CLSTN2 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	CLSTN2
Entrez Gene ID	64084
Full Name	calsyntenin 2
Synonyms	ALC-GAMMA,CDHR13,CS2,CSTN2,alcagamma
General protein information	Preferred Names calsyntenin 2 Names calsyntenin-2 alcadein gamma cadherin-related family member 13
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 3 Map Location: 3q23
Disorder MIM:	611323

mRNA and Protein(s)

mRNA	Protein	Name
NM_022131.3	NP_071414.2	calsyntenin-2 precursor
XM_017007022.1	XP_016862511.1	calsyntenin-2 isoform X1
XM_017007022.2	XP_016862511.1	calsyntenin-2 isoform X1
NM_022131.2	NP_071414.2	calsyntenin-2 precursor

Pathways from BioSystems

Homologies

Pan troglodytes (chimpanzee)	CLSTN2	XP_526327.2
	CLSTN2	XP_001113205.1
Bos taurus (cattle)	CLSTN2	NP_001193686.1
Mus musculus (house mouse)	Clstn2	NP_071714.2
Drosophila melanogaster (fruit fly)	Cals	NP_726646.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP007103	XP_001237120.2
Homo sapiens (human)	CLSTN2	NP_071414.2
Canis lupus familiaris (dog)	CLSTN2	XP_534287.3
Rattus norvegicus (Norway rat)	Clstn2	NP_599204.1
Xenopus tropicalis (tropical clawed frog)	clstn2	XP_002941239.2
Gallus gallus (chicken)	CLSTN2	XP_422633.4
Danio rerio (zebrafish)	clstn2	NP_001153311.1

Gene Ontology
Bibliography

Related articles in PubMed

Investigating the influence of KIBRA and CLSTN2 genetic polymorphisms on cross-sectional and longitudinal measures of memory performance and hippocampal volume in older individuals.
Boraxbekk CJ, Ames D, Kochan NA, Lee T, Thalamuthu A, Wen W, Armstrong NJ, Kwok JB, Schofield PR, Reppermund S, Wright MJ, Trollor JN, Brodaty H, Sachdev P, Mather KA
Neuropsychologia7810-7(2015 Nov)

Genome-wide association study for refractive astigmatism reveals genetic co-determination with spherical equivalent refractive error: the CREAM consortium.
Li Q, Wojciechowski R, Simpson CL, Hysi PG, Verhoeven VJ, Ikram MK, H?hn R, Vitart V, Hewitt AW, Oexle K, M?kel? KM, MacGregor S, Pirastu M, Fan Q, Cheng CY, St Pourcain B, McMahon G, Kemp JP, Northstone K, Rahi JS, Cumberland PM, Martin NG, Sanfilippo PG, Lu Y, Wang YX, Hayward C, Pola?ek O, Campbell H, Bencic G, Wright AF, Wedenoja J, Zeller T, Schillert A, Mirshahi A, Lackner K, Yip SP, Yap MK, Ried JS, Gieger C, Murgia F, Wilson JF, Fleck B, Yazar S, Vingerling JR, Hofman A, Uitterlinden A, Rivadeneira F, Amin N, Karssen L, Oostra BA, Zhou X, Teo YY, Tai ES, Vithana E, Barathi V, Zheng Y, Siantar RG, Neelam K, Shin Y, Lam J, Yonova-Doing E, Venturini C, Hosseini SM, Wong HS, Lehtim?ki T, K?h?nen M, Raitakari O, Timpson NJ, Evans DM, Khor CC, Aung T, Young TL, Mitchell P, Klein B, van Duijn CM, Meitinger T, Jonas JB, Baird PN, Mackey DA, Wong TY, Saw SM, P?rssinen O, Stambolian D, Hammond CJ, Klaver CC, Williams C, Paterson AD, Bailey-Wilson JE, Guggenheim JA,
Human genetics134(2)131-46(2015 Feb)

Interactive effects of KIBRA and CLSTN2 polymorphisms on episodic memory in old-age unipolar depression.
Pantzar A, Laukka EJ, Atti AR, Papenberg G, Keller L, Graff C, Fratiglioni L, B?ckman L
Neuropsychologia62137-42(2014 Sep)

A meta-analysis of Hodgkin lymphoma reveals 19p13.3 TCF3 as a novel susceptibility locus.
Cozen W, Timofeeva MN, Li D, Diepstra A, Hazelett D, Delahaye-Sourdeix M, Edlund CK, Franke L, Rostgaard K, Van Den Berg DJ, Cortessis VK, Smedby KE, Glaser SL, Westra HJ, Robison LL, Mack TM, Ghesquieres H, Hwang AE, Nieters A, de Sanjose S, Lightfoot T, Becker N, Maynadie M, Foretova L, Roman E, Benavente Y, Rand KA, Nathwani BN, Glimelius B, Staines A, Boffetta P, Link BK, Kiemeney L, Ansell SM, Bhatia S, Strong LC, Galan P, Vatten L, Habermann TM, Duell EJ, Lake A, Veenstra RN, Visser L, Liu Y, Urayama KY, Montgomery D, Gaborieau V, Weiss LM, Byrnes G, Lathrop M, Cocco P, Best T, Skol AD, Adami HO, Melbye M, Cerhan JR, Gallagher A, Taylor GM, Slager SL, Brennan P, Coetzee GA, Conti DV, Onel K, Jarrett RF, Hjalgrim H, van den Berg A, McKay JD
Nature communications53856(2014 Jun)

Genome-wide contribution of genotype by environment interaction to variation of diabetes-related traits.
Zheng JS, Arnett DK, Lee YC, Shen J, Parnell LD, Smith CE, Richardson K, Li D, Borecki IB, Ordov?s JM, Lai CQ
PloS one8(10)e77442(2013)

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

Study did not find support for an association of KIBRA either alone or in combination with CLSTN2 with memory performance or hippocampal volume, nor did variation in these genes influence longitudinal memory decline or hippocampal atrophy in older adults
Title: Investigating the influence of KIBRA and CLSTN2 genetic polymorphisms on cross-sectional and longitudinal measures of memory performance and hippocampal volume in older individuals.

The results of this study supports the view that effects of KIBRA and CLSTN2 polymorphisms genetic polymorphisms on cognitive functioning may be most easily disclosed at suboptimal levels of cognitive ability, such as in old-age depression.
Title: Interactive effects of KIBRA and CLSTN2 polymorphisms on episodic memory in old-age unipolar depression.

No increased risk of any type of late development, and cognitive impairment was associated with CLSTN2 (rs6439886)
Title: The role of memory-related gene polymorphisms, KIBRA and CLSTN2, on replicate memory assessment in the elderly.

Observational study of gene-disease association. (HuGE Navigator)
Title: Genetic associations of brain structural networks in schizophrenia: a preliminary study.

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.

The following CLSTN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CLSTN2 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)
OHu94487	XM_017007022.2 Latest version!	Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu24802	NM_022131.3 Latest version!	Homo sapiens calsyntenin 2 (CLSTN2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$265.30 $379.00
View Old Accession Versions >>
OHu94487	XM_017007022.1	Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OHu24802	NM_022131.2	Homo sapiens calsyntenin 2 (CLSTN2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$265.30 $379.00
Hide Old Accession Versions >>

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

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

Reference Sequences (Refseq)

CLSTN2 ( XM_017007022.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016862511.1 Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu94487
Clone ID Related Accession (Same CDS sequence)	XM_017007022.1 , XM_017007022.2
Accession Version	XM_017007022.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2793bp) 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	calsyntenin-2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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##

ATGCTGGCCA GATGGCCAAG AACAAGGATG AGGGTCAATA AGCACAAGCC ATGGATCGAG 
ACTTCATATC ATGGAGTCAT AACTGAGAAC AATGACACAG TCATTTTGGA CCCACCACTG 
GTAGCCCTGG ATAAAGATGC ACCGGTTCCT TTTGCAGGGG AAATCTGTGC GTTCAAGATC 
CATGGCCAGG AGCTGCCCTT TGAGGCTGTG GTGCTCAACA AGACATCAGG AGAGGGCCGG 
CTCCGTGCCA AGAGCCCCAT TGACTGTGAG TTGCAGAAGG AGTACACATT CATCATCCAG 
GCCTATGACT GTGGTGCTGG GCCCCACGAG ACAGCCTGGA AAAAGTCACA CAAGGCCGTG 
GTCCATATAC AGGTGAAGGA TGTCAACGAG TTTGCTCCCA CCTTCAAAGA GCCAGCCTAC 
AAGGCTGTTG TGACGGAGGG CAAGATCTAT GACAGCATTC TGCAGGTGGA GGCCATTGAC 
GAGGACTGCT CCCCACAGTA CAGCCAGATC TGCAACTATG AAATCGTCAC CACAGATGTG 
CCTTTTGCCA TCGACAGAAA TGGCAACATC AGGAACACTG AGAAGCTGAG CTATGACAAA 
CAACACCAGT ATGAGATCCT GGTGACCGCC TACGACTGTG GACAGAAGCC CGCTGCTCAG 
GACACCCTGG TGCAGGTGGA TGTGAAGCCA GTTTGCAAGC CTGGCTGGCA AGACTGGACC 
AAGAGGATTG AGTACCAGCC TGGCTCCGGG AGCATGCCCC TGTTCCCCAG CATCCACCTG 
GAGACGTGCG ATGGAGCCGT GTCTTCCCTC CAGATCGTCA CAGAGCTGCA GACTAATTAC 
ATTGGGAAGG GTTGTGACCG GGAGACCTAC TCTGAGAAAT CCCTTCAAAA GTTATGTGGA 
GCCTCCTCTG GCATCATTGA CCTCTTGCCA TCCCCTAGCG CTGCCACCAA CTGGACTGCA 
GGACTGCTGG TGGACAGCAG TGAGATGATC TTCAAGTTTG ACGGCAGGCA GGGTGCCAAA 
GTCCCCGATG GGATTGTGCC CAAGAACCTG ACCGATCAGT TCACCATCAC CATGTGGATG 
AAACACGGCC CCAGCCCTGG TGTGAGAGCC GAGAAGGAAA CCATCCTCTG CAACTCAGAC 
AAAACCGAAA TGAACCGGCA TCACTATGCC CTGTATGTGC ACAACTGCCG CCTCGTCTTT 
CTCTTGCGGA AGGACTTCGA CCAGGCTGAC ACCTTTCGCC CCGCGGAGTT CCACTGGAAG 
CTGGATCAGA TTTGTGACAA AGAGTGGCAC TACTATGTCA TCAATGTGGA GTTTCCTGTG 
GTAACCTTAT ACATGGATGG AGCAACATAT GAACCATACC TGGTGACCAA CGACTGGCCC 
ATTCATCCAT CTCACATAGC CATGCAACTC ACAGTCGGCG CTTGTTGGCA AGGAGGAGAA 
GTCACCAAAC CACAGTTTGC TCAGTTCTTT CATGGAAGCC TGGCCAGTCT CACCATCCGC 
CCTGGCAAAA TGGAAAGCCA GAAGGTGATC TCCTGCCTGC AGGCCTGCAA GGAAGGGCTG 
GACATTAATT CCTTGGAAAG CCTTGGCCAA GGAATAAAGT ATCACTTCAA CCCCTCGCAG 
TCCATCCTGG TGATGGAAGG TGACGACATT GGGAACATTA ACCGTGCTCT CCAGAAAGTC 
TCCTACATCA ACTCCAGGCA GTTCCCAACG GCGGGTGTGC GGCGCCTCAA AGTATCCTCC 
AAAGTCCAGT GCTTTGGGGA AGACGTATGC ATCAGTATCC CTGAGGTAGA TGCCTATGTG 
ATGGTCCTCC AGGCCATCGA GCCCCGGATC ACCCTCCGGG GCACAGACCA CTTCTGGAGA 
CCTGCTGCCC AGTTTGAAAG TGCCAGGGGA GTGACCCTCT TCCCTGATAT CAAGATTGTG 
AGCACCTTCG CCAAAACCGA AGCCCCCGGG GACGTGAAAA CCACAGACCC CAAATCAGAA 
GTCTTAGAGG AAATGCTTCA TAACTTAGAT TTCTGTGACA TTTTGGTGAT CGGAGGGGAC 
TTGGACCCAA GGCAGGAGTG CTTGGAGCTC AACCACAGTG AGCTCCACCA ACGACACCTG 
GATGCCACTA ATTCTACTGC AGGCTACTCC ATCTACGGTG TGGGCTCCAT GAGCCGCTAT 
GAGCAGGTGC TACATCACAT CCGCTACCGC AACTGGCGTC CGGCTTCCCT TGAGGCCCGG 
CGTTTCCGGA TTAAGTGCTC AGAACTCAAT GGGCGCTACA CTAGCAATGA GTTCAACTTG 
GAGGTCAGCA TCCTTCATGA AGACCAAGTC TCAGATAAGG AGCATGTCAA TCATCTGATT 
GTGCAGCCTC CCTTCCTCCA GTCTGTCCAT CATCCTGAGT CCCGGAGTAG CATCCAGCAC 
AGTTCAGTGG TCCCAAGCAT TGCCACAGTG GTCATCATCA TCTCCGTGTG CATGCTTGTG 
TTTGTCGTGG CCATGGGTGT GTACCGGGTC CGGATCGCCC ACCAGCACTT CATCCAGGAG 
ACTGAGGCTG CCAAGGAATC TGAGATGGAC TGGGACGATT CTGCGCTGAC TATCACAGTC 
AACCCCATGG AGAAACATGA AGGACCAGGG CATGGGGAAG ATGAGACTGA GGGAGAAGAG 
GAGGAAGAAG CCGAGGAAGA AATGAGCTCC AGCAGTGGCT CTGACGACAG CGAAGAGGAG 
GAGGAGGAGG AAGGGATGGG CAGAGGCAGA CATGGGCAGA ATGGAGCCAG GCAAGCCCAG 
CTGGAGTGGG ATGACTCCAC CCTCCCCTAC TAG

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

RefSeq	XP_016862511.1
CDS	307..3099
Translation	MLARWPRTRMRVNKHKPWIETSYHGVITENNDTVILDPPLVALDKDAPVPFAGEICAFKIHGQELPFEAVVLNKTSGEGRLRAKSPIDCELQKEYTFIIQAYDCGAGPHETAWKKSHKAVVHIQVKDVNEFAPTFKEPAYKAVVTEGKIYDSILQVEAIDEDCSPQYSQICNYEIVTTDVPFAIDRNGNIRNTEKLSYDKQHQYEILVTAYDCGQKPAAQDTLVQVDVKPVCKPGWQDWTKRIEYQPGSGSMPLFPSIHLETCDGAVSSLQIVTELQTNYIGKGCDRETYSEKSLQKLCGASSGIIDLLPSPSAATNWTAGLLVDSSEMIFKFDGRQGAKVPDGIVPKNLTDQFTITMWMKHGPSPGVRAEKETILCNSDKTEMNRHHYALYVHNCRLVFLLRKDFDQADTFRPAEFHWKLDQICDKEWHYYVINVEFPVVTLYMDGATYEPYLVTNDWPIHPSHIAMQLTVGACWQGGEVTKPQFAQFFHGSLASLTIRPGKMESQKVISCLQACKEGLDINSLESLGQGIKYHFNPSQSILVMEGDDIGNINRALQKVSYINSRQFPTAGVRRLKVSSKVQCFGEDVCISIPEVDAYVMVLQAIEPRITLRGTDHFWRPAAQFESARGVTLFPDIKIVSTFAKTEAPGDVKTTDPKSEVLEEMLHNLDFCDILVIGGDLDPRQECLELNHSELHQRHLDATNSTAGYSIYGVGSMSRYEQVLHHIRYRNWRPASLEARRFRIKCSELNGRYTSNEFNLEVSILHEDQVSDKEHVNHLIVQPPFLQSVHHPESRSSIQHSSVVPSIATVVIIISVCMLVFVVAMGVYRVRIAHQHFIQETEAAKESEMDWDDSALTITVNPMEKHEGPGHGEDETEGEEEEEAEEEMSSSSGSDDSEEEEEEEGMGRGRHGQNGARQAQLEWDDSTLPY

Target ORF information:

RefSeq Version	XM_017007022.1
Organism	Homo sapiens(human)
Definition	Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.

Target ORF information:

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

XM_017007022.1

ORF Insert Sequence:

ATGCTGGCCA GATGGCCAAG AACAAGGATG AGGGTCAATA AGCACAAGCC ATGGATCGAG 
ACTTCATATC ATGGAGTCAT AACTGAGAAC AATGACACAG TCATTTTGGA CCCACCACTG 
GTAGCCCTGG ATAAAGATGC ACCGGTTCCT TTTGCAGGGG AAATCTGTGC GTTCAAGATC 
CATGGCCAGG AGCTGCCCTT TGAGGCTGTG GTGCTCAACA AGACATCAGG AGAGGGCCGG 
CTCCGTGCCA AGAGCCCCAT TGACTGTGAG TTGCAGAAGG AGTACACATT CATCATCCAG 
GCCTATGACT GTGGTGCTGG GCCCCACGAG ACAGCCTGGA AAAAGTCACA CAAGGCCGTG 
GTCCATATAC AGGTGAAGGA TGTCAACGAG TTTGCTCCCA CCTTCAAAGA GCCAGCCTAC 
AAGGCTGTTG TGACGGAGGG CAAGATCTAT GACAGCATTC TGCAGGTGGA GGCCATTGAC 
GAGGACTGCT CCCCACAGTA CAGCCAGATC TGCAACTATG AAATCGTCAC CACAGATGTG 
CCTTTTGCCA TCGACAGAAA TGGCAACATC AGGAACACTG AGAAGCTGAG CTATGACAAA 
CAACACCAGT ATGAGATCCT GGTGACCGCC TACGACTGTG GACAGAAGCC CGCTGCTCAG 
GACACCCTGG TGCAGGTGGA TGTGAAGCCA GTTTGCAAGC CTGGCTGGCA AGACTGGACC 
AAGAGGATTG AGTACCAGCC TGGCTCCGGG AGCATGCCCC TGTTCCCCAG CATCCACCTG 
GAGACGTGCG ATGGAGCCGT GTCTTCCCTC CAGATCGTCA CAGAGCTGCA GACTAATTAC 
ATTGGGAAGG GTTGTGACCG GGAGACCTAC TCTGAGAAAT CCCTTCAAAA GTTATGTGGA 
GCCTCCTCTG GCATCATTGA CCTCTTGCCA TCCCCTAGCG CTGCCACCAA CTGGACTGCA 
GGACTGCTGG TGGACAGCAG TGAGATGATC TTCAAGTTTG ACGGCAGGCA GGGTGCCAAA 
GTCCCCGATG GGATTGTGCC CAAGAACCTG ACCGATCAGT TCACCATCAC CATGTGGATG 
AAACACGGCC CCAGCCCTGG TGTGAGAGCC GAGAAGGAAA CCATCCTCTG CAACTCAGAC 
AAAACCGAAA TGAACCGGCA TCACTATGCC CTGTATGTGC ACAACTGCCG CCTCGTCTTT 
CTCTTGCGGA AGGACTTCGA CCAGGCTGAC ACCTTTCGCC CCGCGGAGTT CCACTGGAAG 
CTGGATCAGA TTTGTGACAA AGAGTGGCAC TACTATGTCA TCAATGTGGA GTTTCCTGTG 
GTAACCTTAT ACATGGATGG AGCAACATAT GAACCATACC TGGTGACCAA CGACTGGCCC 
ATTCATCCAT CTCACATAGC CATGCAACTC ACAGTCGGCG CTTGTTGGCA AGGAGGAGAA 
GTCACCAAAC CACAGTTTGC TCAGTTCTTT CATGGAAGCC TGGCCAGTCT CACCATCCGC 
CCTGGCAAAA TGGAAAGCCA GAAGGTGATC TCCTGCCTGC AGGCCTGCAA GGAAGGGCTG 
GACATTAATT CCTTGGAAAG CCTTGGCCAA GGAATAAAGT ATCACTTCAA CCCCTCGCAG 
TCCATCCTGG TGATGGAAGG TGACGACATT GGGAACATTA ACCGTGCTCT CCAGAAAGTC 
TCCTACATCA ACTCCAGGCA GTTCCCAACG GCGGGTGTGC GGCGCCTCAA AGTATCCTCC 
AAAGTCCAGT GCTTTGGGGA AGACGTATGC ATCAGTATCC CTGAGGTAGA TGCCTATGTG 
ATGGTCCTCC AGGCCATCGA GCCCCGGATC ACCCTCCGGG GCACAGACCA CTTCTGGAGA 
CCTGCTGCCC AGTTTGAAAG TGCCAGGGGA GTGACCCTCT TCCCTGATAT CAAGATTGTG 
AGCACCTTCG CCAAAACCGA AGCCCCCGGG GACGTGAAAA CCACAGACCC CAAATCAGAA 
GTCTTAGAGG AAATGCTTCA TAACTTAGAT TTCTGTGACA TTTTGGTGAT CGGAGGGGAC 
TTGGACCCAA GGCAGGAGTG CTTGGAGCTC AACCACAGTG AGCTCCACCA ACGACACCTG 
GATGCCACTA ATTCTACTGC AGGCTACTCC ATCTACGGTG TGGGCTCCAT GAGCCGCTAT 
GAGCAGGTGC TACATCACAT CCGCTACCGC AACTGGCGTC CGGCTTCCCT TGAGGCCCGG 
CGTTTCCGGA TTAAGTGCTC AGAACTCAAT GGGCGCTACA CTAGCAATGA GTTCAACTTG 
GAGGTCAGCA TCCTTCATGA AGACCAAGTC TCAGATAAGG AGCATGTCAA TCATCTGATT 
GTGCAGCCTC CCTTCCTCCA GTCTGTCCAT CATCCTGAGT CCCGGAGTAG CATCCAGCAC 
AGTTCAGTGG TCCCAAGCAT TGCCACAGTG GTCATCATCA TCTCCGTGTG CATGCTTGTG 
TTTGTCGTGG CCATGGGTGT GTACCGGGTC CGGATCGCCC ACCAGCACTT CATCCAGGAG 
ACTGAGGCTG CCAAGGAATC TGAGATGGAC TGGGACGATT CTGCGCTGAC TATCACAGTC 
AACCCCATGG AGAAACATGA AGGACCAGGG CATGGGGAAG ATGAGACTGA GGGAGAAGAG 
GAGGAAGAAG CCGAGGAAGA AATGAGCTCC AGCAGTGGCT CTGACGACAG CGAAGAGGAG 
GAGGAGGAGG AAGGGATGGG CAGAGGCAGA CATGGGCAGA ATGGAGCCAG GCAAGCCCAG 
CTGGAGTGGG ATGACTCCAC CCTCCCCTAC TAG

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

CLSTN2 ( XM_017007022.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016862511.1 Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu94487
Clone ID Related Accession (Same CDS sequence)	XM_017007022.1 , XM_017007022.2
Accession Version	XM_017007022.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2793bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	calsyntenin-2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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_017007022.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGGCCA GATGGCCAAG AACAAGGATG AGGGTCAATA AGCACAAGCC ATGGATCGAG 
ACTTCATATC ATGGAGTCAT AACTGAGAAC AATGACACAG TCATTTTGGA CCCACCACTG 
GTAGCCCTGG ATAAAGATGC ACCGGTTCCT TTTGCAGGGG AAATCTGTGC GTTCAAGATC 
CATGGCCAGG AGCTGCCCTT TGAGGCTGTG GTGCTCAACA AGACATCAGG AGAGGGCCGG 
CTCCGTGCCA AGAGCCCCAT TGACTGTGAG TTGCAGAAGG AGTACACATT CATCATCCAG 
GCCTATGACT GTGGTGCTGG GCCCCACGAG ACAGCCTGGA AAAAGTCACA CAAGGCCGTG 
GTCCATATAC AGGTGAAGGA TGTCAACGAG TTTGCTCCCA CCTTCAAAGA GCCAGCCTAC 
AAGGCTGTTG TGACGGAGGG CAAGATCTAT GACAGCATTC TGCAGGTGGA GGCCATTGAC 
GAGGACTGCT CCCCACAGTA CAGCCAGATC TGCAACTATG AAATCGTCAC CACAGATGTG 
CCTTTTGCCA TCGACAGAAA TGGCAACATC AGGAACACTG AGAAGCTGAG CTATGACAAA 
CAACACCAGT ATGAGATCCT GGTGACCGCC TACGACTGTG GACAGAAGCC CGCTGCTCAG 
GACACCCTGG TGCAGGTGGA TGTGAAGCCA GTTTGCAAGC CTGGCTGGCA AGACTGGACC 
AAGAGGATTG AGTACCAGCC TGGCTCCGGG AGCATGCCCC TGTTCCCCAG CATCCACCTG 
GAGACGTGCG ATGGAGCCGT GTCTTCCCTC CAGATCGTCA CAGAGCTGCA GACTAATTAC 
ATTGGGAAGG GTTGTGACCG GGAGACCTAC TCTGAGAAAT CCCTTCAAAA GTTATGTGGA 
GCCTCCTCTG GCATCATTGA CCTCTTGCCA TCCCCTAGCG CTGCCACCAA CTGGACTGCA 
GGACTGCTGG TGGACAGCAG TGAGATGATC TTCAAGTTTG ACGGCAGGCA GGGTGCCAAA 
GTCCCCGATG GGATTGTGCC CAAGAACCTG ACCGATCAGT TCACCATCAC CATGTGGATG 
AAACACGGCC CCAGCCCTGG TGTGAGAGCC GAGAAGGAAA CCATCCTCTG CAACTCAGAC 
AAAACCGAAA TGAACCGGCA TCACTATGCC CTGTATGTGC ACAACTGCCG CCTCGTCTTT 
CTCTTGCGGA AGGACTTCGA CCAGGCTGAC ACCTTTCGCC CCGCGGAGTT CCACTGGAAG 
CTGGATCAGA TTTGTGACAA AGAGTGGCAC TACTATGTCA TCAATGTGGA GTTTCCTGTG 
GTAACCTTAT ACATGGATGG AGCAACATAT GAACCATACC TGGTGACCAA CGACTGGCCC 
ATTCATCCAT CTCACATAGC CATGCAACTC ACAGTCGGCG CTTGTTGGCA AGGAGGAGAA 
GTCACCAAAC CACAGTTTGC TCAGTTCTTT CATGGAAGCC TGGCCAGTCT CACCATCCGC 
CCTGGCAAAA TGGAAAGCCA GAAGGTGATC TCCTGCCTGC AGGCCTGCAA GGAAGGGCTG 
GACATTAATT CCTTGGAAAG CCTTGGCCAA GGAATAAAGT ATCACTTCAA CCCCTCGCAG 
TCCATCCTGG TGATGGAAGG TGACGACATT GGGAACATTA ACCGTGCTCT CCAGAAAGTC 
TCCTACATCA ACTCCAGGCA GTTCCCAACG GCGGGTGTGC GGCGCCTCAA AGTATCCTCC 
AAAGTCCAGT GCTTTGGGGA AGACGTATGC ATCAGTATCC CTGAGGTAGA TGCCTATGTG 
ATGGTCCTCC AGGCCATCGA GCCCCGGATC ACCCTCCGGG GCACAGACCA CTTCTGGAGA 
CCTGCTGCCC AGTTTGAAAG TGCCAGGGGA GTGACCCTCT TCCCTGATAT CAAGATTGTG 
AGCACCTTCG CCAAAACCGA AGCCCCCGGG GACGTGAAAA CCACAGACCC CAAATCAGAA 
GTCTTAGAGG AAATGCTTCA TAACTTAGAT TTCTGTGACA TTTTGGTGAT CGGAGGGGAC 
TTGGACCCAA GGCAGGAGTG CTTGGAGCTC AACCACAGTG AGCTCCACCA ACGACACCTG 
GATGCCACTA ATTCTACTGC AGGCTACTCC ATCTACGGTG TGGGCTCCAT GAGCCGCTAT 
GAGCAGGTGC TACATCACAT CCGCTACCGC AACTGGCGTC CGGCTTCCCT TGAGGCCCGG 
CGTTTCCGGA TTAAGTGCTC AGAACTCAAT GGGCGCTACA CTAGCAATGA GTTCAACTTG 
GAGGTCAGCA TCCTTCATGA AGACCAAGTC TCAGATAAGG AGCATGTCAA TCATCTGATT 
GTGCAGCCTC CCTTCCTCCA GTCTGTCCAT CATCCTGAGT CCCGGAGTAG CATCCAGCAC 
AGTTCAGTGG TCCCAAGCAT TGCCACAGTG GTCATCATCA TCTCCGTGTG CATGCTTGTG 
TTTGTCGTGG CCATGGGTGT GTACCGGGTC CGGATCGCCC ACCAGCACTT CATCCAGGAG 
ACTGAGGCTG CCAAGGAATC TGAGATGGAC TGGGACGATT CTGCGCTGAC TATCACAGTC 
AACCCCATGG AGAAACATGA AGGACCAGGG CATGGGGAAG ATGAGACTGA GGGAGAAGAG 
GAGGAAGAAG CCGAGGAAGA AATGAGCTCC AGCAGTGGCT CTGACGACAG CGAAGAGGAG 
GAGGAGGAGG AAGGGATGGG CAGAGGCAGA CATGGGCAGA ATGGAGCCAG GCAAGCCCAG 
CTGGAGTGGG ATGACTCCAC CCTCCCCTAC TAG

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

RefSeq	XP_016862511.1
CDS	308..3100
Translation	MLARWPRTRMRVNKHKPWIETSYHGVITENNDTVILDPPLVALDKDAPVPFAGEICAFKIHGQELPFEAVVLNKTSGEGRLRAKSPIDCELQKEYTFIIQAYDCGAGPHETAWKKSHKAVVHIQVKDVNEFAPTFKEPAYKAVVTEGKIYDSILQVEAIDEDCSPQYSQICNYEIVTTDVPFAIDRNGNIRNTEKLSYDKQHQYEILVTAYDCGQKPAAQDTLVQVDVKPVCKPGWQDWTKRIEYQPGSGSMPLFPSIHLETCDGAVSSLQIVTELQTNYIGKGCDRETYSEKSLQKLCGASSGIIDLLPSPSAATNWTAGLLVDSSEMIFKFDGRQGAKVPDGIVPKNLTDQFTITMWMKHGPSPGVRAEKETILCNSDKTEMNRHHYALYVHNCRLVFLLRKDFDQADTFRPAEFHWKLDQICDKEWHYYVINVEFPVVTLYMDGATYEPYLVTNDWPIHPSHIAMQLTVGACWQGGEVTKPQFAQFFHGSLASLTIRPGKMESQKVISCLQACKEGLDINSLESLGQGIKYHFNPSQSILVMEGDDIGNINRALQKVSYINSRQFPTAGVRRLKVSSKVQCFGEDVCISIPEVDAYVMVLQAIEPRITLRGTDHFWRPAAQFESARGVTLFPDIKIVSTFAKTEAPGDVKTTDPKSEVLEEMLHNLDFCDILVIGGDLDPRQECLELNHSELHQRHLDATNSTAGYSIYGVGSMSRYEQVLHHIRYRNWRPASLEARRFRIKCSELNGRYTSNEFNLEVSILHEDQVSDKEHVNHLIVQPPFLQSVHHPESRSSIQHSSVVPSIATVVIIISVCMLVFVVAMGVYRVRIAHQHFIQETEAAKESEMDWDDSALTITVNPMEKHEGPGHGEDETEGEEEEEAEEEMSSSSGSDDSEEEEEEEGMGRGRHGQNGARQAQLEWDDSTLPY

Target ORF information:

RefSeq Version	XM_017007022.2
Organism	Homo sapiens(human)
Definition	Homo sapiens calsyntenin 2 (CLSTN2), transcript variant X1, mRNA.

Target ORF information:

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

XM_017007022.2

ORF Insert Sequence:

ATGCTGGCCA GATGGCCAAG AACAAGGATG AGGGTCAATA AGCACAAGCC ATGGATCGAG 
ACTTCATATC ATGGAGTCAT AACTGAGAAC AATGACACAG TCATTTTGGA CCCACCACTG 
GTAGCCCTGG ATAAAGATGC ACCGGTTCCT TTTGCAGGGG AAATCTGTGC GTTCAAGATC 
CATGGCCAGG AGCTGCCCTT TGAGGCTGTG GTGCTCAACA AGACATCAGG AGAGGGCCGG 
CTCCGTGCCA AGAGCCCCAT TGACTGTGAG TTGCAGAAGG AGTACACATT CATCATCCAG 
GCCTATGACT GTGGTGCTGG GCCCCACGAG ACAGCCTGGA AAAAGTCACA CAAGGCCGTG 
GTCCATATAC AGGTGAAGGA TGTCAACGAG TTTGCTCCCA CCTTCAAAGA GCCAGCCTAC 
AAGGCTGTTG TGACGGAGGG CAAGATCTAT GACAGCATTC TGCAGGTGGA GGCCATTGAC 
GAGGACTGCT CCCCACAGTA CAGCCAGATC TGCAACTATG AAATCGTCAC CACAGATGTG 
CCTTTTGCCA TCGACAGAAA TGGCAACATC AGGAACACTG AGAAGCTGAG CTATGACAAA 
CAACACCAGT ATGAGATCCT GGTGACCGCC TACGACTGTG GACAGAAGCC CGCTGCTCAG 
GACACCCTGG TGCAGGTGGA TGTGAAGCCA GTTTGCAAGC CTGGCTGGCA AGACTGGACC 
AAGAGGATTG AGTACCAGCC TGGCTCCGGG AGCATGCCCC TGTTCCCCAG CATCCACCTG 
GAGACGTGCG ATGGAGCCGT GTCTTCCCTC CAGATCGTCA CAGAGCTGCA GACTAATTAC 
ATTGGGAAGG GTTGTGACCG GGAGACCTAC TCTGAGAAAT CCCTTCAAAA GTTATGTGGA 
GCCTCCTCTG GCATCATTGA CCTCTTGCCA TCCCCTAGCG CTGCCACCAA CTGGACTGCA 
GGACTGCTGG TGGACAGCAG TGAGATGATC TTCAAGTTTG ACGGCAGGCA GGGTGCCAAA 
GTCCCCGATG GGATTGTGCC CAAGAACCTG ACCGATCAGT TCACCATCAC CATGTGGATG 
AAACACGGCC CCAGCCCTGG TGTGAGAGCC GAGAAGGAAA CCATCCTCTG CAACTCAGAC 
AAAACCGAAA TGAACCGGCA TCACTATGCC CTGTATGTGC ACAACTGCCG CCTCGTCTTT 
CTCTTGCGGA AGGACTTCGA CCAGGCTGAC ACCTTTCGCC CCGCGGAGTT CCACTGGAAG 
CTGGATCAGA TTTGTGACAA AGAGTGGCAC TACTATGTCA TCAATGTGGA GTTTCCTGTG 
GTAACCTTAT ACATGGATGG AGCAACATAT GAACCATACC TGGTGACCAA CGACTGGCCC 
ATTCATCCAT CTCACATAGC CATGCAACTC ACAGTCGGCG CTTGTTGGCA AGGAGGAGAA 
GTCACCAAAC CACAGTTTGC TCAGTTCTTT CATGGAAGCC TGGCCAGTCT CACCATCCGC 
CCTGGCAAAA TGGAAAGCCA GAAGGTGATC TCCTGCCTGC AGGCCTGCAA GGAAGGGCTG 
GACATTAATT CCTTGGAAAG CCTTGGCCAA GGAATAAAGT ATCACTTCAA CCCCTCGCAG 
TCCATCCTGG TGATGGAAGG TGACGACATT GGGAACATTA ACCGTGCTCT CCAGAAAGTC 
TCCTACATCA ACTCCAGGCA GTTCCCAACG GCGGGTGTGC GGCGCCTCAA AGTATCCTCC 
AAAGTCCAGT GCTTTGGGGA AGACGTATGC ATCAGTATCC CTGAGGTAGA TGCCTATGTG 
ATGGTCCTCC AGGCCATCGA GCCCCGGATC ACCCTCCGGG GCACAGACCA CTTCTGGAGA 
CCTGCTGCCC AGTTTGAAAG TGCCAGGGGA GTGACCCTCT TCCCTGATAT CAAGATTGTG 
AGCACCTTCG CCAAAACCGA AGCCCCCGGG GACGTGAAAA CCACAGACCC CAAATCAGAA 
GTCTTAGAGG AAATGCTTCA TAACTTAGAT TTCTGTGACA TTTTGGTGAT CGGAGGGGAC 
TTGGACCCAA GGCAGGAGTG CTTGGAGCTC AACCACAGTG AGCTCCACCA ACGACACCTG 
GATGCCACTA ATTCTACTGC AGGCTACTCC ATCTACGGTG TGGGCTCCAT GAGCCGCTAT 
GAGCAGGTGC TACATCACAT CCGCTACCGC AACTGGCGTC CGGCTTCCCT TGAGGCCCGG 
CGTTTCCGGA TTAAGTGCTC AGAACTCAAT GGGCGCTACA CTAGCAATGA GTTCAACTTG 
GAGGTCAGCA TCCTTCATGA AGACCAAGTC TCAGATAAGG AGCATGTCAA TCATCTGATT 
GTGCAGCCTC CCTTCCTCCA GTCTGTCCAT CATCCTGAGT CCCGGAGTAG CATCCAGCAC 
AGTTCAGTGG TCCCAAGCAT TGCCACAGTG GTCATCATCA TCTCCGTGTG CATGCTTGTG 
TTTGTCGTGG CCATGGGTGT GTACCGGGTC CGGATCGCCC ACCAGCACTT CATCCAGGAG 
ACTGAGGCTG CCAAGGAATC TGAGATGGAC TGGGACGATT CTGCGCTGAC TATCACAGTC 
AACCCCATGG AGAAACATGA AGGACCAGGG CATGGGGAAG ATGAGACTGA GGGAGAAGAG 
GAGGAAGAAG CCGAGGAAGA AATGAGCTCC AGCAGTGGCT CTGACGACAG CGAAGAGGAG 
GAGGAGGAGG AAGGGATGGG CAGAGGCAGA CATGGGCAGA ATGGAGCCAG GCAAGCCCAG 
CTGGAGTGGG ATGACTCCAC CCTCCCCTAC TAG

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

CLSTN2 ( NM_022131.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_071414.2 Homo sapiens calsyntenin 2 (CLSTN2), mRNA.

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CloneID	OHu24802
Clone ID Related Accession (Same CDS sequence)	NM_022131.3 , NM_022131.2
Accession Version	NM_022131.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2868bp) 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	2019-11-16
Organism	Homo sapiens(human)
Product	calsyntenin-2 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK315308.1, AJ278018.1, BC103506.1, BC004871.2 and AC048346.13. On Nov 22, 2018 this sequence version replaced NM_022131.2. 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 :: AK315308.1, SRR1660807.44270.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000458420.7/ ENSP00000402460.2 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGCTGCCTG GGCGGCTGTG CTGGGTGCCG CTCCTGCTGG CGCTGGGCGT GGGGAGCGGC 
AGCGGCGGTG GCGGGGACAG CCGGCAGCGC CGCCTCCTCG CGGCTAAAGT CAATAAGCAC 
AAGCCATGGA TCGAGACTTC ATATCATGGA GTCATAACTG AGAACAATGA CACAGTCATT 
TTGGACCCAC CACTGGTAGC CCTGGATAAA GATGCACCGG TTCCTTTTGC AGGGGAAATC 
TGTGCGTTCA AGATCCATGG CCAGGAGCTG CCCTTTGAGG CTGTGGTGCT CAACAAGACA 
TCAGGAGAGG GCCGGCTCCG TGCCAAGAGC CCCATTGACT GTGAGTTGCA GAAGGAGTAC 
ACATTCATCA TCCAGGCCTA TGACTGTGGT GCTGGGCCCC ACGAGACAGC CTGGAAAAAG 
TCACACAAGG CCGTGGTCCA TATACAGGTG AAGGATGTCA ACGAGTTTGC TCCCACCTTC 
AAAGAGCCAG CCTACAAGGC TGTTGTGACG GAGGGCAAGA TCTATGACAG CATTCTGCAG 
GTGGAGGCCA TTGACGAGGA CTGCTCCCCA CAGTACAGCC AGATCTGCAA CTATGAAATC 
GTCACCACAG ATGTGCCTTT TGCCATCGAC AGAAATGGCA ACATCAGGAA CACTGAGAAG 
CTGAGCTATG ACAAACAACA CCAGTATGAG ATCCTGGTGA CCGCCTACGA CTGTGGACAG 
AAGCCCGCTG CTCAGGACAC CCTGGTGCAG GTGGATGTGA AGCCAGTTTG CAAGCCTGGC 
TGGCAAGACT GGACCAAGAG GATTGAGTAC CAGCCTGGCT CCGGGAGCAT GCCCCTGTTC 
CCCAGCATCC ACCTGGAGAC GTGCGATGGA GCCGTGTCTT CCCTCCAGAT CGTCACAGAG 
CTGCAGACTA ATTACATTGG GAAGGGTTGT GACCGGGAGA CCTACTCTGA GAAATCCCTT 
CAAAAGTTAT GTGGAGCCTC CTCTGGCATC ATTGACCTCT TGCCATCCCC TAGCGCTGCC 
ACCAACTGGA CTGCAGGACT GCTGGTGGAC AGCAGTGAGA TGATCTTCAA GTTTGACGGC 
AGGCAGGGTG CCAAAGTCCC CGATGGGATT GTGCCCAAGA ACCTGACCGA TCAGTTCACC 
ATCACCATGT GGATGAAACA CGGCCCCAGC CCTGGTGTGA GAGCCGAGAA GGAAACCATC 
CTCTGCAACT CAGACAAAAC CGAAATGAAC CGGCATCACT ATGCCCTGTA TGTGCACAAC 
TGCCGCCTCG TCTTTCTCTT GCGGAAGGAC TTCGACCAGG CTGACACCTT TCGCCCCGCG 
GAGTTCCACT GGAAGCTGGA TCAGATTTGT GACAAAGAGT GGCACTACTA TGTCATCAAT 
GTGGAGTTTC CTGTGGTAAC CTTATACATG GATGGAGCAA CATATGAACC ATACCTGGTG 
ACCAACGACT GGCCCATTCA TCCATCTCAC ATAGCCATGC AACTCACAGT CGGCGCTTGT 
TGGCAAGGAG GAGAAGTCAC CAAACCACAG TTTGCTCAGT TCTTTCATGG AAGCCTGGCC 
AGTCTCACCA TCCGCCCTGG CAAAATGGAA AGCCAGAAGG TGATCTCCTG CCTGCAGGCC 
TGCAAGGAAG GGCTGGACAT TAATTCCTTG GAAAGCCTTG GCCAAGGAAT AAAGTATCAC 
TTCAACCCCT CGCAGTCCAT CCTGGTGATG GAAGGTGACG ACATTGGGAA CATTAACCGT 
GCTCTCCAGA AAGTCTCCTA CATCAACTCC AGGCAGTTCC CAACGGCGGG TGTGCGGCGC 
CTCAAAGTAT CCTCCAAAGT CCAGTGCTTT GGGGAAGACG TATGCATCAG TATCCCTGAG 
GTAGATGCCT ATGTGATGGT CCTCCAGGCC ATCGAGCCCC GGATCACCCT CCGGGGCACA 
GACCACTTCT GGAGACCTGC TGCCCAGTTT GAAAGTGCCA GGGGAGTGAC CCTCTTCCCT 
GATATCAAGA TTGTGAGCAC CTTCGCCAAA ACCGAAGCCC CCGGGGACGT GAAAACCACA 
GACCCCAAAT CAGAAGTCTT AGAGGAAATG CTTCATAACT TAGATTTCTG TGACATTTTG 
GTGATCGGAG GGGACTTGGA CCCAAGGCAG GAGTGCTTGG AGCTCAACCA CAGTGAGCTC 
CACCAACGAC ACCTGGATGC CACTAATTCT ACTGCAGGCT ACTCCATCTA CGGTGTGGGC 
TCCATGAGCC GCTATGAGCA GGTGCTACAT CACATCCGCT ACCGCAACTG GCGTCCGGCT 
TCCCTTGAGG CCCGGCGTTT CCGGATTAAG TGCTCAGAAC TCAATGGGCG CTACACTAGC 
AATGAGTTCA ACTTGGAGGT CAGCATCCTT CATGAAGACC AAGTCTCAGA TAAGGAGCAT 
GTCAATCATC TGATTGTGCA GCCTCCCTTC CTCCAGTCTG TCCATCATCC TGAGTCCCGG 
AGTAGCATCC AGCACAGTTC AGTGGTCCCA AGCATTGCCA CAGTGGTCAT CATCATCTCC 
GTGTGCATGC TTGTGTTTGT CGTGGCCATG GGTGTGTACC GGGTCCGGAT CGCCCACCAG 
CACTTCATCC AGGAGACTGA GGCTGCCAAG GAATCTGAGA TGGACTGGGA CGATTCTGCG 
CTGACTATCA CAGTCAACCC CATGGAGAAA CATGAAGGAC CAGGGCATGG GGAAGATGAG 
ACTGAGGGAG AAGAGGAGGA AGAAGCCGAG GAAGAAATGA GCTCCAGCAG TGGCTCTGAC 
GACAGCGAAG AGGAGGAGGA GGAGGAAGGG ATGGGCAGAG GCAGACATGG GCAGAATGGA 
GCCAGGCAAG CCCAGCTGGA GTGGGATGAC TCCACCCTCC CCTACTAG

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

RefSeq	NP_071414.2
CDS	191..3058
Translation	MLPGRLCWVPLLLALGVGSGSGGGGDSRQRRLLAAKVNKHKPWIETSYHGVITENNDTVILDPPLVALDKDAPVPFAGEICAFKIHGQELPFEAVVLNKTSGEGRLRAKSPIDCELQKEYTFIIQAYDCGAGPHETAWKKSHKAVVHIQVKDVNEFAPTFKEPAYKAVVTEGKIYDSILQVEAIDEDCSPQYSQICNYEIVTTDVPFAIDRNGNIRNTEKLSYDKQHQYEILVTAYDCGQKPAAQDTLVQVDVKPVCKPGWQDWTKRIEYQPGSGSMPLFPSIHLETCDGAVSSLQIVTELQTNYIGKGCDRETYSEKSLQKLCGASSGIIDLLPSPSAATNWTAGLLVDSSEMIFKFDGRQGAKVPDGIVPKNLTDQFTITMWMKHGPSPGVRAEKETILCNSDKTEMNRHHYALYVHNCRLVFLLRKDFDQADTFRPAEFHWKLDQICDKEWHYYVINVEFPVVTLYMDGATYEPYLVTNDWPIHPSHIAMQLTVGACWQGGEVTKPQFAQFFHGSLASLTIRPGKMESQKVISCLQACKEGLDINSLESLGQGIKYHFNPSQSILVMEGDDIGNINRALQKVSYINSRQFPTAGVRRLKVSSKVQCFGEDVCISIPEVDAYVMVLQAIEPRITLRGTDHFWRPAAQFESARGVTLFPDIKIVSTFAKTEAPGDVKTTDPKSEVLEEMLHNLDFCDILVIGGDLDPRQECLELNHSELHQRHLDATNSTAGYSIYGVGSMSRYEQVLHHIRYRNWRPASLEARRFRIKCSELNGRYTSNEFNLEVSILHEDQVSDKEHVNHLIVQPPFLQSVHHPESRSSIQHSSVVPSIATVVIIISVCMLVFVVAMGVYRVRIAHQHFIQETEAAKESEMDWDDSALTITVNPMEKHEGPGHGEDETEGEEEEEAEEEMSSSSGSDDSEEEEEEEGMGRGRHGQNGARQAQLEWDDSTLPY

Target ORF information:

RefSeq Version	NM_022131.3
Organism	Homo sapiens(human)
Definition	Homo sapiens calsyntenin 2 (CLSTN2), mRNA.

Target ORF information:

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

NM_022131.3

ORF Insert Sequence:

ATGCTGCCTG GGCGGCTGTG CTGGGTGCCG CTCCTGCTGG CGCTGGGCGT GGGGAGCGGC 
AGCGGCGGTG GCGGGGACAG CCGGCAGCGC CGCCTCCTCG CGGCTAAAGT CAATAAGCAC 
AAGCCATGGA TCGAGACTTC ATATCATGGA GTCATAACTG AGAACAATGA CACAGTCATT 
TTGGACCCAC CACTGGTAGC CCTGGATAAA GATGCACCGG TTCCTTTTGC AGGGGAAATC 
TGTGCGTTCA AGATCCATGG CCAGGAGCTG CCCTTTGAGG CTGTGGTGCT CAACAAGACA 
TCAGGAGAGG GCCGGCTCCG TGCCAAGAGC CCCATTGACT GTGAGTTGCA GAAGGAGTAC 
ACATTCATCA TCCAGGCCTA TGACTGTGGT GCTGGGCCCC ACGAGACAGC CTGGAAAAAG 
TCACACAAGG CCGTGGTCCA TATACAGGTG AAGGATGTCA ACGAGTTTGC TCCCACCTTC 
AAAGAGCCAG CCTACAAGGC TGTTGTGACG GAGGGCAAGA TCTATGACAG CATTCTGCAG 
GTGGAGGCCA TTGACGAGGA CTGCTCCCCA CAGTACAGCC AGATCTGCAA CTATGAAATC 
GTCACCACAG ATGTGCCTTT TGCCATCGAC AGAAATGGCA ACATCAGGAA CACTGAGAAG 
CTGAGCTATG ACAAACAACA CCAGTATGAG ATCCTGGTGA CCGCCTACGA CTGTGGACAG 
AAGCCCGCTG CTCAGGACAC CCTGGTGCAG GTGGATGTGA AGCCAGTTTG CAAGCCTGGC 
TGGCAAGACT GGACCAAGAG GATTGAGTAC CAGCCTGGCT CCGGGAGCAT GCCCCTGTTC 
CCCAGCATCC ACCTGGAGAC GTGCGATGGA GCCGTGTCTT CCCTCCAGAT CGTCACAGAG 
CTGCAGACTA ATTACATTGG GAAGGGTTGT GACCGGGAGA CCTACTCTGA GAAATCCCTT 
CAAAAGTTAT GTGGAGCCTC CTCTGGCATC ATTGACCTCT TGCCATCCCC TAGCGCTGCC 
ACCAACTGGA CTGCAGGACT GCTGGTGGAC AGCAGTGAGA TGATCTTCAA GTTTGACGGC 
AGGCAGGGTG CCAAAGTCCC CGATGGGATT GTGCCCAAGA ACCTGACCGA TCAGTTCACC 
ATCACCATGT GGATGAAACA CGGCCCCAGC CCTGGTGTGA GAGCCGAGAA GGAAACCATC 
CTCTGCAACT CAGACAAAAC CGAAATGAAC CGGCATCACT ATGCCCTGTA TGTGCACAAC 
TGCCGCCTCG TCTTTCTCTT GCGGAAGGAC TTCGACCAGG CTGACACCTT TCGCCCCGCG 
GAGTTCCACT GGAAGCTGGA TCAGATTTGT GACAAAGAGT GGCACTACTA TGTCATCAAT 
GTGGAGTTTC CTGTGGTAAC CTTATACATG GATGGAGCAA CATATGAACC ATACCTGGTG 
ACCAACGACT GGCCCATTCA TCCATCTCAC ATAGCCATGC AACTCACAGT CGGCGCTTGT 
TGGCAAGGAG GAGAAGTCAC CAAACCACAG TTTGCTCAGT TCTTTCATGG AAGCCTGGCC 
AGTCTCACCA TCCGCCCTGG CAAAATGGAA AGCCAGAAGG TGATCTCCTG CCTGCAGGCC 
TGCAAGGAAG GGCTGGACAT TAATTCCTTG GAAAGCCTTG GCCAAGGAAT AAAGTATCAC 
TTCAACCCCT CGCAGTCCAT CCTGGTGATG GAAGGTGACG ACATTGGGAA CATTAACCGT 
GCTCTCCAGA AAGTCTCCTA CATCAACTCC AGGCAGTTCC CAACGGCGGG TGTGCGGCGC 
CTCAAAGTAT CCTCCAAAGT CCAGTGCTTT GGGGAAGACG TATGCATCAG TATCCCTGAG 
GTAGATGCCT ATGTGATGGT CCTCCAGGCC ATCGAGCCCC GGATCACCCT CCGGGGCACA 
GACCACTTCT GGAGACCTGC TGCCCAGTTT GAAAGTGCCA GGGGAGTGAC CCTCTTCCCT 
GATATCAAGA TTGTGAGCAC CTTCGCCAAA ACCGAAGCCC CCGGGGACGT GAAAACCACA 
GACCCCAAAT CAGAAGTCTT AGAGGAAATG CTTCATAACT TAGATTTCTG TGACATTTTG 
GTGATCGGAG GGGACTTGGA CCCAAGGCAG GAGTGCTTGG AGCTCAACCA CAGTGAGCTC 
CACCAACGAC ACCTGGATGC CACTAATTCT ACTGCAGGCT ACTCCATCTA CGGTGTGGGC 
TCCATGAGCC GCTATGAGCA GGTGCTACAT CACATCCGCT ACCGCAACTG GCGTCCGGCT 
TCCCTTGAGG CCCGGCGTTT CCGGATTAAG TGCTCAGAAC TCAATGGGCG CTACACTAGC 
AATGAGTTCA ACTTGGAGGT CAGCATCCTT CATGAAGACC AAGTCTCAGA TAAGGAGCAT 
GTCAATCATC TGATTGTGCA GCCTCCCTTC CTCCAGTCTG TCCATCATCC TGAGTCCCGG 
AGTAGCATCC AGCACAGTTC AGTGGTCCCA AGCATTGCCA CAGTGGTCAT CATCATCTCC 
GTGTGCATGC TTGTGTTTGT CGTGGCCATG GGTGTGTACC GGGTCCGGAT CGCCCACCAG 
CACTTCATCC AGGAGACTGA GGCTGCCAAG GAATCTGAGA TGGACTGGGA CGATTCTGCG 
CTGACTATCA CAGTCAACCC CATGGAGAAA CATGAAGGAC CAGGGCATGG GGAAGATGAG 
ACTGAGGGAG AAGAGGAGGA AGAAGCCGAG GAAGAAATGA GCTCCAGCAG TGGCTCTGAC 
GACAGCGAAG AGGAGGAGGA GGAGGAAGGG ATGGGCAGAG GCAGACATGG GCAGAATGGA 
GCCAGGCAAG CCCAGCTGGA GTGGGATGAC TCCACCCTCC CCTACTAG

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

CLSTN2 ( NM_022131.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_071414.2 Homo sapiens calsyntenin 2 (CLSTN2), mRNA.

Price & Availability↑

CloneID	OHu24802
Clone ID Related Accession (Same CDS sequence)	NM_022131.3 , NM_022131.2
Accession Version	NM_022131.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2868bp) 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	calsyntenin-2 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK315308.1, AJ278018.1, BC103506.1 and BC004871.2. On Oct 10, 2008 this sequence version replaced NM_022131.1. 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 :: AK315308.1, SRR1660807.44270.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1970526 [ECO:0000348] ##Evidence-Data-END##

ATGCTGCCTG GGCGGCTGTG CTGGGTGCCG CTCCTGCTGG CGCTGGGCGT GGGGAGCGGC 
AGCGGCGGTG GCGGGGACAG CCGGCAGCGC CGCCTCCTCG CGGCTAAAGT CAATAAGCAC 
AAGCCATGGA TCGAGACTTC ATATCATGGA GTCATAACTG AGAACAATGA CACAGTCATT 
TTGGACCCAC CACTGGTAGC CCTGGATAAA GATGCACCGG TTCCTTTTGC AGGGGAAATC 
TGTGCGTTCA AGATCCATGG CCAGGAGCTG CCCTTTGAGG CTGTGGTGCT CAACAAGACA 
TCAGGAGAGG GCCGGCTCCG TGCCAAGAGC CCCATTGACT GTGAGTTGCA GAAGGAGTAC 
ACATTCATCA TCCAGGCCTA TGACTGTGGT GCTGGGCCCC ACGAGACAGC CTGGAAAAAG 
TCACACAAGG CCGTGGTCCA TATACAGGTG AAGGATGTCA ACGAGTTTGC TCCCACCTTC 
AAAGAGCCAG CCTACAAGGC TGTTGTGACG GAGGGCAAGA TCTATGACAG CATTCTGCAG 
GTGGAGGCCA TTGACGAGGA CTGCTCCCCA CAGTACAGCC AGATCTGCAA CTATGAAATC 
GTCACCACAG ATGTGCCTTT TGCCATCGAC AGAAATGGCA ACATCAGGAA CACTGAGAAG 
CTGAGCTATG ACAAACAACA CCAGTATGAG ATCCTGGTGA CCGCCTACGA CTGTGGACAG 
AAGCCCGCTG CTCAGGACAC CCTGGTGCAG GTGGATGTGA AGCCAGTTTG CAAGCCTGGC 
TGGCAAGACT GGACCAAGAG GATTGAGTAC CAGCCTGGCT CCGGGAGCAT GCCCCTGTTC 
CCCAGCATCC ACCTGGAGAC GTGCGATGGA GCCGTGTCTT CCCTCCAGAT CGTCACAGAG 
CTGCAGACTA ATTACATTGG GAAGGGTTGT GACCGGGAGA CCTACTCTGA GAAATCCCTT 
CAAAAGTTAT GTGGAGCCTC CTCTGGCATC ATTGACCTCT TGCCATCCCC TAGCGCTGCC 
ACCAACTGGA CTGCAGGACT GCTGGTGGAC AGCAGTGAGA TGATCTTCAA GTTTGACGGC 
AGGCAGGGTG CCAAAGTCCC CGATGGGATT GTGCCCAAGA ACCTGACCGA TCAGTTCACC 
ATCACCATGT GGATGAAACA CGGCCCCAGC CCTGGTGTGA GAGCCGAGAA GGAAACCATC 
CTCTGCAACT CAGACAAAAC CGAAATGAAC CGGCATCACT ATGCCCTGTA TGTGCACAAC 
TGCCGCCTCG TCTTTCTCTT GCGGAAGGAC TTCGACCAGG CTGACACCTT TCGCCCCGCG 
GAGTTCCACT GGAAGCTGGA TCAGATTTGT GACAAAGAGT GGCACTACTA TGTCATCAAT 
GTGGAGTTTC CTGTGGTAAC CTTATACATG GATGGAGCAA CATATGAACC ATACCTGGTG 
ACCAACGACT GGCCCATTCA TCCATCTCAC ATAGCCATGC AACTCACAGT CGGCGCTTGT 
TGGCAAGGAG GAGAAGTCAC CAAACCACAG TTTGCTCAGT TCTTTCATGG AAGCCTGGCC 
AGTCTCACCA TCCGCCCTGG CAAAATGGAA AGCCAGAAGG TGATCTCCTG CCTGCAGGCC 
TGCAAGGAAG GGCTGGACAT TAATTCCTTG GAAAGCCTTG GCCAAGGAAT AAAGTATCAC 
TTCAACCCCT CGCAGTCCAT CCTGGTGATG GAAGGTGACG ACATTGGGAA CATTAACCGT 
GCTCTCCAGA AAGTCTCCTA CATCAACTCC AGGCAGTTCC CAACGGCGGG TGTGCGGCGC 
CTCAAAGTAT CCTCCAAAGT CCAGTGCTTT GGGGAAGACG TATGCATCAG TATCCCTGAG 
GTAGATGCCT ATGTGATGGT CCTCCAGGCC ATCGAGCCCC GGATCACCCT CCGGGGCACA 
GACCACTTCT GGAGACCTGC TGCCCAGTTT GAAAGTGCCA GGGGAGTGAC CCTCTTCCCT 
GATATCAAGA TTGTGAGCAC CTTCGCCAAA ACCGAAGCCC CCGGGGACGT GAAAACCACA 
GACCCCAAAT CAGAAGTCTT AGAGGAAATG CTTCATAACT TAGATTTCTG TGACATTTTG 
GTGATCGGAG GGGACTTGGA CCCAAGGCAG GAGTGCTTGG AGCTCAACCA CAGTGAGCTC 
CACCAACGAC ACCTGGATGC CACTAATTCT ACTGCAGGCT ACTCCATCTA CGGTGTGGGC 
TCCATGAGCC GCTATGAGCA GGTGCTACAT CACATCCGCT ACCGCAACTG GCGTCCGGCT 
TCCCTTGAGG CCCGGCGTTT CCGGATTAAG TGCTCAGAAC TCAATGGGCG CTACACTAGC 
AATGAGTTCA ACTTGGAGGT CAGCATCCTT CATGAAGACC AAGTCTCAGA TAAGGAGCAT 
GTCAATCATC TGATTGTGCA GCCTCCCTTC CTCCAGTCTG TCCATCATCC TGAGTCCCGG 
AGTAGCATCC AGCACAGTTC AGTGGTCCCA AGCATTGCCA CAGTGGTCAT CATCATCTCC 
GTGTGCATGC TTGTGTTTGT CGTGGCCATG GGTGTGTACC GGGTCCGGAT CGCCCACCAG 
CACTTCATCC AGGAGACTGA GGCTGCCAAG GAATCTGAGA TGGACTGGGA CGATTCTGCG 
CTGACTATCA CAGTCAACCC CATGGAGAAA CATGAAGGAC CAGGGCATGG GGAAGATGAG 
ACTGAGGGAG AAGAGGAGGA AGAAGCCGAG GAAGAAATGA GCTCCAGCAG TGGCTCTGAC 
GACAGCGAAG AGGAGGAGGA GGAGGAAGGG ATGGGCAGAG GCAGACATGG GCAGAATGGA 
GCCAGGCAAG CCCAGCTGGA GTGGGATGAC TCCACCCTCC CCTACTAG

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

RefSeq	NP_071414.2
CDS	191..3058
Translation	MLPGRLCWVPLLLALGVGSGSGGGGDSRQRRLLAAKVNKHKPWIETSYHGVITENNDTVILDPPLVALDKDAPVPFAGEICAFKIHGQELPFEAVVLNKTSGEGRLRAKSPIDCELQKEYTFIIQAYDCGAGPHETAWKKSHKAVVHIQVKDVNEFAPTFKEPAYKAVVTEGKIYDSILQVEAIDEDCSPQYSQICNYEIVTTDVPFAIDRNGNIRNTEKLSYDKQHQYEILVTAYDCGQKPAAQDTLVQVDVKPVCKPGWQDWTKRIEYQPGSGSMPLFPSIHLETCDGAVSSLQIVTELQTNYIGKGCDRETYSEKSLQKLCGASSGIIDLLPSPSAATNWTAGLLVDSSEMIFKFDGRQGAKVPDGIVPKNLTDQFTITMWMKHGPSPGVRAEKETILCNSDKTEMNRHHYALYVHNCRLVFLLRKDFDQADTFRPAEFHWKLDQICDKEWHYYVINVEFPVVTLYMDGATYEPYLVTNDWPIHPSHIAMQLTVGACWQGGEVTKPQFAQFFHGSLASLTIRPGKMESQKVISCLQACKEGLDINSLESLGQGIKYHFNPSQSILVMEGDDIGNINRALQKVSYINSRQFPTAGVRRLKVSSKVQCFGEDVCISIPEVDAYVMVLQAIEPRITLRGTDHFWRPAAQFESARGVTLFPDIKIVSTFAKTEAPGDVKTTDPKSEVLEEMLHNLDFCDILVIGGDLDPRQECLELNHSELHQRHLDATNSTAGYSIYGVGSMSRYEQVLHHIRYRNWRPASLEARRFRIKCSELNGRYTSNEFNLEVSILHEDQVSDKEHVNHLIVQPPFLQSVHHPESRSSIQHSSVVPSIATVVIIISVCMLVFVVAMGVYRVRIAHQHFIQETEAAKESEMDWDDSALTITVNPMEKHEGPGHGEDETEGEEEEEAEEEMSSSSGSDDSEEEEEEEGMGRGRHGQNGARQAQLEWDDSTLPY

Target ORF information:

RefSeq Version	NM_022131.2
Organism	Homo sapiens(human)
Definition	Homo sapiens calsyntenin 2 (CLSTN2), mRNA.

Target ORF information:

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

NM_022131.2

ORF Insert Sequence:

ATGCTGCCTG GGCGGCTGTG CTGGGTGCCG CTCCTGCTGG CGCTGGGCGT GGGGAGCGGC 
AGCGGCGGTG GCGGGGACAG CCGGCAGCGC CGCCTCCTCG CGGCTAAAGT CAATAAGCAC 
AAGCCATGGA TCGAGACTTC ATATCATGGA GTCATAACTG AGAACAATGA CACAGTCATT 
TTGGACCCAC CACTGGTAGC CCTGGATAAA GATGCACCGG TTCCTTTTGC AGGGGAAATC 
TGTGCGTTCA AGATCCATGG CCAGGAGCTG CCCTTTGAGG CTGTGGTGCT CAACAAGACA 
TCAGGAGAGG GCCGGCTCCG TGCCAAGAGC CCCATTGACT GTGAGTTGCA GAAGGAGTAC 
ACATTCATCA TCCAGGCCTA TGACTGTGGT GCTGGGCCCC ACGAGACAGC CTGGAAAAAG 
TCACACAAGG CCGTGGTCCA TATACAGGTG AAGGATGTCA ACGAGTTTGC TCCCACCTTC 
AAAGAGCCAG CCTACAAGGC TGTTGTGACG GAGGGCAAGA TCTATGACAG CATTCTGCAG 
GTGGAGGCCA TTGACGAGGA CTGCTCCCCA CAGTACAGCC AGATCTGCAA CTATGAAATC 
GTCACCACAG ATGTGCCTTT TGCCATCGAC AGAAATGGCA ACATCAGGAA CACTGAGAAG 
CTGAGCTATG ACAAACAACA CCAGTATGAG ATCCTGGTGA CCGCCTACGA CTGTGGACAG 
AAGCCCGCTG CTCAGGACAC CCTGGTGCAG GTGGATGTGA AGCCAGTTTG CAAGCCTGGC 
TGGCAAGACT GGACCAAGAG GATTGAGTAC CAGCCTGGCT CCGGGAGCAT GCCCCTGTTC 
CCCAGCATCC ACCTGGAGAC GTGCGATGGA GCCGTGTCTT CCCTCCAGAT CGTCACAGAG 
CTGCAGACTA ATTACATTGG GAAGGGTTGT GACCGGGAGA CCTACTCTGA GAAATCCCTT 
CAAAAGTTAT GTGGAGCCTC CTCTGGCATC ATTGACCTCT TGCCATCCCC TAGCGCTGCC 
ACCAACTGGA CTGCAGGACT GCTGGTGGAC AGCAGTGAGA TGATCTTCAA GTTTGACGGC 
AGGCAGGGTG CCAAAGTCCC CGATGGGATT GTGCCCAAGA ACCTGACCGA TCAGTTCACC 
ATCACCATGT GGATGAAACA CGGCCCCAGC CCTGGTGTGA GAGCCGAGAA GGAAACCATC 
CTCTGCAACT CAGACAAAAC CGAAATGAAC CGGCATCACT ATGCCCTGTA TGTGCACAAC 
TGCCGCCTCG TCTTTCTCTT GCGGAAGGAC TTCGACCAGG CTGACACCTT TCGCCCCGCG 
GAGTTCCACT GGAAGCTGGA TCAGATTTGT GACAAAGAGT GGCACTACTA TGTCATCAAT 
GTGGAGTTTC CTGTGGTAAC CTTATACATG GATGGAGCAA CATATGAACC ATACCTGGTG 
ACCAACGACT GGCCCATTCA TCCATCTCAC ATAGCCATGC AACTCACAGT CGGCGCTTGT 
TGGCAAGGAG GAGAAGTCAC CAAACCACAG TTTGCTCAGT TCTTTCATGG AAGCCTGGCC 
AGTCTCACCA TCCGCCCTGG CAAAATGGAA AGCCAGAAGG TGATCTCCTG CCTGCAGGCC 
TGCAAGGAAG GGCTGGACAT TAATTCCTTG GAAAGCCTTG GCCAAGGAAT AAAGTATCAC 
TTCAACCCCT CGCAGTCCAT CCTGGTGATG GAAGGTGACG ACATTGGGAA CATTAACCGT 
GCTCTCCAGA AAGTCTCCTA CATCAACTCC AGGCAGTTCC CAACGGCGGG TGTGCGGCGC 
CTCAAAGTAT CCTCCAAAGT CCAGTGCTTT GGGGAAGACG TATGCATCAG TATCCCTGAG 
GTAGATGCCT ATGTGATGGT CCTCCAGGCC ATCGAGCCCC GGATCACCCT CCGGGGCACA 
GACCACTTCT GGAGACCTGC TGCCCAGTTT GAAAGTGCCA GGGGAGTGAC CCTCTTCCCT 
GATATCAAGA TTGTGAGCAC CTTCGCCAAA ACCGAAGCCC CCGGGGACGT GAAAACCACA 
GACCCCAAAT CAGAAGTCTT AGAGGAAATG CTTCATAACT TAGATTTCTG TGACATTTTG 
GTGATCGGAG GGGACTTGGA CCCAAGGCAG GAGTGCTTGG AGCTCAACCA CAGTGAGCTC 
CACCAACGAC ACCTGGATGC CACTAATTCT ACTGCAGGCT ACTCCATCTA CGGTGTGGGC 
TCCATGAGCC GCTATGAGCA GGTGCTACAT CACATCCGCT ACCGCAACTG GCGTCCGGCT 
TCCCTTGAGG CCCGGCGTTT CCGGATTAAG TGCTCAGAAC TCAATGGGCG CTACACTAGC 
AATGAGTTCA ACTTGGAGGT CAGCATCCTT CATGAAGACC AAGTCTCAGA TAAGGAGCAT 
GTCAATCATC TGATTGTGCA GCCTCCCTTC CTCCAGTCTG TCCATCATCC TGAGTCCCGG 
AGTAGCATCC AGCACAGTTC AGTGGTCCCA AGCATTGCCA CAGTGGTCAT CATCATCTCC 
GTGTGCATGC TTGTGTTTGT CGTGGCCATG GGTGTGTACC GGGTCCGGAT CGCCCACCAG 
CACTTCATCC AGGAGACTGA GGCTGCCAAG GAATCTGAGA TGGACTGGGA CGATTCTGCG 
CTGACTATCA CAGTCAACCC CATGGAGAAA CATGAAGGAC CAGGGCATGG GGAAGATGAG 
ACTGAGGGAG AAGAGGAGGA AGAAGCCGAG GAAGAAATGA GCTCCAGCAG TGGCTCTGAC 
GACAGCGAAG AGGAGGAGGA GGAGGAAGGG ATGGGCAGAG GCAGACATGG GCAGAATGGA 
GCCAGGCAAG CCCAGCTGGA GTGGGATGAC TCCACCCTCC CCTACTAG

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

PubMed

Investigating the influence of KIBRA and CLSTN2 genetic polymorphisms on cross-sectional and longitudinal measures of memory performance and hippocampal volume in older individuals.
Neuropsychologia7810-7(2015 Nov)
Boraxbekk CJ,Ames D,Kochan NA,Lee T,Thalamuthu A,Wen W,Armstrong NJ,Kwok JB,Schofield PR,Reppermund S,Wright MJ,Trollor JN,Brodaty H,Sachdev P,Mather KA

Genome-wide association study for refractive astigmatism reveals genetic co-determination with spherical equivalent refractive error: the CREAM consortium.
Human genetics134(2)131-46(2015 Feb)
Li Q,Wojciechowski R,Simpson CL,Hysi PG,Verhoeven VJ,Ikram MK,H?hn R,Vitart V,Hewitt AW,Oexle K,M?kel? KM,MacGregor S,Pirastu M,Fan Q,Cheng CY,St Pourcain B,McMahon G,Kemp JP,Northstone K,Rahi JS,Cumberland PM,Martin NG,Sanfilippo PG,Lu Y,Wang YX,Hayward C,Pola?ek O,Campbell H,Bencic G,Wright AF,Wedenoja J,Zeller T,Schillert A,Mirshahi A,Lackner K,Yip SP,Yap MK,Ried JS,Gieger C,Murgia F,Wilson JF,Fleck B,Yazar S,Vingerling JR,Hofman A,Uitterlinden A,Rivadeneira F,Amin N,Karssen L,Oostra BA,Zhou X,Teo YY,Tai ES,Vithana E,Barathi V,Zheng Y,Siantar RG,Neelam K,Shin Y,Lam J,Yonova-Doing E,Venturini C,Hosseini SM,Wong HS,Lehtim?ki T,K?h?nen M,Raitakari O,Timpson NJ,Evans DM,Khor CC,Aung T,Young TL,Mitchell P,Klein B,van Duijn CM,Meitinger T,Jonas JB,Baird PN,Mackey DA,Wong TY,Saw SM,P?rssinen O,Stambolian D,Hammond CJ,Klaver CC,Williams C,Paterson AD,Bailey-Wilson JE,Guggenheim JA,

Interactive effects of KIBRA and CLSTN2 polymorphisms on episodic memory in old-age unipolar depression.
Neuropsychologia62137-42(2014 Sep)
Pantzar A,Laukka EJ,Atti AR,Papenberg G,Keller L,Graff C,Fratiglioni L,B?ckman L

A meta-analysis of Hodgkin lymphoma reveals 19p13.3 TCF3 as a novel susceptibility locus.
Nature communications53856(2014 Jun)
Cozen W,Timofeeva MN,Li D,Diepstra A,Hazelett D,Delahaye-Sourdeix M,Edlund CK,Franke L,Rostgaard K,Van Den Berg DJ,Cortessis VK,Smedby KE,Glaser SL,Westra HJ,Robison LL,Mack TM,Ghesquieres H,Hwang AE,Nieters A,de Sanjose S,Lightfoot T,Becker N,Maynadie M,Foretova L,Roman E,Benavente Y,Rand KA,Nathwani BN,Glimelius B,Staines A,Boffetta P,Link BK,Kiemeney L,Ansell SM,Bhatia S,Strong LC,Galan P,Vatten L,Habermann TM,Duell EJ,Lake A,Veenstra RN,Visser L,Liu Y,Urayama KY,Montgomery D,Gaborieau V,Weiss LM,Byrnes G,Lathrop M,Cocco P,Best T,Skol AD,Adami HO,Melbye M,Cerhan JR,Gallagher A,Taylor GM,Slager SL,Brennan P,Coetzee GA,Conti DV,Onel K,Jarrett RF,Hjalgrim H,van den Berg A,McKay JD

Genome-wide contribution of genotype by environment interaction to variation of diabetes-related traits.
PloS one8(10)e77442(2013)
Zheng JS,Arnett DK,Lee YC,Shen J,Parnell LD,Smith CE,Richardson K,Li D,Borecki IB,Ordov?s JM,Lai CQ

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CLSTN2 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:

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