Nrxn1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Nrxn1
Entrez Gene ID	60391
Full Name	neurexin 1
Synonyms	Nrxn1b
General protein information	Preferred Names neurexin 1 Names neurexin-1 neurexin I-alpha neurexin I-beta neurexin-1-alpha neurexin-1-beta non-processed neurexin I-alpha
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 6 Map Location: 6q12
Summary	This gene encodes a single-pass type I membrane protein that belongs to the neurexin family. Neurexins are synaptic transmembrane receptors that bind endogenous ligands that include neuroligins, dystroglycan, and neurexophilins. Neurexin complexes are required for efficient neurotransmission and are involved in synaptogenesis. In vertebrates, alternate promoter usage results in multiple isoform classes, of which the alpha and beta classes are the best characterized. In humans, allelic variants in this gene are associated with Pitt-Hopkins-like syndrome-2, while deletions have been associated with autism and schizophrenia. Mouse knockouts display decreased spontaneous and evoked vesicle release resulting in impaired synaptic transmission. In addition, knockout mice show altered social approach, reduced social investigation, reduced locomotor activity, and in males, increased aggression. [provided by RefSeq, Nov 2016].

mRNA and Protein(s)

mRNA	Protein	Name
NM_021767.2	NP_068535.2	neurexin-1 precursor

Pathways from BioSystems

Homologies

Homo sapiens (human)	NRXN1	NP_001129131.1
Caenorhabditis elegans (roundworm)	nrx-1	NP_001122868.2
Xenopus tropicalis (tropical clawed frog)	nrxn1	XP_002935428.2
Pan troglodytes (chimpanzee)	NRXN1	XP_003309056.1
Rattus norvegicus (Norway rat)	Nrxn1	NP_068535.2
	NRXN1	XP_002799265.1
Mus musculus (house mouse)	Nrxn1	NP_064648.3
Canis lupus familiaris (dog)	NRXN1	XP_005626154.1
Bos taurus (cattle)	NRXN1	NP_776829.1
Gallus gallus (chicken)	NRXN1	NP_001185904.1
Danio rerio (zebrafish)	nrxn1a	NP_001073490.1

Gene Ontology
Bibliography

Related articles in PubMed

Conformational Plasticity in the Transsynaptic Neurexin-Cerebellin-Glutamate Receptor Adhesion Complex.
Cheng S, Seven AB, Wang J, Skiniotis G, ?zkan E
Structure (London, England : 1993)24(12)2163-2173(2016 12)

Developmental Hypothyroxinemia and Hypothyroidism Reduce Parallel Fiber-Purkinje Cell Synapses in Rat Offspring by Downregulation of Neurexin1/Cbln1/GluD2 Tripartite Complex.
Wang Y, Dong J, Wang Y, Wei W, Song B, Shan Z, Teng W, Chen J
Biological trace element research173(2)465-74(2016 Oct)

Nanoscale organization of synaptic adhesion proteins revealed by single-molecule localization microscopy.
Chamma I, Levet F, Sibarita JB, Sainlos M, Thoumine O
Neurophotonics3(4)041810(2016 Oct)

Astrocytes Assemble Thalamocortical Synapses by Bridging NRX1? and NL1 via Hevin.
Singh SK, Stogsdill JA, Pulimood NS, Dingsdale H, Kim YH, Pilaz LJ, Kim IH, Manhaes AC, Rodrigues WS Jr, Pamukcu A, Enustun E, Ertuz Z, Scheiffele P, Soderling SH, Silver DL, Ji RR, Medina AE, Eroglu C
Cell164(1-2)183-196(2016 Jan)

Structural and functional analyses of the sixth site of neurexin alternative splicing.
Serova OV, Radionov NV, Shayahmetova DM, Deyev IE, Petrenko AG
Doklady. Biochemistry and biophysics463239-42(2015)

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

Results determined the crystal structures of the trimeric C1q-like domain of cerebellin-1, and the first complete ectodomain of GluD2. Cerebellin binds to the LNS6 domain of alpha- and beta-neurexin-1 through a high-affinity interaction that involves its highly flexible N-terminal domain.
Title: Conformational Plasticity in the Transsynaptic Neurexin-Cerebellin-Glutamate Receptor Adhesion Complex.

study supports the hypothesis that developmental hypothyroxinemia and hypothyroidism reduce PF-PC synapses, which may be attributed to the downregulation of Neurexin1/Cbln1/GluD2 tripartite complex.
Title: Developmental Hypothyroxinemia and Hypothyroidism Reduce Parallel Fiber-Purkinje Cell Synapses in Rat Offspring by Downregulation of Neurexin1/Cbln1/GluD2 Tripartite Complex.

Structural and functional analyses of the sixth site of neurexin alternative splicing
Title: Structural and functional analyses of the sixth site of neurexin alternative splicing.

structure of Calsyntenin 3 and its interaction with neurexin 1alpha
Title: Calsyntenin-3 molecular architecture and interaction with neurexin 1?.

Dystroglycan binding to alpha-neurexin competes with neurexophilin-1 and neuroligin in the brain.
Title: Dystroglycan binding to ?-neurexin competes with neurexophilin-1 and neuroligin in the brain.

The following Nrxn1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Nrxn1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
ORa05217	NM_021767.2 Latest version!	Rattus norvegicus neurexin 1 (Nrxn1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	22	$811.30 $1159.00

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

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

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

Reference Sequences (Refseq)

Nrxn1 ( NM_021767.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_068535.2 Rattus norvegicus neurexin 1 (Nrxn1), mRNA.

Price & Availability↑

CloneID	ORa05217
Clone ID Related Accession (Same CDS sequence)	NM_021767.2
Accession Version	NM_021767.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4524bp) 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	2019-09-20
Organism	Rattus norvegicus(Norway rat)
Product	neurexin-1 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from M96374.1. On Oct 10, 2003 this sequence version replaced NM_021767.1. 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 :: M96374.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END##

ATGGGGACGG CGCTGGTCCA GCATGGGGGC TGCTGTCTCC TCTGCCTGTC GCTGCTGCTG 
TTGGGCTGCT GGGCAGAGCT GGGCAGTGGG CTGGAGTTCC CAGGCGCTGA GGGCCAGTGG 
ACGCGCTTCC CCAAGTGGAA CGCGTGCTGC GAGAGTGAGA TGAGCTTCCA GCTGAAGACA 
CGCAGCGCCC GCGGCCTCGT GCTCTACTTC GACGACGAGG GCTTCTGCGA CTTCCTCGAG 
CTCATCCTGA CACGCGGCGG CCGCTTGCAG CTCAGCTTCT CCATCTTCTG CGCCGAGCCC 
GCCACGCTGT TGGCCGACAC GCCAGTCAAC GACGGCGCCT GGCACAGCGT GCGCATCCGC 
CGCCAGTTCC GCAACACCAC TCTCTACATC GACCGCGCTG AGGCCAAGTG GGTGGAGGTC 
AAGTCCAAGC GCAGGGACAT GACGGTGTTC AGTGGGCTGT TCGTGGGCGG CCTGCCGCCT 
GAACTGCGAG CCGCTGCGCT CAAGCTCACC CTGGCCTCGG TGCGTGAGCG GGAGCCCTTC 
AAGGGCTGGA TCCGTGATGT CAGGGTCAAC TCGTCCCAGG CGCTGCCGGT GGACGGCAGC 
GAGGTCAAGC TGGACGAAGA GCCGCCCAAT AGCGGGGGCG GGAGCCCGTG CGAGGCGGGC 
GATGAGGGCG ACGGCGGCGT GTGCCTCAAC GGGGGCGTGT GCTCCGTGGT CGACGACCAG 
GCCGTGTGTG ACTGCTCGAG GACCGGTTTC CGTGGCAAAG ACTGCAGCCA AGAAGACAAC 
AATGTAGAAG GTCTGGCGCA CCTGATGATG GGCGACCAAG GTAAAAGTAA AGGAAAAGAA 
GAGTATATTG CCACATTCAA GGGATCTGAG TACTTCTGCT ACGACTTATC CCAAAACCCC 
ATTCAAAGCA GCAGCGACGA AATAACTCTG TCCTTTAAAA CTCTTCAGAG GAATGGACTG 
ATGCTTCACA CAGGGAAATC GGCTGATTAT GTCAACCTTG CCTTGAAAAA TGGAGCTGTC 
TCTCTGGTCA TTAATTTGGG ATCAGGGGCC TTTGAAGCGC TAGTAGAGCC CGTGAATGGA 
AAGTTTAATG ATAATGCCTG GCATGATGTG AAAGTCACCA GGAATCTGCG TCAGCACTCA 
GGCATTGGAC ACGCTATGGT GACAATATCA GTGGATGGGA TTCTTACCAC AACGGGCTAC 
ACGCAAGAAG ATTACACCAT GCTGGGGTCT GATGACTTTT TCTATGTTGG AGGCAGCCCC 
AGCACAGCCG ACCTTCCAGG GTCACCAGTC AGTAACAACT TTATGGGCTG TCTCAAAGAG 
GTCGTATATA AAAATAATGA TGTAAGACTG GAGTTATCGC GACTTGCCAA GCAAGGAGAT 
CCTAAGATGA AGATCCATGG TGTGGTGGCT TTTAAGTGTG AAAATGTGGC AACCTTAGAC 
CCAATCACTT TTGAGACCCC AGAATCTTTC ATTTCTTTGC CTAAGTGGAA TGCAAAGAAA 
ACAGGCTCAA TATCATTTGA TTTCCGTACA ACGGAGCCAA ATGGCCTCAT CTTGTTTAGC 
CATGGCAAGC CAAGACATCA GAAGGATGCC AAGCACCCGC AGATGATTAA GGTTGACTTT 
TTTGCTATTG AAATGCTGGA TGGCCACTTG TACCTCCTCT TAGACATGGG ATCAGGTACT 
ATAAAAATCA AAGCCCTTCA GAAGAAAGTC AATGATGGAG AATGGTATCA CGTGGATTTC 
CAGCGAGATG GACGGTCAGG TACCATTTCT GTCAACACAC TTCGTACTCC CTACACAGCT 
CCCGGTGAGA GTGAGATCCT AGACCTCGAT GATGAGTTGT ATCTGGGTGG CTTGCCAGAA 
AATAAGGCTG GCCTGGTCTT CCCCACTGAG GTGTGGACTG CTCTGCTCAA CTATGGCTAC 
GTAGGCTGCA TCCGGGATCT ATTCATTGAT GGCCAGAGCA AAGATATCCG GCAGATGGCG 
GAAATTCAGA GTACTGCTGG AGTGAAGCCA TCCTGCTCAA GGGAGACTGC AAAACCATGC 
CTTAGCAATC CTTGCAAAAA CAATGGCATG TGCAGGGATG GCTGGAACAG ATACGTCTGT 
GATTGCTCTG GAACAGGCTA TCTCGGCAGG TCCTGTGAGA GAGAGGCAAC GGTTTTGAGC 
TACGATGGGA GTATGTTTAT GAAAATTCAG CTCCCTGTGG TGATGCACAC TGAGGCCGAG 
GACGTTTCCT TACGGTTCAG ATCCCAGCGT GCGTACGGCA TTCTGATGGC GACCACTTCT 
AGAGACTCCG CAGATACCCT TCGACTGGAG CTAGATGCAG GGCGCGTGAA ACTCACGGTC 
AATCTAGATT GTATCAGGAT TAACTGTAAT TCCAGCAAAG GTCCTGAGAC CCTTTTTGCC 
GGCTATAACC TCAATGATAA TGAATGGCAC ACAGTACGTG TGGTTCGGCG AGGAAAAAGT 
TTAAAGCTAA CCGTGGATGA TCAACAAGCC ATGACAGGCC AAATGGCAGG TGATCATACA 
AGGCTGGAGT TTCATAACAT AGAGACAGGC ATCATCACAG AACGACGCTA TCTTTCTTCT 
GTCCCCTCCA ACTTCATTGG GCACCTGCAA AGCCTCACAT TTAATGGAAT GGCATACATT 
GACTTGTGCA AAAATGGTGA TATAGATTAT TGTGAACTCA ATGCCAGGTT TGGATTCAGG 
AACATCATCG CGGATCCTGT CACCTTCAAG ACCAAATCAA GCTATGTTGC CTTAGCTACA 
TTGCAAGCCT ACACTTCTAT GCATCTATTT TTCCAATTCA AGACAACATC CCTAGATGGA 
CTAATTCTGT ATAACAGTGG GGATGGAAAT GACTTTATTG TGGTTGAATT AGTTAAAGGG 
TACTTACATT ATGTGTTTGA CTTGGGAAAT GGTGCTAACC TCATCAAAGG GAGCTCAAAC 
AAACCACTCA ACGACAATCA GTGGCACAAT GTGATGATTT CAAGGGACAC CAGCAATCTC 
CACACAGTAA AGATCGACAC AAAAATCACA ACACAAATCA CTGCGGGAGC CAGAAACTTA 
GACCTCAAGA GTGACTTGTA TATTGGAGGA GTGGCTAAAG AAACATACAA ATCGTTGCCG 
AAACTGGTCC ATGCTAAAGA AGGCTTTCAA GGTTGCCTGG CATCTGTGGA CTTGAATGGC 
AGGCTTCCAG ACCTCATATC TGATGCTCTT TTCTGCAATG GGCAAATTGA GAGAGGATGC 
GAAGGGCCCA GCACAACCTG TCAAGAGGAC TCATGTTCAA ATCAAGGCGT GTGCTTGCAG 
CAATGGGATG GCTTTAGCTG TGACTGTAGC ATGACTTCCT TCAGTGGCCC GCTCTGCAAT 
GACCCTGGGA CGACGTATAT CTTTAGCAAA GGTGGTGGAC AAATTACACA TAAGTGGCCT 
CCTAATGACC GACCCAGTAC ACGAGCAGAC AGGCTGGCCA TCGGGTTTAG CACTGTTCAG 
AAGGAAGCAG TGTTGGTGCG TGTGGACAGT TCCTCAGGCC TGGGTGACTA CCTTGAGCTG 
CACATACACC AAGGAAAAAT TGGAGTTAAA TTTAATGTTG GGACAGATGA CATCGCCATT 
GAGGAGTCCA ATGCAATCAT TAATGATGGA AAATACCATG TAGTGCGTTT CACGAGGAGT 
GGTGGCAATG CCACGTTACA GGTGGACAGC TGGCCAGTCA TCGAACGATA CCCTGCAGGA 
AACAATGATA ACGAGCGCCT GGCGATTGCT AGACAGCGAA TTCCATATCG ACTTGGTCGA 
GTAGTTGATG AATGGCTACT CGACAAAGGG CGTCAGCTCA CAATCTTCAA TAGCCAAGCA 
ACCATAATAA TTGGCGGGAA AGAGCAGGGC CAGCCCTTCC AGGGCCAGCT CTCTGGGCTT 
TACTACAATG GCTTGAAAGT TCTGAATATG GCGGCAGAAA ACGATGCCAA CATCGCCATA 
GTGGGAAATG TGAGGCTGGT CGGTGAAGTG CCTTCCTCTA TGACAACTGA GTCGACAGCC 
ACTGCCATGC AGTCCGAGAT GTCCACCTCA ATCATGGAGA CCACCACAAC CCTGGCTACC 
AGCACAGCTC GACGAGGAAA GCCCCCCACA AAGGAGCCTA TCAGCCAGAC CACGGATGAT 
ATCCTTGTGG CCTCGGCAGA GTGTCCCAGC GACGATGAGG ACATTGACCC CTGTGAGCCG 
AGCTCAGGTG GGTTAGCCAA CCCCACCCGA GTGGGCGGCC GCGAACCATA CCCAGGCTCG 
GCAGAGGTGA TCCGGGAGTC TAGCAGTACC ACTGGCATGG TGGTGGGGAT TGTCGCAGCA 
GCAGCTCTGT GCATCCTCAT CCTCCTCTAT GCCATGTACA AGTACAGAAA CCGGGATGAA 
GGCTCATATC ACGTGGATGA GAGTCGAAAC TACATCAGTA ACTCAGCACA GTCCAATGGG 
GCTGTGGTCA AGGAGAAGCA GCCCAGCAGT GCGAAAAGCG CCAACAAAAA CAAGAAGAAC 
AAGGATAAGG AGTATTATGT CTGA

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

RefSeq	NP_068535.2
CDS	859..5382
Translation	MGTALVQHGGCCLLCLSLLLLGCWAELGSGLEFPGAEGQWTRFPKWNACCESEMSFQLKTRSARGLVLYFDDEGFCDFLELILTRGGRLQLSFSIFCAEPATLLADTPVNDGAWHSVRIRRQFRNTTLYIDRAEAKWVEVKSKRRDMTVFSGLFVGGLPPELRAAALKLTLASVREREPFKGWIRDVRVNSSQALPVDGSEVKLDEEPPNSGGGSPCEAGDEGDGGVCLNGGVCSVVDDQAVCDCSRTGFRGKDCSQEDNNVEGLAHLMMGDQGKSKGKEEYIATFKGSEYFCYDLSQNPIQSSSDEITLSFKTLQRNGLMLHTGKSADYVNLALKNGAVSLVINLGSGAFEALVEPVNGKFNDNAWHDVKVTRNLRQHSGIGHAMVTISVDGILTTTGYTQEDYTMLGSDDFFYVGGSPSTADLPGSPVSNNFMGCLKEVVYKNNDVRLELSRLAKQGDPKMKIHGVVAFKCENVATLDPITFETPESFISLPKWNAKKTGSISFDFRTTEPNGLILFSHGKPRHQKDAKHPQMIKVDFFAIEMLDGHLYLLLDMGSGTIKIKALQKKVNDGEWYHVDFQRDGRSGTISVNTLRTPYTAPGESEILDLDDELYLGGLPENKAGLVFPTEVWTALLNYGYVGCIRDLFIDGQSKDIRQMAEIQSTAGVKPSCSRETAKPCLSNPCKNNGMCRDGWNRYVCDCSGTGYLGRSCEREATVLSYDGSMFMKIQLPVVMHTEAEDVSLRFRSQRAYGILMATTSRDSADTLRLELDAGRVKLTVNLDCIRINCNSSKGPETLFAGYNLNDNEWHTVRVVRRGKSLKLTVDDQQAMTGQMAGDHTRLEFHNIETGIITERRYLSSVPSNFIGHLQSLTFNGMAYIDLCKNGDIDYCELNARFGFRNIIADPVTFKTKSSYVALATLQAYTSMHLFFQFKTTSLDGLILYNSGDGNDFIVVELVKGYLHYVFDLGNGANLIKGSSNKPLNDNQWHNVMISRDTSNLHTVKIDTKITTQITAGARNLDLKSDLYIGGVAKETYKSLPKLVHAKEGFQGCLASVDLNGRLPDLISDALFCNGQIERGCEGPSTTCQEDSCSNQGVCLQQWDGFSCDCSMTSFSGPLCNDPGTTYIFSKGGGQITHKWPPNDRPSTRADRLAIGFSTVQKEAVLVRVDSSSGLGDYLELHIHQGKIGVKFNVGTDDIAIEESNAIINDGKYHVVRFTRSGGNATLQVDSWPVIERYPAGNNDNERLAIARQRIPYRLGRVVDEWLLDKGRQLTIFNSQATIIIGGKEQGQPFQGQLSGLYYNGLKVLNMAAENDANIAIVGNVRLVGEVPSSMTTESTATAMQSEMSTSIMETTTTLATSTARRGKPPTKEPISQTTDDILVASAECPSDDEDIDPCEPSSGGLANPTRVGGREPYPGSAEVIRESSSTTGMVVGIVAAAALCILILLYAMYKYRNRDEGSYHVDESRNYISNSAQSNGAVVKEKQPSSAKSANKNKKNKDKEYYV

Target ORF information:

RefSeq Version	NM_021767.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus neurexin 1 (Nrxn1), mRNA.

Target ORF information:

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

NM_021767.2

ORF Insert Sequence:

ATGGGGACGG CGCTGGTCCA GCATGGGGGC TGCTGTCTCC TCTGCCTGTC GCTGCTGCTG 
TTGGGCTGCT GGGCAGAGCT GGGCAGTGGG CTGGAGTTCC CAGGCGCTGA GGGCCAGTGG 
ACGCGCTTCC CCAAGTGGAA CGCGTGCTGC GAGAGTGAGA TGAGCTTCCA GCTGAAGACA 
CGCAGCGCCC GCGGCCTCGT GCTCTACTTC GACGACGAGG GCTTCTGCGA CTTCCTCGAG 
CTCATCCTGA CACGCGGCGG CCGCTTGCAG CTCAGCTTCT CCATCTTCTG CGCCGAGCCC 
GCCACGCTGT TGGCCGACAC GCCAGTCAAC GACGGCGCCT GGCACAGCGT GCGCATCCGC 
CGCCAGTTCC GCAACACCAC TCTCTACATC GACCGCGCTG AGGCCAAGTG GGTGGAGGTC 
AAGTCCAAGC GCAGGGACAT GACGGTGTTC AGTGGGCTGT TCGTGGGCGG CCTGCCGCCT 
GAACTGCGAG CCGCTGCGCT CAAGCTCACC CTGGCCTCGG TGCGTGAGCG GGAGCCCTTC 
AAGGGCTGGA TCCGTGATGT CAGGGTCAAC TCGTCCCAGG CGCTGCCGGT GGACGGCAGC 
GAGGTCAAGC TGGACGAAGA GCCGCCCAAT AGCGGGGGCG GGAGCCCGTG CGAGGCGGGC 
GATGAGGGCG ACGGCGGCGT GTGCCTCAAC GGGGGCGTGT GCTCCGTGGT CGACGACCAG 
GCCGTGTGTG ACTGCTCGAG GACCGGTTTC CGTGGCAAAG ACTGCAGCCA AGAAGACAAC 
AATGTAGAAG GTCTGGCGCA CCTGATGATG GGCGACCAAG GTAAAAGTAA AGGAAAAGAA 
GAGTATATTG CCACATTCAA GGGATCTGAG TACTTCTGCT ACGACTTATC CCAAAACCCC 
ATTCAAAGCA GCAGCGACGA AATAACTCTG TCCTTTAAAA CTCTTCAGAG GAATGGACTG 
ATGCTTCACA CAGGGAAATC GGCTGATTAT GTCAACCTTG CCTTGAAAAA TGGAGCTGTC 
TCTCTGGTCA TTAATTTGGG ATCAGGGGCC TTTGAAGCGC TAGTAGAGCC CGTGAATGGA 
AAGTTTAATG ATAATGCCTG GCATGATGTG AAAGTCACCA GGAATCTGCG TCAGCACTCA 
GGCATTGGAC ACGCTATGGT GACAATATCA GTGGATGGGA TTCTTACCAC AACGGGCTAC 
ACGCAAGAAG ATTACACCAT GCTGGGGTCT GATGACTTTT TCTATGTTGG AGGCAGCCCC 
AGCACAGCCG ACCTTCCAGG GTCACCAGTC AGTAACAACT TTATGGGCTG TCTCAAAGAG 
GTCGTATATA AAAATAATGA TGTAAGACTG GAGTTATCGC GACTTGCCAA GCAAGGAGAT 
CCTAAGATGA AGATCCATGG TGTGGTGGCT TTTAAGTGTG AAAATGTGGC AACCTTAGAC 
CCAATCACTT TTGAGACCCC AGAATCTTTC ATTTCTTTGC CTAAGTGGAA TGCAAAGAAA 
ACAGGCTCAA TATCATTTGA TTTCCGTACA ACGGAGCCAA ATGGCCTCAT CTTGTTTAGC 
CATGGCAAGC CAAGACATCA GAAGGATGCC AAGCACCCGC AGATGATTAA GGTTGACTTT 
TTTGCTATTG AAATGCTGGA TGGCCACTTG TACCTCCTCT TAGACATGGG ATCAGGTACT 
ATAAAAATCA AAGCCCTTCA GAAGAAAGTC AATGATGGAG AATGGTATCA CGTGGATTTC 
CAGCGAGATG GACGGTCAGG TACCATTTCT GTCAACACAC TTCGTACTCC CTACACAGCT 
CCCGGTGAGA GTGAGATCCT AGACCTCGAT GATGAGTTGT ATCTGGGTGG CTTGCCAGAA 
AATAAGGCTG GCCTGGTCTT CCCCACTGAG GTGTGGACTG CTCTGCTCAA CTATGGCTAC 
GTAGGCTGCA TCCGGGATCT ATTCATTGAT GGCCAGAGCA AAGATATCCG GCAGATGGCG 
GAAATTCAGA GTACTGCTGG AGTGAAGCCA TCCTGCTCAA GGGAGACTGC AAAACCATGC 
CTTAGCAATC CTTGCAAAAA CAATGGCATG TGCAGGGATG GCTGGAACAG ATACGTCTGT 
GATTGCTCTG GAACAGGCTA TCTCGGCAGG TCCTGTGAGA GAGAGGCAAC GGTTTTGAGC 
TACGATGGGA GTATGTTTAT GAAAATTCAG CTCCCTGTGG TGATGCACAC TGAGGCCGAG 
GACGTTTCCT TACGGTTCAG ATCCCAGCGT GCGTACGGCA TTCTGATGGC GACCACTTCT 
AGAGACTCCG CAGATACCCT TCGACTGGAG CTAGATGCAG GGCGCGTGAA ACTCACGGTC 
AATCTAGATT GTATCAGGAT TAACTGTAAT TCCAGCAAAG GTCCTGAGAC CCTTTTTGCC 
GGCTATAACC TCAATGATAA TGAATGGCAC ACAGTACGTG TGGTTCGGCG AGGAAAAAGT 
TTAAAGCTAA CCGTGGATGA TCAACAAGCC ATGACAGGCC AAATGGCAGG TGATCATACA 
AGGCTGGAGT TTCATAACAT AGAGACAGGC ATCATCACAG AACGACGCTA TCTTTCTTCT 
GTCCCCTCCA ACTTCATTGG GCACCTGCAA AGCCTCACAT TTAATGGAAT GGCATACATT 
GACTTGTGCA AAAATGGTGA TATAGATTAT TGTGAACTCA ATGCCAGGTT TGGATTCAGG 
AACATCATCG CGGATCCTGT CACCTTCAAG ACCAAATCAA GCTATGTTGC CTTAGCTACA 
TTGCAAGCCT ACACTTCTAT GCATCTATTT TTCCAATTCA AGACAACATC CCTAGATGGA 
CTAATTCTGT ATAACAGTGG GGATGGAAAT GACTTTATTG TGGTTGAATT AGTTAAAGGG 
TACTTACATT ATGTGTTTGA CTTGGGAAAT GGTGCTAACC TCATCAAAGG GAGCTCAAAC 
AAACCACTCA ACGACAATCA GTGGCACAAT GTGATGATTT CAAGGGACAC CAGCAATCTC 
CACACAGTAA AGATCGACAC AAAAATCACA ACACAAATCA CTGCGGGAGC CAGAAACTTA 
GACCTCAAGA GTGACTTGTA TATTGGAGGA GTGGCTAAAG AAACATACAA ATCGTTGCCG 
AAACTGGTCC ATGCTAAAGA AGGCTTTCAA GGTTGCCTGG CATCTGTGGA CTTGAATGGC 
AGGCTTCCAG ACCTCATATC TGATGCTCTT TTCTGCAATG GGCAAATTGA GAGAGGATGC 
GAAGGGCCCA GCACAACCTG TCAAGAGGAC TCATGTTCAA ATCAAGGCGT GTGCTTGCAG 
CAATGGGATG GCTTTAGCTG TGACTGTAGC ATGACTTCCT TCAGTGGCCC GCTCTGCAAT 
GACCCTGGGA CGACGTATAT CTTTAGCAAA GGTGGTGGAC AAATTACACA TAAGTGGCCT 
CCTAATGACC GACCCAGTAC ACGAGCAGAC AGGCTGGCCA TCGGGTTTAG CACTGTTCAG 
AAGGAAGCAG TGTTGGTGCG TGTGGACAGT TCCTCAGGCC TGGGTGACTA CCTTGAGCTG 
CACATACACC AAGGAAAAAT TGGAGTTAAA TTTAATGTTG GGACAGATGA CATCGCCATT 
GAGGAGTCCA ATGCAATCAT TAATGATGGA AAATACCATG TAGTGCGTTT CACGAGGAGT 
GGTGGCAATG CCACGTTACA GGTGGACAGC TGGCCAGTCA TCGAACGATA CCCTGCAGGA 
AACAATGATA ACGAGCGCCT GGCGATTGCT AGACAGCGAA TTCCATATCG ACTTGGTCGA 
GTAGTTGATG AATGGCTACT CGACAAAGGG CGTCAGCTCA CAATCTTCAA TAGCCAAGCA 
ACCATAATAA TTGGCGGGAA AGAGCAGGGC CAGCCCTTCC AGGGCCAGCT CTCTGGGCTT 
TACTACAATG GCTTGAAAGT TCTGAATATG GCGGCAGAAA ACGATGCCAA CATCGCCATA 
GTGGGAAATG TGAGGCTGGT CGGTGAAGTG CCTTCCTCTA TGACAACTGA GTCGACAGCC 
ACTGCCATGC AGTCCGAGAT GTCCACCTCA ATCATGGAGA CCACCACAAC CCTGGCTACC 
AGCACAGCTC GACGAGGAAA GCCCCCCACA AAGGAGCCTA TCAGCCAGAC CACGGATGAT 
ATCCTTGTGG CCTCGGCAGA GTGTCCCAGC GACGATGAGG ACATTGACCC CTGTGAGCCG 
AGCTCAGGTG GGTTAGCCAA CCCCACCCGA GTGGGCGGCC GCGAACCATA CCCAGGCTCG 
GCAGAGGTGA TCCGGGAGTC TAGCAGTACC ACTGGCATGG TGGTGGGGAT TGTCGCAGCA 
GCAGCTCTGT GCATCCTCAT CCTCCTCTAT GCCATGTACA AGTACAGAAA CCGGGATGAA 
GGCTCATATC ACGTGGATGA GAGTCGAAAC TACATCAGTA ACTCAGCACA GTCCAATGGG 
GCTGTGGTCA AGGAGAAGCA GCCCAGCAGT GCGAAAAGCG CCAACAAAAA CAAGAAGAAC 
AAGGATAAGG AGTATTATGT CTGA

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

PubMed

Conformational Plasticity in the Transsynaptic Neurexin-Cerebellin-Glutamate Receptor Adhesion Complex.
Structure (London, England : 1993)24(12)2163-2173(2016 12)
Cheng S,Seven AB,Wang J,Skiniotis G,?zkan E

Developmental Hypothyroxinemia and Hypothyroidism Reduce Parallel Fiber-Purkinje Cell Synapses in Rat Offspring by Downregulation of Neurexin1/Cbln1/GluD2 Tripartite Complex.
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Wang Y,Dong J,Wang Y,Wei W,Song B,Shan Z,Teng W,Chen J

Nanoscale organization of synaptic adhesion proteins revealed by single-molecule localization microscopy.
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Astrocytes Assemble Thalamocortical Synapses by Bridging NRX1? and NL1 via Hevin.
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Singh SK,Stogsdill JA,Pulimood NS,Dingsdale H,Kim YH,Pilaz LJ,Kim IH,Manhaes AC,Rodrigues WS Jr,Pamukcu A,Enustun E,Ertuz Z,Scheiffele P,Soderling SH,Silver DL,Ji RR,Medina AE,Eroglu C

Structural and functional analyses of the sixth site of neurexin alternative splicing.
Doklady. Biochemistry and biophysics463239-42(2015)
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Nrxn1 cDNA ORF clone, Rattus norvegicus(Norway rat)

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