L1cam cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	L1cam
Entrez Gene ID	50687
Full Name	L1 cell adhesion molecule
Synonyms	Hsas,Hyd,N-CAM L1,NCAML1,NgCAM
General protein information	Preferred Names L1 cell adhesion molecule Names neural cell adhesion molecule L1 N-CAM-L1 NCAM-L1 NILE nerve-growth factor-inducible large external glycoprotein neuron-glia cell adhesion molecule
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: X Map Location: Xq37
Summary	member of the Ig superfamily of cell adhesion molecules; involved in neuronal cell development; neural cell adhesion molecule expressed in brain; isoform L1cs is a likely alternative splice variant expressed in the peripheral nervous system [RGD, Oct 2007].

mRNA and Protein(s)

mRNA	Protein	Name
XM_017602141.1	XP_017457630.1	neural cell adhesion molecule L1 isoform X4
NM_017345.1	NP_059041.1	neural cell adhesion molecule L1 precursor
XM_008773635.2	XP_008771857.1	neural cell adhesion molecule L1 isoform X1
XM_017602140.1	XP_017457629.1	neural cell adhesion molecule L1 isoform X2
XM_008773636.2	XP_008771858.1	neural cell adhesion molecule L1 isoform X3

Pathways from BioSystems

Homologies

	L1CAM	XP_001087861.1
Gallus gallus (chicken)	L1CAM	NP_990484.1
Danio rerio (zebrafish)	nadl1.2	NP_571436.1
Danio rerio (zebrafish)	nadl1.1	NP_571458.1
Mus musculus (house mouse)	L1cam	NP_032504.3
Rattus norvegicus (Norway rat)	L1cam	NP_059041.1
Bos taurus (cattle)	L1CAM	NP_001179364.1
Xenopus tropicalis (tropical clawed frog)	l1cam	NP_001096185.1
Homo sapiens (human)	L1CAM	NP_000416.1
Pan troglodytes (chimpanzee)	L1CAM	NP_001180609.1
Canis lupus familiaris (dog)	L1CAM	XP_549364.2

Gene Ontology
Bibliography

Related articles in PubMed

Glycoproteomics Reveals Decorin Peptides With Anti-Myostatin Activity in Human Atrial Fibrillation.
Barallobre-Barreiro J, Gupta SK, Zoccarato A, Kitazume-Taneike R, Fava M, Yin X, Werner T, Hirt MN, Zampetaki A, Viviano A, Chong M, Bern M, Kourliouros A, Domenech N, Willeit P, Shah AM, Jahangiri M, Schaefer L, Fischer JW, Iozzo RV, Viner R, Thum T, Heineke J, Kichler A, Otsu K, Mayr M
Circulation134(11)817-32(2016 Sep)

Toluene disruption of the functions of L1 cell adhesion molecule at concentrations associated with occupational exposures.
White KM, Sabatino JA, He M, Davis N, Tang N, Bearer CF
Pediatric research80(1)145-50(2016 07)

Heterozygous L1-deficient mice express an autism-like phenotype.
Sauce B, Wass C, Netrakanti M, Saylor J, Schachner M, Matzel LD
Behavioural brain research292432-42(2015 Oct)

miR-29a modulates neuronal differentiation through targeting REST in mesenchymal stem cells.
Duan P, Sun S, Li B, Huang C, Xu Y, Han X, Xing Y, Yan W
PloS one9(5)e97684(2014)

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

toluene inhibits L1-lipid raft interactions at occupationally relevant concentrations and may lead to a fetal solvent spectrum disorder similar to fetal alcohol spectrum disorder
Title: Toluene disruption of the functions of L1 cell adhesion molecule at concentrations associated with occupational exposures.

L1 is a target for ethanol developmental neurotoxicity in vivo; the proportion of L1 present in lipid rafts is significantly increased in pups who receive ethanol compared to intubated controls.
Title: L1 cell adhesion molecule signaling is inhibited by ethanol in vivo.

Exocytosis of Rab11- and L1-positive vesicles may play a central role in TC10-mediated neurite outgrowth
Title: GTP hydrolysis of TC10 promotes neurite outgrowth through exocytic fusion of Rab11- and L1-containing vesicles by releasing exocyst component Exo70.

Results suggest that precise localization of L1-CAM is important for establishing proper cell-cell contacts in neural circuits.
Title: Polarized targeting of L1-CAM regulates axonal and dendritic bundling in vitro.

balanced levels of EHD1 and EHD4 are important for NgCAM endocytosis in neurons; suggest that EHD1 plays roles in both endosomal recycling and a specialized endocytosis pathway in neurons used by NgCAM
Title: Alterations of EHD1/EHD4 protein levels interfere with L1/NgCAM endocytosis in neurons and disrupt axonal targeting.

The following L1cam gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the L1cam 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)
ORa63095	XM_017602140.1 Latest version!	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ORa12386	NM_017345.1 Latest version!	Rattus norvegicus L1 cell adhesion molecule (L1cam), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$923.30 $1319.00
ORa23041	XM_008773635.2 Latest version!	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa23043	XM_008773636.2 Latest version!	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa23044	XM_017602141.1 Latest version!	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00

ORF Online Only Promotion

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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)

L1cam ( XM_017602140.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017457629.1 Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORa63095
Clone ID Related Accession (Same CDS sequence)	XM_017602140.1
Accession Version	XM_017602140.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3768bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	neural cell adhesion molecule L1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005120.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGAACG 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CCAGAGCCTG 
GACTACAGTG ACCAGGGCAA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ATACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTTCCGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTGGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA GCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGTGAC 
AATGAAGAGA AGGCCTTCGG CAGCAGCCAG CCATCTCTCA ATGGAGACAT CAAACCCCTA 
GGCAGTGATG ACAGTCTGGC TGATTATGGG GGCAGTGTGG ATGTCCAGTT CAATGAGGAT 
GGCTCTTTCA TCGGCCAATA CAGTGGCAAA AAAGAGAAGG AGGCAGCGGG AGGCAATGAC 
AGCTCAGGGG CTACCTCTCC TATCAATCCT GCAGTAGCCC TAGAATAG

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

RefSeq	XP_017457629.1
CDS	264..4031
Translation	MVMMLWYVLPLLLCSPCLLIQIPDEYKGHHVLEPPVITEQSPRRLVVFPTDDISLKCEARGRPQVEFRWTKDGIHFKPKEELGVVVHEAPYSGSFTIEGNNSFAQRFQGIYRCYASNNLGTAMSHEIQLVAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAAPLRIYWMNSKILHIKQDERVSMGQNGDLYFANVLTSDNHSDYICNAHFPGTRTIIQKEPIDLRVKPTNSMIDRKPRLLFPTNSSSHLVALQGQSLILECIAEGFPTPTIKWLHPSDPMPTDRVIYQNHNKTLQLLNVGEEDDGEYTCLAENSLGSARHAYYVTVEAAPYWLQKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGMSIEKVNKDQKYRIEQGSLILSNVQPSDTMVTQCEARNQHGLLLANAYIYVVQLPARILTKDNQTYMAVEGSTAYLLCKAFGAPVPSVQWLDEEGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCQAANDQNNVTILANLQVKEATQITQGPRSTIEKKGARVTFTCQASFDPSLQASITWRGDGRDLQERGDSDKYFIEDGQLVIQSLDYSDQGNYSCVASTELDEVESRAQLLVVGSPGPVPHLELSDRHLLKQSQVHLSWSPAEDHNSPIEKYDIEFEDKEMAPEKWFSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGSGEPSPVSETVVTPEAAPEKNPVDVRGEGNETNNMVITWKPLRWMDWNAPQIQYRVQWRPLGKQETWKEQTVSDPFLVVSNTSTFVPYEIKVQAVNNQGKGPEPQVTIGYSGEDYPQVSPELEDITIFNSSTVLVRWRPVDLAQVKGHLRGYNVTYWWKGSQRKHSKRHVHKSHMVVPANTTSAILSGLRPYSSYHVEVQAFNGRGLGPASEWTFSTPEGVPGHPEALHLECQSDTSLLLHWQPPLSHNGVLTGYLLSYHPLDGESKEQLFFNLSDPELRTHNLTNLNPDLQYRFQLQATTQQGPGEAIVREGGTMALFGKPDFGNISVTAGENYSVVSWVPREGQCNFRFHILFKALPEGKVSPDHQPQPQYVSYNQSSYTQWDLQPDTKYEIHLMREKVLLHHLAVKTNGTGPVRVSTTGSFASEGWFIAFVSAIILLLLILLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE

Target ORF information:

RefSeq Version	XM_017602140.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X2, mRNA.

Target ORF information:

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

XM_017602140.1

ORF Insert Sequence:

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGAACG 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CCAGAGCCTG 
GACTACAGTG ACCAGGGCAA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ATACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTTCCGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTGGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA GCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGTGAC 
AATGAAGAGA AGGCCTTCGG CAGCAGCCAG CCATCTCTCA ATGGAGACAT CAAACCCCTA 
GGCAGTGATG ACAGTCTGGC TGATTATGGG GGCAGTGTGG ATGTCCAGTT CAATGAGGAT 
GGCTCTTTCA TCGGCCAATA CAGTGGCAAA AAAGAGAAGG AGGCAGCGGG AGGCAATGAC 
AGCTCAGGGG CTACCTCTCC TATCAATCCT GCAGTAGCCC TAGAATAG

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

L1cam ( NM_017345.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_059041.1 Rattus norvegicus L1 cell adhesion molecule (L1cam), mRNA.

Price & Availability↑

CloneID	ORa12386
Clone ID Related Accession (Same CDS sequence)	NM_017345.1
Accession Version	NM_017345.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3768bp) 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	2019-11-14
Organism	Rattus norvegicus(Norway rat)
Product	neural cell adhesion molecule L1 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from X59149.1. On Dec 17, 2003 this sequence version replaced XM_346879.1. 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 :: X59149.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00052296, SAMN00632251 [ECO:0000348] ##Evidence-Data-END##

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGACAC 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CAAGAGCCTG 
GACTACAGTG ACCAGGGAGA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ACACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTCCTGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTAGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA TCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGTGAC 
AATGAAGAGA AGGCCTTCGG CAGCAGCCAG CCATCTCTCA ATGGAGACAT CAAACCCCTA 
GGCAGTGATG ACAGTCTGGC TGATTATGGG GGCAGTGTGG ATGTCCAGTT CAATGAGGAT 
GGCTCTTTCA TCGGCCAATA CAGTGGCAAA AAAGAGAAGG AGGCAGCGGG AGGCAATGAC 
AGCTCAGGGG CTACCTCTCC TATCAATCCT GCAGTAGCCC TAGAATAG

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

RefSeq	NP_059041.1
CDS	101..3868
Translation	MVMMLWYVLPLLLCSPCLLIQIPDEYKGHHVLEPPVITEQSPRRLVVFPTDDISLKCEARGRPQVEFRWTKDGIHFKPKEELGVVVHEAPYSGSFTIEGNNSFAQRFQGIYRCYASNNLGTAMSHEIQLVAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAAPLRIYWMNSKILHIKQDERVSMGQNGDLYFANVLTSDNHSDYICNAHFPGTRTIIQKEPIDLRVKPTNSMIDRKPRLLFPTNSSSHLVALQGQSLILECIAEGFPTPTIKWLHPSDPMPTDRVIYQNHNKTLQLLNVGEEDDGEYTCLAENSLGSARHAYYVTVEAAPYWLQKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGMSIEKVNKDQKYRIEQGSLILSNVQPSDTMVTQCEARNQHGLLLANAYIYVVQLPARILTKDNQTYMAVEGSTAYLLCKAFGAPVPSVQWLDEEGTTVLQDERFFPYANGHLGIRDLQANDTGRYFCQAANDQNNVTILANLQVKEATQITQGPRSTIEKKGARVTFTCQASFDPSLQASITWRGDGRDLQERGDSDKYFIEDGQLVIKSLDYSDQGDYSCVASTELDEVESRAQLLVVGSPGPVPHLELSDRHLLKQSQVHLSWSPAEDHNSPIEKYDIEFEDKEMAPEKWFSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGPGEPSPVSETVVTPEAAPEKNPVDVRGEGNETNNMVITWKPLRWMDWNAPQIQYRVQWRPLGKQETWKEQTVSDPFLVVSNTSTFVPYEIKVQAVNNQGKGPEPQVTIGYSGEDYPQVSPELEDITIFNSSTVLVRWRPVDLAQVKGHLRGYNVTYWWKGSQRKHSKRHVHKSHMVVPANTTSAILSGLRPYSSYHVEVQAFNGRGLGPASEWTFSTPEGVPGHPEALHLECQSDTSLLLHWQPPLSHNGVLTGYLLSYHPLDGESKEQLFFNLSDPELRTHNLTNLNPDLQYRFQLQATTHQGPGEAIVREGGTMALFGKPDFGNISVTAGENYSVVSWVPREGQCNFRFHILFKALPEGKVSPDHQPQPQYVSYNQSSYTQWDLQPDTKYEIHLMREKVLLHHLAVKTNGTGPVRVSTTGSFASEGWFIAFVSAIILLLLILLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE

Target ORF information:

RefSeq Version	NM_017345.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus L1 cell adhesion molecule (L1cam), mRNA.

Target ORF information:

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

NM_017345.1

ORF Insert Sequence:

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGACAC 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CAAGAGCCTG 
GACTACAGTG ACCAGGGAGA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ACACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTCCTGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTAGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA TCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGTGAC 
AATGAAGAGA AGGCCTTCGG CAGCAGCCAG CCATCTCTCA ATGGAGACAT CAAACCCCTA 
GGCAGTGATG ACAGTCTGGC TGATTATGGG GGCAGTGTGG ATGTCCAGTT CAATGAGGAT 
GGCTCTTTCA TCGGCCAATA CAGTGGCAAA AAAGAGAAGG AGGCAGCGGG AGGCAATGAC 
AGCTCAGGGG CTACCTCTCC TATCAATCCT GCAGTAGCCC TAGAATAG

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

L1cam ( XM_008773635.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008771857.1 Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X1, mRNA.

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CloneID	ORa23041
Clone ID Related Accession (Same CDS sequence)	XM_008773635.2
Accession Version	XM_008773635.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3780bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	neural cell adhesion molecule L1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005120.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008773635.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGAACG 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CCAGAGCCTG 
GACTACAGTG ACCAGGGCAA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ATACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTTCCGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTGGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA GCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGGTCC 
CTGGAGAGTG ACAATGAAGA GAAGGCCTTC GGCAGCAGCC AGCCATCTCT CAATGGAGAC 
ATCAAACCCC TAGGCAGTGA TGACAGTCTG GCTGATTATG GGGGCAGTGT GGATGTCCAG 
TTCAATGAGG ATGGCTCTTT CATCGGCCAA TACAGTGGCA AAAAAGAGAA GGAGGCAGCG 
GGAGGCAATG ACAGCTCAGG GGCTACCTCT CCTATCAATC CTGCAGTAGC CCTAGAATAG

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

RefSeq	XP_008771857.1
CDS	264..4043
Translation	MVMMLWYVLPLLLCSPCLLIQIPDEYKGHHVLEPPVITEQSPRRLVVFPTDDISLKCEARGRPQVEFRWTKDGIHFKPKEELGVVVHEAPYSGSFTIEGNNSFAQRFQGIYRCYASNNLGTAMSHEIQLVAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAAPLRIYWMNSKILHIKQDERVSMGQNGDLYFANVLTSDNHSDYICNAHFPGTRTIIQKEPIDLRVKPTNSMIDRKPRLLFPTNSSSHLVALQGQSLILECIAEGFPTPTIKWLHPSDPMPTDRVIYQNHNKTLQLLNVGEEDDGEYTCLAENSLGSARHAYYVTVEAAPYWLQKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGMSIEKVNKDQKYRIEQGSLILSNVQPSDTMVTQCEARNQHGLLLANAYIYVVQLPARILTKDNQTYMAVEGSTAYLLCKAFGAPVPSVQWLDEEGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCQAANDQNNVTILANLQVKEATQITQGPRSTIEKKGARVTFTCQASFDPSLQASITWRGDGRDLQERGDSDKYFIEDGQLVIQSLDYSDQGNYSCVASTELDEVESRAQLLVVGSPGPVPHLELSDRHLLKQSQVHLSWSPAEDHNSPIEKYDIEFEDKEMAPEKWFSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGSGEPSPVSETVVTPEAAPEKNPVDVRGEGNETNNMVITWKPLRWMDWNAPQIQYRVQWRPLGKQETWKEQTVSDPFLVVSNTSTFVPYEIKVQAVNNQGKGPEPQVTIGYSGEDYPQVSPELEDITIFNSSTVLVRWRPVDLAQVKGHLRGYNVTYWWKGSQRKHSKRHVHKSHMVVPANTTSAILSGLRPYSSYHVEVQAFNGRGLGPASEWTFSTPEGVPGHPEALHLECQSDTSLLLHWQPPLSHNGVLTGYLLSYHPLDGESKEQLFFNLSDPELRTHNLTNLNPDLQYRFQLQATTQQGPGEAIVREGGTMALFGKPDFGNISVTAGENYSVVSWVPREGQCNFRFHILFKALPEGKVSPDHQPQPQYVSYNQSSYTQWDLQPDTKYEIHLMREKVLLHHLAVKTNGTGPVRVSTTGSFASEGWFIAFVSAIILLLLILLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYRSLESDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE

Target ORF information:

RefSeq Version	XM_008773635.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X1, mRNA.

Target ORF information:

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

XM_008773635.2

ORF Insert Sequence:

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATATAA AGGACACCAT GTACTGGAGC CACCTGTCAT CACAGAACAG 
TCTCCACGGC GCCTGGTTGT CTTCCCAACA GATGACATAA GCCTCAAATG TGAAGCCAGA 
GGCAGACCCC AAGTGGAGTT CCGCTGGACG AAAGATGGCA TCCACTTCAA ACCTAAGGAA 
GAATTGGGTG TAGTGGTACA CGAGGCACCC TATTCTGGCT CCTTCACCAT CGAAGGCAAC 
AACAGCTTTG CCCAGAGGTT TCAGGGCATC TATCGCTGCT ATGCCAGCAA TAATCTAGGA 
ACTGCCATGT CGCATGAGAT CCAGCTCGTG GCTGAGGGTG CCCCCAAATG GCCGAAGGAG 
ACTGTAAAAC CCGTGGAAGT GGAGGAAGGA GAATCAGTAG TTCTACCTTG CAATCCTCCA 
CCCAGTGCAG CCCCACTTAG GATCTACTGG ATGAACAGCA AGATTTTGCA CATCAAACAA 
GATGAGCGGG TGTCCATGGG CCAGAACGGA GACCTATATT TTGCCAATGT GCTTACCTCA 
GACAATCATT CAGACTACAT CTGCAATGCC CACTTCCCTG GCACCCGGAC CATCATTCAA 
AAGGAACCTA TTGACCTCCG GGTCAAGCCC ACCAACAGCA TGATTGACCG GAAGCCACGC 
CTGCTCTTCC CCACAAACTC CAGCAGTCAC CTCGTGGCCT TGCAGGGCCA GTCATTAATC 
CTGGAGTGCA TTGCTGAGGG ATTCCCTACA CCCACCATCA AGTGGCTGCA CCCCAGTGAC 
CCTATGCCAA CAGACCGTGT TATCTACCAG AACCATAACA AGACACTGCA GCTCCTCAAT 
GTGGGCGAGG AAGATGATGG CGAGTATACC TGCCTTGCTG AGAACTCACT GGGCAGTGCT 
CGGCATGCCT ACTATGTCAC TGTGGAAGCT GCCCCATACT GGCTGCAGAA GCCCCAGAGT 
CATTTGTATG GGCCAGGAGA GACTGCCCGC CTAGACTGCC AAGTCCAGGG CAGGCCCCAA 
CCAGAGGTCA CCTGGAGAAT CAACGGAATG TCTATAGAGA AGGTGAACAA GGACCAGAAG 
TACCGGATTG AGCAGGGGTC TTTGATCCTG AGTAATGTGC AACCAAGTGA CACAATGGTG 
ACCCAGTGTG AAGCTCGCAA CCAGCATGGG CTCCTACTAG CCAATGCCTA TATCTATGTT 
GTCCAGCTGC CAGCCAGGAT CCTAACAAAA GACAATCAGA CATACATGGC AGTAGAGGGC 
AGTACTGCTT ACTTGCTGTG CAAAGCCTTT GGAGCTCCTG TTCCCAGTGT CCAGTGGCTG 
GATGAGGAAG GAACCACAGT GCTTCAGGAT GAAAGATTTT TCCCCTATGC CAATGGAACG 
CTGGGCATCA GAGATCTCCA GGCCAATGAC ACTGGACGCT ATTTCTGCCA GGCTGCCAAT 
GACCAGAACA ATGTGACCAT TTTGGCTAAC CTACAGGTTA AAGAAGCAAC CCAGATCACA 
CAAGGACCCC GGAGCACAAT TGAGAAGAAA GGTGCAAGGG TGACATTCAC GTGCCAGGCC 
TCCTTTGACC CCTCTTTACA AGCCAGCATC ACTTGGCGTG GAGATGGGAG AGACCTCCAG 
GAACGTGGAG ACAGTGACAA GTATTTCATA GAAGATGGGC AACTTGTCAT CCAGAGCCTG 
GACTACAGTG ACCAGGGCAA CTACAGTTGT GTGGCCAGCA CTGAACTGGA TGAGGTGGAG 
AGCAGGGCAC AACTCTTAGT GGTGGGAAGC CCTGGGCCAG TGCCTCACCT GGAGCTGTCC 
GACCGCCACT TGCTGAAGCA GAGCCAGGTG CACTTGTCTT GGAGCCCTGC TGAAGACCAC 
AACTCTCCCA TTGAGAAATA TGACATTGAA TTTGAGGACA AGGAAATGGC TCCTGAGAAA 
TGGTTCAGTC TAGGCAAGGT GCCAGGAAAT CAGACCTCTA CTACCCTCAA GCTGTCCCCC 
TATGTCCACT ATACCTTTCG GGTCACTGCC ATTAACAAAT ATGGTTCCGG AGAACCCAGC 
CCTGTCTCTG AGACTGTAGT CACACCTGAG GCAGCCCCAG AGAAGAACCC TGTGGATGTG 
AGAGGGGAAG GAAATGAGAC CAACAATATG GTCATCACAT GGAAGCCCCT TCGGTGGATG 
GATTGGAATG CCCCCCAGAT TCAGTACCGT GTACAGTGGC GACCACTGGG CAAACAAGAG 
ACCTGGAAGG AACAGACCGT GAGCGACCCC TTCCTGGTGG TGTCTAACAC TTCCACATTT 
GTGCCTTATG AGATCAAAGT CCAGGCAGTG AACAACCAGG GGAAGGGCCC TGAGCCCCAG 
GTCACCATTG GCTATTCAGG GGAAGACTAC CCCCAGGTGA GCCCTGAGCT TGAAGACATC 
ACAATCTTCA ACTCAAGCAC TGTGCTGGTC AGGTGGAGGC CTGTGGACTT GGCCCAGGTT 
AAGGGCCACC TCAGGGGATA CAATGTAACG TACTGGTGGA AGGGCAGTCA GAGAAAGCAC 
AGCAAGAGGC ATGTCCACAA AAGTCACATG GTGGTACCTG CGAACACCAC CAGTGCCATC 
CTCAGTGGTT TGCGTCCTTA CAGCTCTTAT CATGTGGAGG TACAGGCCTT TAATGGGCGG 
GGCTTAGGGC CTGCAAGTGA ATGGACCTTC AGCACCCCAG AGGGAGTGCC TGGCCACCCT 
GAGGCATTAC ATCTGGAGTG CCAGTCGGAC ACTAGCCTGC TACTGCACTG GCAGCCACCA 
CTCAGCCACA ATGGAGTGCT CACTGGCTAC CTGCTCTCTT ACCATCCCTT GGATGGGGAA 
AGCAAAGAGC AGTTGTTCTT CAACCTTTCG GACCCAGAGC TCCGGACTCA TAATCTCACC 
AACCTCAACC CTGATCTACA GTACCGCTTC CAGCTTCAGG CCACCACCCA GCAGGGTCCT 
GGTGAGGCCA TTGTGCGTGA AGGAGGCACT ATGGCCCTAT TTGGCAAGCC AGATTTTGGC 
AACATTTCAG TCACAGCAGG TGAAAACTAC AGTGTGGTCT CCTGGGTCCC TCGGGAGGGC 
CAGTGCAATT TCAGGTTCCA CATCCTGTTC AAAGCCTTGC CAGAAGGGAA AGTGAGCCCT 
GATCACCAGC CTCAGCCTCA ATATGTGAGC TACAATCAGA GCTCCTACAC ACAGTGGGAC 
CTACAGCCTG ACACCAAATA TGAGATCCAC CTGATGAGGG AGAAGGTCCT CTTGCACCAT 
CTGGCTGTGA AGACTAATGG CACTGGCCCC GTGCGAGTTT CTACTACAGG TAGCTTTGCC 
TCCGAGGGCT GGTTCATCGC CTTTGTCAGT GCTATCATTC TCTTGCTCCT CATCCTGCTC 
ATCCTCTGCT TCATCAAACG CAGCAAGGGC GGCAAATATT CAGTGAAGGA CAAGGAGGAC 
ACTCAGGTAG ATTCCGAGGC CCGGCCCATG AAAGACGAGA CCTTCGGCGA GTACAGGTCC 
CTGGAGAGTG ACAATGAAGA GAAGGCCTTC GGCAGCAGCC AGCCATCTCT CAATGGAGAC 
ATCAAACCCC TAGGCAGTGA TGACAGTCTG GCTGATTATG GGGGCAGTGT GGATGTCCAG 
TTCAATGAGG ATGGCTCTTT CATCGGCCAA TACAGTGGCA AAAAAGAGAA GGAGGCAGCG 
GGAGGCAATG ACAGCTCAGG GGCTACCTCT CCTATCAATC CTGCAGTAGC CCTAGAATAG

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

L1cam ( XM_008773636.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008771858.1 Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ORa23043
Clone ID Related Accession (Same CDS sequence)	XM_008773636.2
Accession Version	XM_008773636.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3765bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	neural cell adhesion molecule L1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005120.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008773636.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATTACT GGAGCCACCT GTCATCACAG AACAGTCTCC ACGGCGCCTG 
GTTGTCTTCC CAACAGATGA CATAAGCCTC AAATGTGAAG CCAGAGGCAG ACCCCAAGTG 
GAGTTCCGCT GGACGAAAGA TGGCATCCAC TTCAAACCTA AGGAAGAATT GGGTGTAGTG 
GTACACGAGG CACCCTATTC TGGCTCCTTC ACCATCGAAG GCAACAACAG CTTTGCCCAG 
AGGTTTCAGG GCATCTATCG CTGCTATGCC AGCAATAATC TAGGAACTGC CATGTCGCAT 
GAGATCCAGC TCGTGGCTGA GGGTGCCCCC AAATGGCCGA AGGAGACTGT AAAACCCGTG 
GAAGTGGAGG AAGGAGAATC AGTAGTTCTA CCTTGCAATC CTCCACCCAG TGCAGCCCCA 
CTTAGGATCT ACTGGATGAA CAGCAAGATT TTGCACATCA AACAAGATGA GCGGGTGTCC 
ATGGGCCAGA ACGGAGACCT ATATTTTGCC AATGTGCTTA CCTCAGACAA TCATTCAGAC 
TACATCTGCA ATGCCCACTT CCCTGGCACC CGGACCATCA TTCAAAAGGA ACCTATTGAC 
CTCCGGGTCA AGCCCACCAA CAGCATGATT GACCGGAAGC CACGCCTGCT CTTCCCCACA 
AACTCCAGCA GTCACCTCGT GGCCTTGCAG GGCCAGTCAT TAATCCTGGA GTGCATTGCT 
GAGGGATTCC CTACACCCAC CATCAAGTGG CTGCACCCCA GTGACCCTAT GCCAACAGAC 
CGTGTTATCT ACCAGAACCA TAACAAGACA CTGCAGCTCC TCAATGTGGG CGAGGAAGAT 
GATGGCGAGT ATACCTGCCT TGCTGAGAAC TCACTGGGCA GTGCTCGGCA TGCCTACTAT 
GTCACTGTGG AAGCTGCCCC ATACTGGCTG CAGAAGCCCC AGAGTCATTT GTATGGGCCA 
GGAGAGACTG CCCGCCTAGA CTGCCAAGTC CAGGGCAGGC CCCAACCAGA GGTCACCTGG 
AGAATCAACG GAATGTCTAT AGAGAAGGTG AACAAGGACC AGAAGTACCG GATTGAGCAG 
GGGTCTTTGA TCCTGAGTAA TGTGCAACCA AGTGACACAA TGGTGACCCA GTGTGAAGCT 
CGCAACCAGC ATGGGCTCCT ACTAGCCAAT GCCTATATCT ATGTTGTCCA GCTGCCAGCC 
AGGATCCTAA CAAAAGACAA TCAGACATAC ATGGCAGTAG AGGGCAGTAC TGCTTACTTG 
CTGTGCAAAG CCTTTGGAGC TCCTGTTCCC AGTGTCCAGT GGCTGGATGA GGAAGGAACC 
ACAGTGCTTC AGGATGAAAG ATTTTTCCCC TATGCCAATG GAACGCTGGG CATCAGAGAT 
CTCCAGGCCA ATGACACTGG ACGCTATTTC TGCCAGGCTG CCAATGACCA GAACAATGTG 
ACCATTTTGG CTAACCTACA GGTTAAAGAA GCAACCCAGA TCACACAAGG ACCCCGGAGC 
ACAATTGAGA AGAAAGGTGC AAGGGTGACA TTCACGTGCC AGGCCTCCTT TGACCCCTCT 
TTACAAGCCA GCATCACTTG GCGTGGAGAT GGGAGAGACC TCCAGGAACG TGGAGACAGT 
GACAAGTATT TCATAGAAGA TGGGCAACTT GTCATCCAGA GCCTGGACTA CAGTGACCAG 
GGCAACTACA GTTGTGTGGC CAGCACTGAA CTGGATGAGG TGGAGAGCAG GGCACAACTC 
TTAGTGGTGG GAAGCCCTGG GCCAGTGCCT CACCTGGAGC TGTCCGACCG CCACTTGCTG 
AAGCAGAGCC AGGTGCACTT GTCTTGGAGC CCTGCTGAAG ACCACAACTC TCCCATTGAG 
AAATATGACA TTGAATTTGA GGACAAGGAA ATGGCTCCTG AGAAATGGTT CAGTCTAGGC 
AAGGTGCCAG GAAATCAGAC CTCTACTACC CTCAAGCTGT CCCCCTATGT CCACTATACC 
TTTCGGGTCA CTGCCATTAA CAAATATGGT TCCGGAGAAC CCAGCCCTGT CTCTGAGACT 
GTAGTCACAC CTGAGGCAGC CCCAGAGAAG AACCCTGTGG ATGTGAGAGG GGAAGGAAAT 
GAGACCAACA ATATGGTCAT CACATGGAAG CCCCTTCGGT GGATGGATTG GAATGCCCCC 
CAGATTCAGT ACCGTGTACA GTGGCGACCA CTGGGCAAAC AAGAGACCTG GAAGGAACAG 
ACCGTGAGCG ACCCCTTCCT GGTGGTGTCT AACACTTCCA CATTTGTGCC TTATGAGATC 
AAAGTCCAGG CAGTGAACAA CCAGGGGAAG GGCCCTGAGC CCCAGGTCAC CATTGGCTAT 
TCAGGGGAAG ACTACCCCCA GGTGAGCCCT GAGCTTGAAG ACATCACAAT CTTCAACTCA 
AGCACTGTGC TGGTCAGGTG GAGGCCTGTG GACTTGGCCC AGGTTAAGGG CCACCTCAGG 
GGATACAATG TAACGTACTG GTGGAAGGGC AGTCAGAGAA AGCACAGCAA GAGGCATGTC 
CACAAAAGTC ACATGGTGGT ACCTGCGAAC ACCACCAGTG CCATCCTCAG TGGTTTGCGT 
CCTTACAGCT CTTATCATGT GGAGGTACAG GCCTTTAATG GGCGGGGCTT AGGGCCTGCA 
AGTGAATGGA CCTTCAGCAC CCCAGAGGGA GTGCCTGGCC ACCCTGAGGC ATTACATCTG 
GAGTGCCAGT CGGACACTAG CCTGCTACTG CACTGGCAGC CACCACTCAG CCACAATGGA 
GTGCTCACTG GCTACCTGCT CTCTTACCAT CCCTTGGATG GGGAAAGCAA AGAGCAGTTG 
TTCTTCAACC TTTCGGACCC AGAGCTCCGG ACTCATAATC TCACCAACCT CAACCCTGAT 
CTACAGTACC GCTTCCAGCT TCAGGCCACC ACCCAGCAGG GTCCTGGTGA GGCCATTGTG 
CGTGAAGGAG GCACTATGGC CCTATTTGGC AAGCCAGATT TTGGCAACAT TTCAGTCACA 
GCAGGTGAAA ACTACAGTGT GGTCTCCTGG GTCCCTCGGG AGGGCCAGTG CAATTTCAGG 
TTCCACATCC TGTTCAAAGC CTTGCCAGAA GGGAAAGTGA GCCCTGATCA CCAGCCTCAG 
CCTCAATATG TGAGCTACAA TCAGAGCTCC TACACACAGT GGGACCTACA GCCTGACACC 
AAATATGAGA TCCACCTGAT GAGGGAGAAG GTCCTCTTGC ACCATCTGGC TGTGAAGACT 
AATGGCACTG GCCCCGTGCG AGTTTCTACT ACAGGTAGCT TTGCCTCCGA GGGCTGGTTC 
ATCGCCTTTG TCAGTGCTAT CATTCTCTTG CTCCTCATCC TGCTCATCCT CTGCTTCATC 
AAACGCAGCA AGGGCGGCAA ATATTCAGTG AAGGACAAGG AGGACACTCA GGTAGATTCC 
GAGGCCCGGC CCATGAAAGA CGAGACCTTC GGCGAGTACA GGTCCCTGGA GAGTGACAAT 
GAAGAGAAGG CCTTCGGCAG CAGCCAGCCA TCTCTCAATG GAGACATCAA ACCCCTAGGC 
AGTGATGACA GTCTGGCTGA TTATGGGGGC AGTGTGGATG TCCAGTTCAA TGAGGATGGC 
TCTTTCATCG GCCAATACAG TGGCAAAAAA GAGAAGGAGG CAGCGGGAGG CAATGACAGC 
TCAGGGGCTA CCTCTCCTAT CAATCCTGCA GTAGCCCTAG AATAG

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

RefSeq	XP_008771858.1
CDS	264..4028
Translation	MVMMLWYVLPLLLCSPCLLIQIPDELLEPPVITEQSPRRLVVFPTDDISLKCEARGRPQVEFRWTKDGIHFKPKEELGVVVHEAPYSGSFTIEGNNSFAQRFQGIYRCYASNNLGTAMSHEIQLVAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAAPLRIYWMNSKILHIKQDERVSMGQNGDLYFANVLTSDNHSDYICNAHFPGTRTIIQKEPIDLRVKPTNSMIDRKPRLLFPTNSSSHLVALQGQSLILECIAEGFPTPTIKWLHPSDPMPTDRVIYQNHNKTLQLLNVGEEDDGEYTCLAENSLGSARHAYYVTVEAAPYWLQKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGMSIEKVNKDQKYRIEQGSLILSNVQPSDTMVTQCEARNQHGLLLANAYIYVVQLPARILTKDNQTYMAVEGSTAYLLCKAFGAPVPSVQWLDEEGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCQAANDQNNVTILANLQVKEATQITQGPRSTIEKKGARVTFTCQASFDPSLQASITWRGDGRDLQERGDSDKYFIEDGQLVIQSLDYSDQGNYSCVASTELDEVESRAQLLVVGSPGPVPHLELSDRHLLKQSQVHLSWSPAEDHNSPIEKYDIEFEDKEMAPEKWFSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGSGEPSPVSETVVTPEAAPEKNPVDVRGEGNETNNMVITWKPLRWMDWNAPQIQYRVQWRPLGKQETWKEQTVSDPFLVVSNTSTFVPYEIKVQAVNNQGKGPEPQVTIGYSGEDYPQVSPELEDITIFNSSTVLVRWRPVDLAQVKGHLRGYNVTYWWKGSQRKHSKRHVHKSHMVVPANTTSAILSGLRPYSSYHVEVQAFNGRGLGPASEWTFSTPEGVPGHPEALHLECQSDTSLLLHWQPPLSHNGVLTGYLLSYHPLDGESKEQLFFNLSDPELRTHNLTNLNPDLQYRFQLQATTQQGPGEAIVREGGTMALFGKPDFGNISVTAGENYSVVSWVPREGQCNFRFHILFKALPEGKVSPDHQPQPQYVSYNQSSYTQWDLQPDTKYEIHLMREKVLLHHLAVKTNGTGPVRVSTTGSFASEGWFIAFVSAIILLLLILLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYRSLESDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE

Target ORF information:

RefSeq Version	XM_008773636.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X3, mRNA.

Target ORF information:

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

XM_008773636.2

ORF Insert Sequence:

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATTACT GGAGCCACCT GTCATCACAG AACAGTCTCC ACGGCGCCTG 
GTTGTCTTCC CAACAGATGA CATAAGCCTC AAATGTGAAG CCAGAGGCAG ACCCCAAGTG 
GAGTTCCGCT GGACGAAAGA TGGCATCCAC TTCAAACCTA AGGAAGAATT GGGTGTAGTG 
GTACACGAGG CACCCTATTC TGGCTCCTTC ACCATCGAAG GCAACAACAG CTTTGCCCAG 
AGGTTTCAGG GCATCTATCG CTGCTATGCC AGCAATAATC TAGGAACTGC CATGTCGCAT 
GAGATCCAGC TCGTGGCTGA GGGTGCCCCC AAATGGCCGA AGGAGACTGT AAAACCCGTG 
GAAGTGGAGG AAGGAGAATC AGTAGTTCTA CCTTGCAATC CTCCACCCAG TGCAGCCCCA 
CTTAGGATCT ACTGGATGAA CAGCAAGATT TTGCACATCA AACAAGATGA GCGGGTGTCC 
ATGGGCCAGA ACGGAGACCT ATATTTTGCC AATGTGCTTA CCTCAGACAA TCATTCAGAC 
TACATCTGCA ATGCCCACTT CCCTGGCACC CGGACCATCA TTCAAAAGGA ACCTATTGAC 
CTCCGGGTCA AGCCCACCAA CAGCATGATT GACCGGAAGC CACGCCTGCT CTTCCCCACA 
AACTCCAGCA GTCACCTCGT GGCCTTGCAG GGCCAGTCAT TAATCCTGGA GTGCATTGCT 
GAGGGATTCC CTACACCCAC CATCAAGTGG CTGCACCCCA GTGACCCTAT GCCAACAGAC 
CGTGTTATCT ACCAGAACCA TAACAAGACA CTGCAGCTCC TCAATGTGGG CGAGGAAGAT 
GATGGCGAGT ATACCTGCCT TGCTGAGAAC TCACTGGGCA GTGCTCGGCA TGCCTACTAT 
GTCACTGTGG AAGCTGCCCC ATACTGGCTG CAGAAGCCCC AGAGTCATTT GTATGGGCCA 
GGAGAGACTG CCCGCCTAGA CTGCCAAGTC CAGGGCAGGC CCCAACCAGA GGTCACCTGG 
AGAATCAACG GAATGTCTAT AGAGAAGGTG AACAAGGACC AGAAGTACCG GATTGAGCAG 
GGGTCTTTGA TCCTGAGTAA TGTGCAACCA AGTGACACAA TGGTGACCCA GTGTGAAGCT 
CGCAACCAGC ATGGGCTCCT ACTAGCCAAT GCCTATATCT ATGTTGTCCA GCTGCCAGCC 
AGGATCCTAA CAAAAGACAA TCAGACATAC ATGGCAGTAG AGGGCAGTAC TGCTTACTTG 
CTGTGCAAAG CCTTTGGAGC TCCTGTTCCC AGTGTCCAGT GGCTGGATGA GGAAGGAACC 
ACAGTGCTTC AGGATGAAAG ATTTTTCCCC TATGCCAATG GAACGCTGGG CATCAGAGAT 
CTCCAGGCCA ATGACACTGG ACGCTATTTC TGCCAGGCTG CCAATGACCA GAACAATGTG 
ACCATTTTGG CTAACCTACA GGTTAAAGAA GCAACCCAGA TCACACAAGG ACCCCGGAGC 
ACAATTGAGA AGAAAGGTGC AAGGGTGACA TTCACGTGCC AGGCCTCCTT TGACCCCTCT 
TTACAAGCCA GCATCACTTG GCGTGGAGAT GGGAGAGACC TCCAGGAACG TGGAGACAGT 
GACAAGTATT TCATAGAAGA TGGGCAACTT GTCATCCAGA GCCTGGACTA CAGTGACCAG 
GGCAACTACA GTTGTGTGGC CAGCACTGAA CTGGATGAGG TGGAGAGCAG GGCACAACTC 
TTAGTGGTGG GAAGCCCTGG GCCAGTGCCT CACCTGGAGC TGTCCGACCG CCACTTGCTG 
AAGCAGAGCC AGGTGCACTT GTCTTGGAGC CCTGCTGAAG ACCACAACTC TCCCATTGAG 
AAATATGACA TTGAATTTGA GGACAAGGAA ATGGCTCCTG AGAAATGGTT CAGTCTAGGC 
AAGGTGCCAG GAAATCAGAC CTCTACTACC CTCAAGCTGT CCCCCTATGT CCACTATACC 
TTTCGGGTCA CTGCCATTAA CAAATATGGT TCCGGAGAAC CCAGCCCTGT CTCTGAGACT 
GTAGTCACAC CTGAGGCAGC CCCAGAGAAG AACCCTGTGG ATGTGAGAGG GGAAGGAAAT 
GAGACCAACA ATATGGTCAT CACATGGAAG CCCCTTCGGT GGATGGATTG GAATGCCCCC 
CAGATTCAGT ACCGTGTACA GTGGCGACCA CTGGGCAAAC AAGAGACCTG GAAGGAACAG 
ACCGTGAGCG ACCCCTTCCT GGTGGTGTCT AACACTTCCA CATTTGTGCC TTATGAGATC 
AAAGTCCAGG CAGTGAACAA CCAGGGGAAG GGCCCTGAGC CCCAGGTCAC CATTGGCTAT 
TCAGGGGAAG ACTACCCCCA GGTGAGCCCT GAGCTTGAAG ACATCACAAT CTTCAACTCA 
AGCACTGTGC TGGTCAGGTG GAGGCCTGTG GACTTGGCCC AGGTTAAGGG CCACCTCAGG 
GGATACAATG TAACGTACTG GTGGAAGGGC AGTCAGAGAA AGCACAGCAA GAGGCATGTC 
CACAAAAGTC ACATGGTGGT ACCTGCGAAC ACCACCAGTG CCATCCTCAG TGGTTTGCGT 
CCTTACAGCT CTTATCATGT GGAGGTACAG GCCTTTAATG GGCGGGGCTT AGGGCCTGCA 
AGTGAATGGA CCTTCAGCAC CCCAGAGGGA GTGCCTGGCC ACCCTGAGGC ATTACATCTG 
GAGTGCCAGT CGGACACTAG CCTGCTACTG CACTGGCAGC CACCACTCAG CCACAATGGA 
GTGCTCACTG GCTACCTGCT CTCTTACCAT CCCTTGGATG GGGAAAGCAA AGAGCAGTTG 
TTCTTCAACC TTTCGGACCC AGAGCTCCGG ACTCATAATC TCACCAACCT CAACCCTGAT 
CTACAGTACC GCTTCCAGCT TCAGGCCACC ACCCAGCAGG GTCCTGGTGA GGCCATTGTG 
CGTGAAGGAG GCACTATGGC CCTATTTGGC AAGCCAGATT TTGGCAACAT TTCAGTCACA 
GCAGGTGAAA ACTACAGTGT GGTCTCCTGG GTCCCTCGGG AGGGCCAGTG CAATTTCAGG 
TTCCACATCC TGTTCAAAGC CTTGCCAGAA GGGAAAGTGA GCCCTGATCA CCAGCCTCAG 
CCTCAATATG TGAGCTACAA TCAGAGCTCC TACACACAGT GGGACCTACA GCCTGACACC 
AAATATGAGA TCCACCTGAT GAGGGAGAAG GTCCTCTTGC ACCATCTGGC TGTGAAGACT 
AATGGCACTG GCCCCGTGCG AGTTTCTACT ACAGGTAGCT TTGCCTCCGA GGGCTGGTTC 
ATCGCCTTTG TCAGTGCTAT CATTCTCTTG CTCCTCATCC TGCTCATCCT CTGCTTCATC 
AAACGCAGCA AGGGCGGCAA ATATTCAGTG AAGGACAAGG AGGACACTCA GGTAGATTCC 
GAGGCCCGGC CCATGAAAGA CGAGACCTTC GGCGAGTACA GGTCCCTGGA GAGTGACAAT 
GAAGAGAAGG CCTTCGGCAG CAGCCAGCCA TCTCTCAATG GAGACATCAA ACCCCTAGGC 
AGTGATGACA GTCTGGCTGA TTATGGGGGC AGTGTGGATG TCCAGTTCAA TGAGGATGGC 
TCTTTCATCG GCCAATACAG TGGCAAAAAA GAGAAGGAGG CAGCGGGAGG CAATGACAGC 
TCAGGGGCTA CCTCTCCTAT CAATCCTGCA GTAGCCCTAG AATAG

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

L1cam ( XM_017602141.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017457630.1 Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ORa23044
Clone ID Related Accession (Same CDS sequence)	XM_017602141.1
Accession Version	XM_017602141.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3753bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	neural cell adhesion molecule L1 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005120.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATTACT GGAGCCACCT GTCATCACAG AACAGTCTCC ACGGCGCCTG 
GTTGTCTTCC CAACAGATGA CATAAGCCTC AAATGTGAAG CCAGAGGCAG ACCCCAAGTG 
GAGTTCCGCT GGACGAAAGA TGGCATCCAC TTCAAACCTA AGGAAGAATT GGGTGTAGTG 
GTACACGAGG CACCCTATTC TGGCTCCTTC ACCATCGAAG GCAACAACAG CTTTGCCCAG 
AGGTTTCAGG GCATCTATCG CTGCTATGCC AGCAATAATC TAGGAACTGC CATGTCGCAT 
GAGATCCAGC TCGTGGCTGA GGGTGCCCCC AAATGGCCGA AGGAGACTGT AAAACCCGTG 
GAAGTGGAGG AAGGAGAATC AGTAGTTCTA CCTTGCAATC CTCCACCCAG TGCAGCCCCA 
CTTAGGATCT ACTGGATGAA CAGCAAGATT TTGCACATCA AACAAGATGA GCGGGTGTCC 
ATGGGCCAGA ACGGAGACCT ATATTTTGCC AATGTGCTTA CCTCAGACAA TCATTCAGAC 
TACATCTGCA ATGCCCACTT CCCTGGCACC CGGACCATCA TTCAAAAGGA ACCTATTGAC 
CTCCGGGTCA AGCCCACCAA CAGCATGATT GACCGGAAGC CACGCCTGCT CTTCCCCACA 
AACTCCAGCA GTCACCTCGT GGCCTTGCAG GGCCAGTCAT TAATCCTGGA GTGCATTGCT 
GAGGGATTCC CTACACCCAC CATCAAGTGG CTGCACCCCA GTGACCCTAT GCCAACAGAC 
CGTGTTATCT ACCAGAACCA TAACAAGACA CTGCAGCTCC TCAATGTGGG CGAGGAAGAT 
GATGGCGAGT ATACCTGCCT TGCTGAGAAC TCACTGGGCA GTGCTCGGCA TGCCTACTAT 
GTCACTGTGG AAGCTGCCCC ATACTGGCTG CAGAAGCCCC AGAGTCATTT GTATGGGCCA 
GGAGAGACTG CCCGCCTAGA CTGCCAAGTC CAGGGCAGGC CCCAACCAGA GGTCACCTGG 
AGAATCAACG GAATGTCTAT AGAGAAGGTG AACAAGGACC AGAAGTACCG GATTGAGCAG 
GGGTCTTTGA TCCTGAGTAA TGTGCAACCA AGTGACACAA TGGTGACCCA GTGTGAAGCT 
CGCAACCAGC ATGGGCTCCT ACTAGCCAAT GCCTATATCT ATGTTGTCCA GCTGCCAGCC 
AGGATCCTAA CAAAAGACAA TCAGACATAC ATGGCAGTAG AGGGCAGTAC TGCTTACTTG 
CTGTGCAAAG CCTTTGGAGC TCCTGTTCCC AGTGTCCAGT GGCTGGATGA GGAAGGAACC 
ACAGTGCTTC AGGATGAAAG ATTTTTCCCC TATGCCAATG GAACGCTGGG CATCAGAGAT 
CTCCAGGCCA ATGACACTGG ACGCTATTTC TGCCAGGCTG CCAATGACCA GAACAATGTG 
ACCATTTTGG CTAACCTACA GGTTAAAGAA GCAACCCAGA TCACACAAGG ACCCCGGAGC 
ACAATTGAGA AGAAAGGTGC AAGGGTGACA TTCACGTGCC AGGCCTCCTT TGACCCCTCT 
TTACAAGCCA GCATCACTTG GCGTGGAGAT GGGAGAGACC TCCAGGAACG TGGAGACAGT 
GACAAGTATT TCATAGAAGA TGGGCAACTT GTCATCCAGA GCCTGGACTA CAGTGACCAG 
GGCAACTACA GTTGTGTGGC CAGCACTGAA CTGGATGAGG TGGAGAGCAG GGCACAACTC 
TTAGTGGTGG GAAGCCCTGG GCCAGTGCCT CACCTGGAGC TGTCCGACCG CCACTTGCTG 
AAGCAGAGCC AGGTGCACTT GTCTTGGAGC CCTGCTGAAG ACCACAACTC TCCCATTGAG 
AAATATGACA TTGAATTTGA GGACAAGGAA ATGGCTCCTG AGAAATGGTT CAGTCTAGGC 
AAGGTGCCAG GAAATCAGAC CTCTACTACC CTCAAGCTGT CCCCCTATGT CCACTATACC 
TTTCGGGTCA CTGCCATTAA CAAATATGGT TCCGGAGAAC CCAGCCCTGT CTCTGAGACT 
GTAGTCACAC CTGAGGCAGC CCCAGAGAAG AACCCTGTGG ATGTGAGAGG GGAAGGAAAT 
GAGACCAACA ATATGGTCAT CACATGGAAG CCCCTTCGGT GGATGGATTG GAATGCCCCC 
CAGATTCAGT ACCGTGTACA GTGGCGACCA CTGGGCAAAC AAGAGACCTG GAAGGAACAG 
ACCGTGAGCG ACCCCTTCCT GGTGGTGTCT AACACTTCCA CATTTGTGCC TTATGAGATC 
AAAGTCCAGG CAGTGAACAA CCAGGGGAAG GGCCCTGAGC CCCAGGTCAC CATTGGCTAT 
TCAGGGGAAG ACTACCCCCA GGTGAGCCCT GAGCTTGAAG ACATCACAAT CTTCAACTCA 
AGCACTGTGC TGGTCAGGTG GAGGCCTGTG GACTTGGCCC AGGTTAAGGG CCACCTCAGG 
GGATACAATG TAACGTACTG GTGGAAGGGC AGTCAGAGAA AGCACAGCAA GAGGCATGTC 
CACAAAAGTC ACATGGTGGT ACCTGCGAAC ACCACCAGTG CCATCCTCAG TGGTTTGCGT 
CCTTACAGCT CTTATCATGT GGAGGTACAG GCCTTTAATG GGCGGGGCTT AGGGCCTGCA 
AGTGAATGGA CCTTCAGCAC CCCAGAGGGA GTGCCTGGCC ACCCTGAGGC ATTACATCTG 
GAGTGCCAGT CGGACACTAG CCTGCTACTG CACTGGCAGC CACCACTCAG CCACAATGGA 
GTGCTCACTG GCTACCTGCT CTCTTACCAT CCCTTGGATG GGGAAAGCAA AGAGCAGTTG 
TTCTTCAACC TTTCGGACCC AGAGCTCCGG ACTCATAATC TCACCAACCT CAACCCTGAT 
CTACAGTACC GCTTCCAGCT TCAGGCCACC ACCCAGCAGG GTCCTGGTGA GGCCATTGTG 
CGTGAAGGAG GCACTATGGC CCTATTTGGC AAGCCAGATT TTGGCAACAT TTCAGTCACA 
GCAGGTGAAA ACTACAGTGT GGTCTCCTGG GTCCCTCGGG AGGGCCAGTG CAATTTCAGG 
TTCCACATCC TGTTCAAAGC CTTGCCAGAA GGGAAAGTGA GCCCTGATCA CCAGCCTCAG 
CCTCAATATG TGAGCTACAA TCAGAGCTCC TACACACAGT GGGACCTACA GCCTGACACC 
AAATATGAGA TCCACCTGAT GAGGGAGAAG GTCCTCTTGC ACCATCTGGC TGTGAAGACT 
AATGGCACTG GCCCCGTGCG AGTTTCTACT ACAGGTAGCT TTGCCTCCGA GGGCTGGTTC 
ATCGCCTTTG TCAGTGCTAT CATTCTCTTG CTCCTCATCC TGCTCATCCT CTGCTTCATC 
AAACGCAGCA AGGGCGGCAA ATATTCAGTG AAGGACAAGG AGGACACTCA GGTAGATTCC 
GAGGCCCGGC CCATGAAAGA CGAGACCTTC GGCGAGTACA GTGACAATGA AGAGAAGGCC 
TTCGGCAGCA GCCAGCCATC TCTCAATGGA GACATCAAAC CCCTAGGCAG TGATGACAGT 
CTGGCTGATT ATGGGGGCAG TGTGGATGTC CAGTTCAATG AGGATGGCTC TTTCATCGGC 
CAATACAGTG GCAAAAAAGA GAAGGAGGCA GCGGGAGGCA ATGACAGCTC AGGGGCTACC 
TCTCCTATCA ATCCTGCAGT AGCCCTAGAA TAG

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

RefSeq	XP_017457630.1
CDS	264..4016
Translation	MVMMLWYVLPLLLCSPCLLIQIPDELLEPPVITEQSPRRLVVFPTDDISLKCEARGRPQVEFRWTKDGIHFKPKEELGVVVHEAPYSGSFTIEGNNSFAQRFQGIYRCYASNNLGTAMSHEIQLVAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAAPLRIYWMNSKILHIKQDERVSMGQNGDLYFANVLTSDNHSDYICNAHFPGTRTIIQKEPIDLRVKPTNSMIDRKPRLLFPTNSSSHLVALQGQSLILECIAEGFPTPTIKWLHPSDPMPTDRVIYQNHNKTLQLLNVGEEDDGEYTCLAENSLGSARHAYYVTVEAAPYWLQKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGMSIEKVNKDQKYRIEQGSLILSNVQPSDTMVTQCEARNQHGLLLANAYIYVVQLPARILTKDNQTYMAVEGSTAYLLCKAFGAPVPSVQWLDEEGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCQAANDQNNVTILANLQVKEATQITQGPRSTIEKKGARVTFTCQASFDPSLQASITWRGDGRDLQERGDSDKYFIEDGQLVIQSLDYSDQGNYSCVASTELDEVESRAQLLVVGSPGPVPHLELSDRHLLKQSQVHLSWSPAEDHNSPIEKYDIEFEDKEMAPEKWFSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGSGEPSPVSETVVTPEAAPEKNPVDVRGEGNETNNMVITWKPLRWMDWNAPQIQYRVQWRPLGKQETWKEQTVSDPFLVVSNTSTFVPYEIKVQAVNNQGKGPEPQVTIGYSGEDYPQVSPELEDITIFNSSTVLVRWRPVDLAQVKGHLRGYNVTYWWKGSQRKHSKRHVHKSHMVVPANTTSAILSGLRPYSSYHVEVQAFNGRGLGPASEWTFSTPEGVPGHPEALHLECQSDTSLLLHWQPPLSHNGVLTGYLLSYHPLDGESKEQLFFNLSDPELRTHNLTNLNPDLQYRFQLQATTQQGPGEAIVREGGTMALFGKPDFGNISVTAGENYSVVSWVPREGQCNFRFHILFKALPEGKVSPDHQPQPQYVSYNQSSYTQWDLQPDTKYEIHLMREKVLLHHLAVKTNGTGPVRVSTTGSFASEGWFIAFVSAIILLLLILLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGATSPINPAVALE

Target ORF information:

RefSeq Version	XM_017602141.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus L1 cell adhesion molecule (L1cam), transcript variant X4, mRNA.

Target ORF information:

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

XM_017602141.1

ORF Insert Sequence:

ATGGTCATGA TGCTGTGGTA CGTGTTGCCT CTTCTCCTCT GCAGCCCCTG CCTGCTCATA 
CAGATTCCTG ATGAATTACT GGAGCCACCT GTCATCACAG AACAGTCTCC ACGGCGCCTG 
GTTGTCTTCC CAACAGATGA CATAAGCCTC AAATGTGAAG CCAGAGGCAG ACCCCAAGTG 
GAGTTCCGCT GGACGAAAGA TGGCATCCAC TTCAAACCTA AGGAAGAATT GGGTGTAGTG 
GTACACGAGG CACCCTATTC TGGCTCCTTC ACCATCGAAG GCAACAACAG CTTTGCCCAG 
AGGTTTCAGG GCATCTATCG CTGCTATGCC AGCAATAATC TAGGAACTGC CATGTCGCAT 
GAGATCCAGC TCGTGGCTGA GGGTGCCCCC AAATGGCCGA AGGAGACTGT AAAACCCGTG 
GAAGTGGAGG AAGGAGAATC AGTAGTTCTA CCTTGCAATC CTCCACCCAG TGCAGCCCCA 
CTTAGGATCT ACTGGATGAA CAGCAAGATT TTGCACATCA AACAAGATGA GCGGGTGTCC 
ATGGGCCAGA ACGGAGACCT ATATTTTGCC AATGTGCTTA CCTCAGACAA TCATTCAGAC 
TACATCTGCA ATGCCCACTT CCCTGGCACC CGGACCATCA TTCAAAAGGA ACCTATTGAC 
CTCCGGGTCA AGCCCACCAA CAGCATGATT GACCGGAAGC CACGCCTGCT CTTCCCCACA 
AACTCCAGCA GTCACCTCGT GGCCTTGCAG GGCCAGTCAT TAATCCTGGA GTGCATTGCT 
GAGGGATTCC CTACACCCAC CATCAAGTGG CTGCACCCCA GTGACCCTAT GCCAACAGAC 
CGTGTTATCT ACCAGAACCA TAACAAGACA CTGCAGCTCC TCAATGTGGG CGAGGAAGAT 
GATGGCGAGT ATACCTGCCT TGCTGAGAAC TCACTGGGCA GTGCTCGGCA TGCCTACTAT 
GTCACTGTGG AAGCTGCCCC ATACTGGCTG CAGAAGCCCC AGAGTCATTT GTATGGGCCA 
GGAGAGACTG CCCGCCTAGA CTGCCAAGTC CAGGGCAGGC CCCAACCAGA GGTCACCTGG 
AGAATCAACG GAATGTCTAT AGAGAAGGTG AACAAGGACC AGAAGTACCG GATTGAGCAG 
GGGTCTTTGA TCCTGAGTAA TGTGCAACCA AGTGACACAA TGGTGACCCA GTGTGAAGCT 
CGCAACCAGC ATGGGCTCCT ACTAGCCAAT GCCTATATCT ATGTTGTCCA GCTGCCAGCC 
AGGATCCTAA CAAAAGACAA TCAGACATAC ATGGCAGTAG AGGGCAGTAC TGCTTACTTG 
CTGTGCAAAG CCTTTGGAGC TCCTGTTCCC AGTGTCCAGT GGCTGGATGA GGAAGGAACC 
ACAGTGCTTC AGGATGAAAG ATTTTTCCCC TATGCCAATG GAACGCTGGG CATCAGAGAT 
CTCCAGGCCA ATGACACTGG ACGCTATTTC TGCCAGGCTG CCAATGACCA GAACAATGTG 
ACCATTTTGG CTAACCTACA GGTTAAAGAA GCAACCCAGA TCACACAAGG ACCCCGGAGC 
ACAATTGAGA AGAAAGGTGC AAGGGTGACA TTCACGTGCC AGGCCTCCTT TGACCCCTCT 
TTACAAGCCA GCATCACTTG GCGTGGAGAT GGGAGAGACC TCCAGGAACG TGGAGACAGT 
GACAAGTATT TCATAGAAGA TGGGCAACTT GTCATCCAGA GCCTGGACTA CAGTGACCAG 
GGCAACTACA GTTGTGTGGC CAGCACTGAA CTGGATGAGG TGGAGAGCAG GGCACAACTC 
TTAGTGGTGG GAAGCCCTGG GCCAGTGCCT CACCTGGAGC TGTCCGACCG CCACTTGCTG 
AAGCAGAGCC AGGTGCACTT GTCTTGGAGC CCTGCTGAAG ACCACAACTC TCCCATTGAG 
AAATATGACA TTGAATTTGA GGACAAGGAA ATGGCTCCTG AGAAATGGTT CAGTCTAGGC 
AAGGTGCCAG GAAATCAGAC CTCTACTACC CTCAAGCTGT CCCCCTATGT CCACTATACC 
TTTCGGGTCA CTGCCATTAA CAAATATGGT TCCGGAGAAC CCAGCCCTGT CTCTGAGACT 
GTAGTCACAC CTGAGGCAGC CCCAGAGAAG AACCCTGTGG ATGTGAGAGG GGAAGGAAAT 
GAGACCAACA ATATGGTCAT CACATGGAAG CCCCTTCGGT GGATGGATTG GAATGCCCCC 
CAGATTCAGT ACCGTGTACA GTGGCGACCA CTGGGCAAAC AAGAGACCTG GAAGGAACAG 
ACCGTGAGCG ACCCCTTCCT GGTGGTGTCT AACACTTCCA CATTTGTGCC TTATGAGATC 
AAAGTCCAGG CAGTGAACAA CCAGGGGAAG GGCCCTGAGC CCCAGGTCAC CATTGGCTAT 
TCAGGGGAAG ACTACCCCCA GGTGAGCCCT GAGCTTGAAG ACATCACAAT CTTCAACTCA 
AGCACTGTGC TGGTCAGGTG GAGGCCTGTG GACTTGGCCC AGGTTAAGGG CCACCTCAGG 
GGATACAATG TAACGTACTG GTGGAAGGGC AGTCAGAGAA AGCACAGCAA GAGGCATGTC 
CACAAAAGTC ACATGGTGGT ACCTGCGAAC ACCACCAGTG CCATCCTCAG TGGTTTGCGT 
CCTTACAGCT CTTATCATGT GGAGGTACAG GCCTTTAATG GGCGGGGCTT AGGGCCTGCA 
AGTGAATGGA CCTTCAGCAC CCCAGAGGGA GTGCCTGGCC ACCCTGAGGC ATTACATCTG 
GAGTGCCAGT CGGACACTAG CCTGCTACTG CACTGGCAGC CACCACTCAG CCACAATGGA 
GTGCTCACTG GCTACCTGCT CTCTTACCAT CCCTTGGATG GGGAAAGCAA AGAGCAGTTG 
TTCTTCAACC TTTCGGACCC AGAGCTCCGG ACTCATAATC TCACCAACCT CAACCCTGAT 
CTACAGTACC GCTTCCAGCT TCAGGCCACC ACCCAGCAGG GTCCTGGTGA GGCCATTGTG 
CGTGAAGGAG GCACTATGGC CCTATTTGGC AAGCCAGATT TTGGCAACAT TTCAGTCACA 
GCAGGTGAAA ACTACAGTGT GGTCTCCTGG GTCCCTCGGG AGGGCCAGTG CAATTTCAGG 
TTCCACATCC TGTTCAAAGC CTTGCCAGAA GGGAAAGTGA GCCCTGATCA CCAGCCTCAG 
CCTCAATATG TGAGCTACAA TCAGAGCTCC TACACACAGT GGGACCTACA GCCTGACACC 
AAATATGAGA TCCACCTGAT GAGGGAGAAG GTCCTCTTGC ACCATCTGGC TGTGAAGACT 
AATGGCACTG GCCCCGTGCG AGTTTCTACT ACAGGTAGCT TTGCCTCCGA GGGCTGGTTC 
ATCGCCTTTG TCAGTGCTAT CATTCTCTTG CTCCTCATCC TGCTCATCCT CTGCTTCATC 
AAACGCAGCA AGGGCGGCAA ATATTCAGTG AAGGACAAGG AGGACACTCA GGTAGATTCC 
GAGGCCCGGC CCATGAAAGA CGAGACCTTC GGCGAGTACA GTGACAATGA AGAGAAGGCC 
TTCGGCAGCA GCCAGCCATC TCTCAATGGA GACATCAAAC CCCTAGGCAG TGATGACAGT 
CTGGCTGATT ATGGGGGCAG TGTGGATGTC CAGTTCAATG AGGATGGCTC TTTCATCGGC 
CAATACAGTG GCAAAAAAGA GAAGGAGGCA GCGGGAGGCA ATGACAGCTC AGGGGCTACC 
TCTCCTATCA ATCCTGCAGT AGCCCTAGAA TAG

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

PubMed

Glycoproteomics Reveals Decorin Peptides With Anti-Myostatin Activity in Human Atrial Fibrillation.
Circulation134(11)817-32(2016 Sep)
Barallobre-Barreiro J,Gupta SK,Zoccarato A,Kitazume-Taneike R,Fava M,Yin X,Werner T,Hirt MN,Zampetaki A,Viviano A,Chong M,Bern M,Kourliouros A,Domenech N,Willeit P,Shah AM,Jahangiri M,Schaefer L,Fischer JW,Iozzo RV,Viner R,Thum T,Heineke J,Kichler A,Otsu K,Mayr M

Toluene disruption of the functions of L1 cell adhesion molecule at concentrations associated with occupational exposures.
Pediatric research80(1)145-50(2016 07)
White KM,Sabatino JA,He M,Davis N,Tang N,Bearer CF

Heterozygous L1-deficient mice express an autism-like phenotype.
Behavioural brain research292432-42(2015 Oct)
Sauce B,Wass C,Netrakanti M,Saylor J,Schachner M,Matzel LD

miR-29a modulates neuronal differentiation through targeting REST in mesenchymal stem cells.
PloS one9(5)e97684(2014)
Duan P,Sun S,Li B,Huang C,Xu Y,Han X,Xing Y,Yan W

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L1cam cDNA ORF clone, Rattus norvegicus(Norway rat)

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:

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