG ATCCCCTGGC CCGACTGCAG ATGTTCAACG TGACTCCGCA CCATCACCAG 
CACTCTCACA TTCACTCCCA CCTCCACCTC CACCAGCAGG ACCCCCTCCA CCAAGGTTCA 
GCAGGCCCCG TTCACCCGCT GGTCGACCCC CTGACTGCCG GTCCCCACCT GGCTCGCTTC 
CCCTACCCGC CTGGCACTCT CCCCAACCCT CTGCTTGGAC AGCCCCCACA CGAGCACGAG 
ATGCTTCGCC ACCCAGTTTT CGGCACCCCC TACCCCCGTG ACCTGCCTGG GGCCATCCCA 
CCCCCCATGT CAGCAGCCCA CCAGCTGCAG GCCATGCATG CCCAGTCGGC CGAGCTGCAG 
AGACTGGCCA TGGAGCAGCA GTGGCTGCAT GGACACCCCC ACATGCATGG TGGCCACCTA 
CCAAGTCAGG AAGATTATTA CAGTCGACTG AAGAAAGAAG GTGACAAGCA GTTATAA

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

PubMed

De Novo Mutations of RERE Cause a Genetic Syndrome with Features that Overlap Those Associated with Proximal 1p36 Deletions.
American journal of human genetics98(5)963-970(2016 May)
Fregeau B,Kim BJ,Hern?ndez-Garc?a A,Jordan VK,Cho MT,Schnur RE,Monaghan KG,Juusola J,Rosenfeld JA,Bhoj E,Zackai EH,Sacharow S,Bara?ano K,Bosch DGM,de Vries BBA,Lindstrom K,Schroeder A,James P,Kulch P,Lalani SR,van Haelst MM,van Gassen KLI,van Binsbergen E,Barkovich AJ,Scott DA,Sherr EH

Meta-analysis of genome-wide association studies identifies novel loci that influence cupping and the glaucomatous process.
Nature communications54883(2014 Sep)
Springelkamp H,H?hn R,Mishra A,Hysi PG,Khor CC,Loomis SJ,Bailey JN,Gibson J,Thorleifsson G,Janssen SF,Luo X,Ramdas WD,Vithana E,Nongpiur ME,Montgomery GW,Xu L,Mountain JE,Gharahkhani P,Lu Y,Amin N,Karssen LC,Sim KS,van Leeuwen EM,Iglesias AI,Verhoeven VJ,Hauser MA,Loon SC,Despriet DD,Nag A,Venturini C,Sanfilippo PG,Schillert A,Kang JH,Landers J,Jonasson F,Cree AJ,van Koolwijk LM,Rivadeneira F,Souzeau E,Jonsson V,Menon G,,Weinreb RN,de Jong PT,Oostra BA,Uitterlinden AG,Hofman A,Ennis S,Thorsteinsdottir U,Burdon KP,,,Spector TD,Mirshahi A,Saw SM,Vingerling JR,Teo YY,Haines JL,Wolfs RC,Lemij HG,Tai ES,Jansonius NM,Jonas JB,Cheng CY,Aung T,Viswanathan AC,Klaver CC,Craig JE,Macgregor S,Mackey DA,Lotery AJ,Stefansson K,Bergen AA,Young TL,Wiggs JL,Pfeiffer N,Wong TY,Pasquale LR,Hewitt AW,van Duijn CM,Hammond CJ

Common genetic variants associated with cognitive performance identified using the proxy-phenotype method.
Proceedings of the National Academy of Sciences of the United States of America111(38)13790-4(2014 Sep)
Rietveld CA,Esko T,Davies G,Pers TH,Turley P,Benyamin B,Chabris CF,Emilsson V,Johnson AD,Lee JJ,de Leeuw C,Marioni RE,Medland SE,Miller MB,Rostapshova O,van der Lee SJ,Vinkhuyzen AA,Amin N,Conley D,Derringer J,van Duijn CM,Fehrmann R,Franke L,Glaeser EL,Hansell NK,Hayward C,Iacono WG,Ibrahim-Verbaas C,Jaddoe V,Karjalainen J,Laibson D,Lichtenstein P,Liewald DC,Magnusson PK,Martin NG,McGue M,McMahon G,Pedersen NL,Pinker S,Porteous DJ,Posthuma D,Rivadeneira F,Smith BH,Starr JM,Tiemeier H,Timpson NJ,Trzaskowski M,Uitterlinden AG,Verhulst FC,Ward ME,Wright MJ,Davey Smith G,Deary IJ,Johannesson M,Plomin R,Visscher PM,Benjamin DJ,Cesarini D,Koellinger PD

Identification of novel genetic Loci associated with thyroid peroxidase antibodies and clinical thyroid disease.
PLoS genetics10(2)e1004123(2014 Feb)
Medici M,Porcu E,Pistis G,Teumer A,Brown SJ,Jensen RA,Rawal R,Roef GL,Plantinga TS,Vermeulen SH,Lahti J,Simmonds MJ,Husemoen LL,Freathy RM,Shields BM,Pietzner D,Nagy R,Broer L,Chaker L,Korevaar TI,Plia MG,Sala C,V?lker U,Richards JB,Sweep FC,Gieger C,Corre T,Kajantie E,Thuesen B,Taes YE,Visser WE,Hattersley AT,Kratzsch J,Hamilton A,Li W,Homuth G,Lobina M,Mariotti S,Soranzo N,Cocca M,Nauck M,Spielhagen C,Ross A,Arnold A,van de Bunt M,Liyanarachchi S,Heier M,Grabe HJ,Masciullo C,Galesloot TE,Lim EM,Reischl E,Leedman PJ,Lai S,Delitala A,Bremner AP,Philips DI,Beilby JP,Mulas A,Vocale M,Abecasis G,Forsen T,James A,Widen E,Hui J,Prokisch H,Rietzschel EE,Palotie A,Feddema P,Fletcher SJ,Schramm K,Rotter JI,Kluttig A,Radke D,Traglia M,Surdulescu GL,He H,Franklyn JA,Tiller D,Vaidya B,de Meyer T,J?rgensen T,Eriksson JG,O'Leary PC,Wichmann E,Hermus AR,Psaty BM,Ittermann T,Hofman A,Bosi E,Schlessinger D,Wallaschofski H,Pirastu N,Aulchenko YS,de la Chapelle A,Netea-Maier RT,Gough SC,Meyer Zu Schwabedissen H,Frayling TM,Kaufman JM,Linneberg A,R?ikk?nen K,Smit JW,Kiemeney LA,Rivadeneira F,Uitterlinden AG,Walsh JP,Meisinger C,den Heijer M,Visser TJ,Spector TD,Wilson SG,V?lzke H,Cappola A,Toniolo D,Sanna S,Naitza S,Peeters RP

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

RERE 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:

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:

見積依頼

Eメール

電話

FAX

オンラインフォーム