Lars1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Lars1
Entrez Gene ID	291624
Full Name	leucyl-tRNA synthetase
General protein information	Preferred Names leucyl-tRNA synthetase Names leucine--tRNA ligase, cytoplasmic leucyl-tRNA synthetase, cytoplasmic
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 18 Map Location: 18p11

mRNA and Protein(s)

mRNA	Protein	Name
XM_006254672.3	XP_006254734.1	leucine--tRNA ligase, cytoplasmic isoform X1
NM_001009637.1	NP_001009637.1	leucine--tRNA ligase, cytoplasmic

Pathways from BioSystems

Homologies

Homo sapiens (human)	LARS	NP_064502.9
Drosophila melanogaster (fruit fly)	CG33123	NP_787968.1
Neurospora crassa	NCU09463	XP_963218.1
Oryza sativa (rice)	Os09g0378300	NP_001063048.1
Rattus norvegicus (Norway rat)	Lars	NP_001009637.1
Danio rerio (zebrafish)	larsb	XP_698279.5
Caenorhabditis elegans (roundworm)	lars-1	NP_497837.1
Saccharomyces cerevisiae (baker's yeast)	CDC60	NP_015165.1
Arabidopsis thaliana (thale cress)	AT1G09620	NP_172433.2
Oryza sativa (rice)	Os09g0503400	NP_001063593.2
Xenopus tropicalis (tropical clawed frog)	lars	NP_001015831.1
Canis lupus familiaris (dog)	LARS	XP_535229.3
Mus musculus (house mouse)	Lars	NP_598898.2
Gallus gallus (chicken)	LARS	XP_414663.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP008297	XP_317169.2
Kluyveromyces lactis	KLLA0D06105g	XP_453334.1
Magnaporthe oryzae (rice blast fungus)	MGG_02432	XP_003709219.1
Pan troglodytes (chimpanzee)	LARS	XP_001157096.1
Bos taurus (cattle)	LARS	NP_001095962.1
Eremothecium gossypii	AGOS_AAL088W	NP_982454.2
Schizosaccharomyces pombe (fission yeast)	lrs1	NP_594882.1

Gene Ontology
Bibliography

Related articles in PubMed

The EARP Complex and Its Interactor EIPR-1 Are Required for Cargo Sorting to Dense-Core Vesicles.
Topalidou I, Cattin-Ortol? J, Pappas AL, Cooper K, Merrihew GE, MacCoss MJ, Ailion M
PLoS genetics12(5)e1006074(2016 May)

The crystal structure of human GlnRS provides basis for the development of neurological disorders.
Ognjenovi? J, Wu J, Matthies D, Baxa U, Subramaniam S, Ling J, Simonovi? M
Nucleic acids research44(7)3420-31(2016 Apr)

Leucyl-tRNA synthetase is an intracellular leucine sensor for the mTORC1-signaling pathway.
Han JM, Jeong SJ, Park MC, Kim G, Kwon NH, Kim HK, Ha SH, Ryu SH, Kim S
Cell149(2)410-24(2012 Apr)

Dynamic Organization of Aminoacyl-tRNA Synthetase Complexes in the Cytoplasm of Human Cells.
Kaminska M, Havrylenko S, Decottignies P, Le Mar?chal P, Negrutskii B, Mirande M
The Journal of biological chemistry284(20)13746-54(2009 May)

Dissection of the structural organization of the aminoacyl-tRNA synthetase complex.
Kaminska M, Havrylenko S, Decottignies P, Gillet S, Le Mar?chal P, Negrutskii B, Mirande M
The Journal of biological chemistry284(10)6053-60(2009 Mar)

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

The following Lars1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Lars1 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
ORa00645	NM_001009637.1 Latest version!	Rattus norvegicus leucyl-tRNA synthetase 1 (Lars1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	16	$867.30 $1239.00
ORa38354	XM_006254672.3 Latest version!	Rattus norvegicus leucyl-tRNA synthetase (Lars), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00

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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)

Lars1 ( NM_001009637.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001009637.1 Rattus norvegicus leucyl-tRNA synthetase 1 (Lars1), mRNA.

Price & Availability↑

CloneID	ORa00645
Clone ID Related Accession (Same CDS sequence)	NM_001009637.1
Accession Version	NM_001009637.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3537bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-12
Organism	Rattus norvegicus(Norway rat)
Product	leucine--tRNA ligase, cytoplasmic
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC087655.1. On Jan 13, 2005 this sequence version replaced XM_214566.2. ##Evidence-Data-START## Transcript exon combination :: BC087655.1, FQ212494.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END##

ATGGCGGAAA GAAAAGGAAC AGCCAAAGTA GACTTCTTGA AGAAGATTGA GAAAGAAGTC 
CAGCAGAAAT GGGAAGCGGA GAAAGTGTTT GAAGTCAGCG CGTCTTCACT GGAGAAGCAG 
AAGCAGAGCA GCAAGGGCAA ATACTTTGTC ACCTTTCCAT ATCCATACAT GAATGGACGC 
CTTCATTTGG GACACACGTT TTCCTTATCC AAGTGTGAGT TTGCAGTAGG ATACCAGAGA 
TTAAAAGGAA AAAGCTGTCT GTTCCCCTTC GGGTTACACT GTACCGGTAT GCCTATTAAG 
GCATGTGCTG ACAAGCTGAA AAGGGAGATA GAGCTGTATG GCTGCCCTCC TGATTTTCCA 
GAGGAGGAGG AGGAAGAGGA AGAAAGCAGT GCTAAACCTG GAGATATAGT AATGAAGGAT 
AAAGCCAAAG GGAAAAAGAG TAAAGCCGCT GCTAAAGCAG GATCTTCTAA GTACCAGTGG 
AACATTATGA AATCCCTTGG GCTCTCTGAT GAAGACATCG CGAAGTTTTC TGAAGCAGAA 
CATTGGCTTG ATTATTTCCC ACCACTGGCT GTTCAGGATC TGAAGAAAAT AGGTTTGAAG 
GTAGACTGGC GGCGTTCCTT CATCACCACG GATGTGAATC CTTACTATGA TTCTTTTGTC 
AGGTGGCAAT TTTTAACTTT AAGAGAAAGA AATAAAATTA AATTCGGGAA GCGGTACACT 
ATTTATTCCC CAAAAGATGG ACAGCCTTGC ATGGATCATG ACAGACAAAC CGGAGAGGGT 
GTTGGACCTC AGGAATATAC CCTAGTCAAA CTGAAGGTGC TTGATCCATA CCCATCAAAA 
TTAAGTGGCC TGAAAGGGAA AAATATCTTC CTAGTAGCTG CCACACTCAG ACCTGAGACT 
ATGTTTGGAC AGACAAATTG TTGGGTTCGG CCTGATATGA AATACATTGG GTTTGAGACA 
GCAAATGGAG ACATATTCAT CTGTACCCAG AGAGCAGCCA GGAATATGTC ATACCAAGGC 
TTCACCAAGC ACAATGGCGT GGTGCCGGTT GTGAAGGAGT TAATGGGAGA GGAAATCCTT 
GGGGCTTCAC TTTCTGCACC CCTGACATGC TATAAGGTGA TCTATGTTCT CCCTATGCTG 
ACCATTAAGG AGGATAAAGG CACTGGGGTG GTCACAAGCG TTCCTTCTGA TTCCCCGGAT 
GATTTTGCGG CACTCAGAGA CTTGAAGAAA AAGCAAGCCT TACGAGCAAA GTATGCAGTC 
AGAGATGACA TGGTCCTGCC CTTTGAACCG GTGCCAGTCC TTGAAATCCC AGGGATTGGA 
AATCTTCCTG CTGTGACCGT TTGTGACGAA CTGAAAATTC AGAGCCAGAA TGACCGTGAA 
AAACTTGCAG AGGCAAAGGA GAAATTGTAT CTAAGAGGAT TTTATGATGG TGTAATGCTA 
GTGGATGGAT TTAAAGGGCA GAAGATCCAA CATGTAAAGA AGACTATTCA GAAAAACATG 
ATTGATGCTG GAGATGCGCT TATCTACATG GAGCCAGAAA AACAAGTGGT GTCGAGGTCT 
GCAGATGAGT GTGTTGTGGC CCTGTGTGAC CAATGGTACT TGGATTATGG AGATGAGAAC 
TGGAAGAAAC AGACATTTCA GTGCCTGAAG AACATGGAAA CATTCTGCGA GGAGAGCAGG 
AAGAATTTTG AAGCTTCCTT AGACTGGCTG CAAGAACATG CCTGCTCAAG AACTTACGGT 
TTAGGCACGC GTCTGCCTTG GGATGAGCAG TGGTTGATTG AATCCCTCTC AGACTCCACT 
ATTTACATGG CGTTTTACAC AGTTGCACAC CTGTTGCAGG GGGGTGACCT GCAGGGTCAG 
GCGGAGTCTC CACTGGGCAT CAGACCCCAG CAGATGACGA GGGATGTTTG GGATTATGTG 
TTCTTCAAGG ATGCTCCATT TCCCAAGACT CAGATCCCAA AGGAAAAGCT GGATCAGCTG 
AAGCAGGAAT TTGAGTTTTG GTATCCAGTG GACCTTCGAG CCTCTGGCAA GGATCTGATT 
CCAAATCATC TTTCATATTA CATTTACAAT CATGTGGCCA TGTGGCCAGA ACAAAGCGAC 
AAGTGGCCTG TATCCGTTCG AGCAAATGGA CACCTGCTGC TCAACTCCGA GAAGATGTCA 
AAATCTACGG GAAACTTCCT CACTTTGAGC CAAGCTGTTG ACAAGTTTTC CGCTGATGGA 
ATGCGCCTGG CTCTGGCTGA TGCTGGCGAC ACTGTTGAAG ATGCTAACTT TGTGGAAGCT 
ATGGCAGACG CAGGCATTCT CCGTCTGTAC ACATGGGTAG AGTGGGTCAA AGAAATGCTT 
GCCAACTGCA GCAGCCTGAG AAGTGGACCT GCCAACTCAT TCAATGATCG TGTGTTTGCC 
AGTGAAATGA ATGCAGGAAT TATAAAAACA GATCAAAACT ATGAAAAGAT GATGTTTAAA 
GAAGCGTTGA AAACAGGTTT TTTTGAGTTT CAGGCTGCGA AAGACAAGTA CCGTGAACTG 
GCCACAGAGG GGATGCACAG AGAGCTTGTG TTCCGGTTTA TTGAAGTTCA AACAATCCTT 
CTGACTCCAT TCTGTCCACA TTTGTGTGAG CACATCTGGA CACTGCTGGG AAAGCCTGAT 
TCAATTATGC ATGCCTCATG GCCTGTGGCA GGTCCCGTGG ATGAATCCCT GATTCGTTCC 
TCACAGTACC TCATGGAAGT AGCACACGAC CTTAGATTAC GGCTCAAGAA TTACATGACG 
CCAGCTAAAG GGAAGAAGAC GGACAAGCAA CCAGTTCAGA GGCCCTCACA CTGCACCATC 
TATGTGGCAA AGAACTACCC TGTCTGGCAG CACATTACCC TGACAACCCT ACGGAGCCAC 
TTTGAGGCTA ACAATGGAAA ATTGCCTGAT AACAAAGTCA TCGCTTGTGA ACTAGGCAGT 
TTGCCAGAAC TGAAGAAATA TATGAAGAAA GTTATGCCAT TTGTTGCCAT GATTAAGGAA 
AACATGGAGA AGAAAGGGCC GCGAGTCTTG GATTTAGAGT TGGAATTTGA TGAGCAGGCA 
GTCCTTATGG AGAATATAGT CTACCTAACC AATTCTCTTG AGCTGGAACA TATAGACGTC 
AAGTTTGCCT CTGAAGCTGA AGATAAAGTC AGGGAAGAGT GCTGTCCTGG GAAGCCACTT 
AATGTTTTCA GAACAGAACC TGGTGTGCCA GTTTCCCTAG TAAATCCTCA GCCATCCAGC 
GGGCACTTCT CTACCAAAAT CGACATCAGA CAAGGAGATA GCTGTGAGTC CATAATCAGA 
CGCCTGACGA AAATGGACCG AGGAATCAAA GATCTCTCCA AAGTGAAACT CATGCGCTTT 
GATGATCCTC TGTTGGGGCC TCGACGAGTT CCAGTCCTGG GGAGAGAGCA GAACGAGAAG 
ACACTCATTT CTGAGAATGC CATTTTCCAC GTGGACCTAG TGAGCAAGAA AGTTCACCTT 
ACTGAGAACG GGCTGCGCGC AGACATCGGT GACACAATAG TCTATCTGGT TCACTGA

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

RefSeq	NP_001009637.1
CDS	115..3651
Translation	MAERKGTAKVDFLKKIEKEVQQKWEAEKVFEVSASSLEKQKQSSKGKYFVTFPYPYMNGRLHLGHTFSLSKCEFAVGYQRLKGKSCLFPFGLHCTGMPIKACADKLKREIELYGCPPDFPEEEEEEEESSAKPGDIVMKDKAKGKKSKAAAKAGSSKYQWNIMKSLGLSDEDIAKFSEAEHWLDYFPPLAVQDLKKIGLKVDWRRSFITTDVNPYYDSFVRWQFLTLRERNKIKFGKRYTIYSPKDGQPCMDHDRQTGEGVGPQEYTLVKLKVLDPYPSKLSGLKGKNIFLVAATLRPETMFGQTNCWVRPDMKYIGFETANGDIFICTQRAARNMSYQGFTKHNGVVPVVKELMGEEILGASLSAPLTCYKVIYVLPMLTIKEDKGTGVVTSVPSDSPDDFAALRDLKKKQALRAKYAVRDDMVLPFEPVPVLEIPGIGNLPAVTVCDELKIQSQNDREKLAEAKEKLYLRGFYDGVMLVDGFKGQKIQHVKKTIQKNMIDAGDALIYMEPEKQVVSRSADECVVALCDQWYLDYGDENWKKQTFQCLKNMETFCEESRKNFEASLDWLQEHACSRTYGLGTRLPWDEQWLIESLSDSTIYMAFYTVAHLLQGGDLQGQAESPLGIRPQQMTRDVWDYVFFKDAPFPKTQIPKEKLDQLKQEFEFWYPVDLRASGKDLIPNHLSYYIYNHVAMWPEQSDKWPVSVRANGHLLLNSEKMSKSTGNFLTLSQAVDKFSADGMRLALADAGDTVEDANFVEAMADAGILRLYTWVEWVKEMLANCSSLRSGPANSFNDRVFASEMNAGIIKTDQNYEKMMFKEALKTGFFEFQAAKDKYRELATEGMHRELVFRFIEVQTILLTPFCPHLCEHIWTLLGKPDSIMHASWPVAGPVDESLIRSSQYLMEVAHDLRLRLKNYMTPAKGKKTDKQPVQRPSHCTIYVAKNYPVWQHITLTTLRSHFEANNGKLPDNKVIACELGSLPELKKYMKKVMPFVAMIKENMEKKGPRVLDLELEFDEQAVLMENIVYLTNSLELEHIDVKFASEAEDKVREECCPGKPLNVFRTEPGVPVSLVNPQPSSGHFSTKIDIRQGDSCESIIRRLTKMDRGIKDLSKVKLMRFDDPLLGPRRVPVLGREQNEKTLISENAIFHVDLVSKKVHLTENGLRADIGDTIVYLVH

Target ORF information:

RefSeq Version	NM_001009637.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus leucyl-tRNA synthetase 1 (Lars1), mRNA.

Target ORF information:

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

NM_001009637.1

ORF Insert Sequence:

ATGGCGGAAA GAAAAGGAAC AGCCAAAGTA GACTTCTTGA AGAAGATTGA GAAAGAAGTC 
CAGCAGAAAT GGGAAGCGGA GAAAGTGTTT GAAGTCAGCG CGTCTTCACT GGAGAAGCAG 
AAGCAGAGCA GCAAGGGCAA ATACTTTGTC ACCTTTCCAT ATCCATACAT GAATGGACGC 
CTTCATTTGG GACACACGTT TTCCTTATCC AAGTGTGAGT TTGCAGTAGG ATACCAGAGA 
TTAAAAGGAA AAAGCTGTCT GTTCCCCTTC GGGTTACACT GTACCGGTAT GCCTATTAAG 
GCATGTGCTG ACAAGCTGAA AAGGGAGATA GAGCTGTATG GCTGCCCTCC TGATTTTCCA 
GAGGAGGAGG AGGAAGAGGA AGAAAGCAGT GCTAAACCTG GAGATATAGT AATGAAGGAT 
AAAGCCAAAG GGAAAAAGAG TAAAGCCGCT GCTAAAGCAG GATCTTCTAA GTACCAGTGG 
AACATTATGA AATCCCTTGG GCTCTCTGAT GAAGACATCG CGAAGTTTTC TGAAGCAGAA 
CATTGGCTTG ATTATTTCCC ACCACTGGCT GTTCAGGATC TGAAGAAAAT AGGTTTGAAG 
GTAGACTGGC GGCGTTCCTT CATCACCACG GATGTGAATC CTTACTATGA TTCTTTTGTC 
AGGTGGCAAT TTTTAACTTT AAGAGAAAGA AATAAAATTA AATTCGGGAA GCGGTACACT 
ATTTATTCCC CAAAAGATGG ACAGCCTTGC ATGGATCATG ACAGACAAAC CGGAGAGGGT 
GTTGGACCTC AGGAATATAC CCTAGTCAAA CTGAAGGTGC TTGATCCATA CCCATCAAAA 
TTAAGTGGCC TGAAAGGGAA AAATATCTTC CTAGTAGCTG CCACACTCAG ACCTGAGACT 
ATGTTTGGAC AGACAAATTG TTGGGTTCGG CCTGATATGA AATACATTGG GTTTGAGACA 
GCAAATGGAG ACATATTCAT CTGTACCCAG AGAGCAGCCA GGAATATGTC ATACCAAGGC 
TTCACCAAGC ACAATGGCGT GGTGCCGGTT GTGAAGGAGT TAATGGGAGA GGAAATCCTT 
GGGGCTTCAC TTTCTGCACC CCTGACATGC TATAAGGTGA TCTATGTTCT CCCTATGCTG 
ACCATTAAGG AGGATAAAGG CACTGGGGTG GTCACAAGCG TTCCTTCTGA TTCCCCGGAT 
GATTTTGCGG CACTCAGAGA CTTGAAGAAA AAGCAAGCCT TACGAGCAAA GTATGCAGTC 
AGAGATGACA TGGTCCTGCC CTTTGAACCG GTGCCAGTCC TTGAAATCCC AGGGATTGGA 
AATCTTCCTG CTGTGACCGT TTGTGACGAA CTGAAAATTC AGAGCCAGAA TGACCGTGAA 
AAACTTGCAG AGGCAAAGGA GAAATTGTAT CTAAGAGGAT TTTATGATGG TGTAATGCTA 
GTGGATGGAT TTAAAGGGCA GAAGATCCAA CATGTAAAGA AGACTATTCA GAAAAACATG 
ATTGATGCTG GAGATGCGCT TATCTACATG GAGCCAGAAA AACAAGTGGT GTCGAGGTCT 
GCAGATGAGT GTGTTGTGGC CCTGTGTGAC CAATGGTACT TGGATTATGG AGATGAGAAC 
TGGAAGAAAC AGACATTTCA GTGCCTGAAG AACATGGAAA CATTCTGCGA GGAGAGCAGG 
AAGAATTTTG AAGCTTCCTT AGACTGGCTG CAAGAACATG CCTGCTCAAG AACTTACGGT 
TTAGGCACGC GTCTGCCTTG GGATGAGCAG TGGTTGATTG AATCCCTCTC AGACTCCACT 
ATTTACATGG CGTTTTACAC AGTTGCACAC CTGTTGCAGG GGGGTGACCT GCAGGGTCAG 
GCGGAGTCTC CACTGGGCAT CAGACCCCAG CAGATGACGA GGGATGTTTG GGATTATGTG 
TTCTTCAAGG ATGCTCCATT TCCCAAGACT CAGATCCCAA AGGAAAAGCT GGATCAGCTG 
AAGCAGGAAT TTGAGTTTTG GTATCCAGTG GACCTTCGAG CCTCTGGCAA GGATCTGATT 
CCAAATCATC TTTCATATTA CATTTACAAT CATGTGGCCA TGTGGCCAGA ACAAAGCGAC 
AAGTGGCCTG TATCCGTTCG AGCAAATGGA CACCTGCTGC TCAACTCCGA GAAGATGTCA 
AAATCTACGG GAAACTTCCT CACTTTGAGC CAAGCTGTTG ACAAGTTTTC CGCTGATGGA 
ATGCGCCTGG CTCTGGCTGA TGCTGGCGAC ACTGTTGAAG ATGCTAACTT TGTGGAAGCT 
ATGGCAGACG CAGGCATTCT CCGTCTGTAC ACATGGGTAG AGTGGGTCAA AGAAATGCTT 
GCCAACTGCA GCAGCCTGAG AAGTGGACCT GCCAACTCAT TCAATGATCG TGTGTTTGCC 
AGTGAAATGA ATGCAGGAAT TATAAAAACA GATCAAAACT ATGAAAAGAT GATGTTTAAA 
GAAGCGTTGA AAACAGGTTT TTTTGAGTTT CAGGCTGCGA AAGACAAGTA CCGTGAACTG 
GCCACAGAGG GGATGCACAG AGAGCTTGTG TTCCGGTTTA TTGAAGTTCA AACAATCCTT 
CTGACTCCAT TCTGTCCACA TTTGTGTGAG CACATCTGGA CACTGCTGGG AAAGCCTGAT 
TCAATTATGC ATGCCTCATG GCCTGTGGCA GGTCCCGTGG ATGAATCCCT GATTCGTTCC 
TCACAGTACC TCATGGAAGT AGCACACGAC CTTAGATTAC GGCTCAAGAA TTACATGACG 
CCAGCTAAAG GGAAGAAGAC GGACAAGCAA CCAGTTCAGA GGCCCTCACA CTGCACCATC 
TATGTGGCAA AGAACTACCC TGTCTGGCAG CACATTACCC TGACAACCCT ACGGAGCCAC 
TTTGAGGCTA ACAATGGAAA ATTGCCTGAT AACAAAGTCA TCGCTTGTGA ACTAGGCAGT 
TTGCCAGAAC TGAAGAAATA TATGAAGAAA GTTATGCCAT TTGTTGCCAT GATTAAGGAA 
AACATGGAGA AGAAAGGGCC GCGAGTCTTG GATTTAGAGT TGGAATTTGA TGAGCAGGCA 
GTCCTTATGG AGAATATAGT CTACCTAACC AATTCTCTTG AGCTGGAACA TATAGACGTC 
AAGTTTGCCT CTGAAGCTGA AGATAAAGTC AGGGAAGAGT GCTGTCCTGG GAAGCCACTT 
AATGTTTTCA GAACAGAACC TGGTGTGCCA GTTTCCCTAG TAAATCCTCA GCCATCCAGC 
GGGCACTTCT CTACCAAAAT CGACATCAGA CAAGGAGATA GCTGTGAGTC CATAATCAGA 
CGCCTGACGA AAATGGACCG AGGAATCAAA GATCTCTCCA AAGTGAAACT CATGCGCTTT 
GATGATCCTC TGTTGGGGCC TCGACGAGTT CCAGTCCTGG GGAGAGAGCA GAACGAGAAG 
ACACTCATTT CTGAGAATGC CATTTTCCAC GTGGACCTAG TGAGCAAGAA AGTTCACCTT 
ACTGAGAACG GGCTGCGCGC AGACATCGGT GACACAATAG TCTATCTGGT TCACTGA

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

Lars1 ( XM_006254672.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006254734.1 Rattus norvegicus leucyl-tRNA synthetase (Lars), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa38354
Clone ID Related Accession (Same CDS sequence)	XM_006254672.3
Accession Version	XM_006254672.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3387bp) 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	leucine--tRNA ligase, cytoplasmic isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005117.4) 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_006254672.2. ##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##

ATGGCGGAAA GAAAAGGAAC AGCCAAAGTA GACTTCTTGA AGAAGATTGA GAAAGAAGTC 
CAGCAGAAAT GGGAAGCGGA GAAAGTGTTT GAAGTCAGCG CGTCTTCACT GGAGAAGCAG 
AAGCAGAGCA GCAAGGGCAA ATACTTTGTC ACCTTTCCAT ATCCATACAT GAATGGACGC 
CTTCATTTGG GACACACGTT TTCCTTATCC AAGTGTGAGT TTGCAGTAGG ATACCAGAGA 
TTAAAAGGAA AAAGCTGTCT GTTTCCCTTC GGGTTACACT GTACCGGTAT GCCTATTAAG 
GCATGTGCTG ACAAGCTGAA AAGGGAGATA GAGCTGTATG GCTGCCCTCC TGATTTTCCA 
GAGGAGGAGG AGGAAGAGGA AGAAAGCAGT GCTAAACCTG GAGATATAGT AATGAAGGAT 
AAAGCCAAAG GGAAAAAGAG TAAAGCCGCT GCTAAAGCAG GATCTTCTAA GTACCAGTGG 
AACATTATGA AATCCCTTGG GCTCTCTGAT GAAGACATCG CGAAGTTTTC TGAAGCAGAA 
CATTGGCTTG ATTATTTCCC ACCACTGGCT GTTCAGGATC TGAAGAAAAT AGGTTTGAAG 
GTAGACTGGC GGCGTTCCTT CATCACCACG GATGTGAATC CTTACTATGA TTCTTTTGTC 
AGGTGGCAAT TTTTAACTTT AAGAGAAAGA AATAAAATTA AATTCGGGAA GCGGTACACT 
ATTTATTCCC CAAAAGATGG ACAGCCTTGC ATGGATCATG ACAGACAAAC CGGAGAGGGT 
GTTGGACCTC AGGAATATAC CCTAGTCAAA CTGAAGGTGC TTGATCCATA CCCATCAAAA 
TTAAGTGGCC TGAAAGGGAA AAATATCTTC CTAGTAGCTG CCACACTCAG ACCTGAGACT 
ATGTTTGGAC AGACAAATTG TTGGGTTCGG CCTGATATGA AATACATTGG GTTTGAGACA 
GCAAATGGAG ACATATTCAT CTGTACCCAG AGAGCAGCCA GGAATATGTC ATACCAAGGC 
TTCACCAAGC ACAATGGCGT GGTGCCGGTT GTGAAGGAGT TAATGGGAGA GGAAATCCTT 
GGGGCTTCAC TTTCTGCACC CCTGACATGC TATAAGGTGA TCTATGTTCT CCCTATGCTG 
ACCATTAAGG AGGATAAAGG CACTGGGGTG GTCACAAGCG TTCCTTCTGA TTCCCCGGAT 
GATTTTGCGG CACTCAGAGA CTTGAAGAAA AAGCAAGCCT TACGAGCAAA GTATGCAGTC 
AGAGATGACA TGGTCCTGCC CTTTGAACCG GTGCCAGTCC TTGAAATCCC AGGGATTGGA 
AATCTTCCTG CTGTGACCGT TTGTGACGAA CTGAAAATTC AGAGCCAGAA TGACCGTGAA 
AAACTTGCAG AGGCAAAGGA GAAATTGTAT CTAAGAGGAT TTTATGATGG TGTAATGCTA 
GTGGATGGAT TTAAAGGGCA GAAGATCCAA CATGTAAAGA AGACTATTCA GAAAAACATG 
ATTGATGCTG GAGATGCGCT TATCTACATG GAGCCAGAAA AACAAGTGGT GTCGAGGTCT 
GCAGATGAGT GTGTTGTGGC CCTGTGTGAC CAATGGTACT TGGATTATGG AGATGAGAAC 
TGGAAGAAAC AGACATTTCA GTGCCTGAAG AACATGGAAA CATTCTGCGA GGAGAGCAGG 
AAGAATTTTG AAGCTTCCTT AGACTGGCTG CAAGAACATG CCTGCTCAAG AACTTACGGT 
TTAGGCACGC GTCTGCCTTG GGATGAGCAG TGGTTGATTG AATCCCTCTC AGACTCCACT 
ATTTACATGG CGTTTTACAC AGTTGCACAC CTGTTGCAGG GGGGTGACCT GCAGGGTCAG 
GCGGAGTCTC CACTGGGCAT CAGACCCCAG CAGATGACGA GGGATGTTTG GGATTATGTG 
TTCTTCAAGG ATGCTCCATT TCCCAAGACT CAGATCCCAA AGGAAAAGCT GGATCAGCTG 
AAGCAGGAAT TTGAGTTTTG GTATCCAGTG GACCTTCGAG CCTCTGGCAA GGATCTGATT 
CCAAATCATC TTTCATATTA CATTTACAAT CATGTGGCCA TGTGGCCAGA ACAAAGCGAC 
AAGTGGCCTG TATCCGTTCG AGCAAATGGA CACCTGCTGC TCAACTCCGA GAAGATGTCA 
AAATCTACGG GAAACTTCCT CACTTTGAGC CAAGCTGTTG ACAAGTTTTC CGCTGATGGA 
ATGCGCCTGG CTCTGGCTGA TGCTGGCGAC ACTGTTGAAG ATGCTAACTT TGTGGAAGCT 
ATGGCAGACG CAGGCATTCT CCGTCTGTAC ACATGGGTAG AGTGGGTCAA AGAAATGCTT 
GCCAACTGCA GCAGCCTGAG AAGTGGACCT GCCAACTCAT TCAATGATCG TGTGTTTGCC 
AGTGAAATGA ATGCAGGAAT TATAAAAACA GATCAAAACT ATGAAAAGAT GATGTTTAAA 
GAAGCGTTGA AAACAGGTTT TTTTGAGTTT CAGGCTGCGA AAGACAAGTA CCGTGAACTG 
GCCACAGAGG GGATGCACAG AGAGCTTGTG TTCCGGTTTA TTGAAGTTCA AACAATCCTT 
CTGACTCCAT TCTGTCCACA TTTGTGTGAG CACATCTGGA CACTGCTGGG AAAGCCTGAT 
TCAATTATGC ATGCCTCATG GCCTGTGGCA GGTCCCGTGG ATGAATCCCT GATTCGTTCC 
TCACAGTACC TCATGGAAGT AGCACACGAC CTTAGATTAC GGCTCAAGAA TTACATGACG 
CCAGCTAAAG GGAAGAAGAC GGACAAGCAA CCAGTTCAGA GGCCCTCACA CTGCACCATC 
TATGTGGCAA AGAACTACCC TGTCTGGCAG CACATTACCC TGACAACCCT ACGGAGCCAC 
TTTGAGGCTA ACAATGGAAA ATTGCCTGAT AACAAAGTCA TCGCTTGTGA ACTAGGCAGT 
TTGCCAGAAC TGAAGAAATA TATGAAGAAA GTTATGCCAT TTGTTGCCAT GATTAAGGAA 
AACATGGAGA AGAAAGGGCC GCGAGTCTTG GATTTAGAGT TGGAATTTGA TGAGCAGGCA 
GTCCTTATGG AGAATATAGT CTACCTAACC AATTCTCTTG AGCTGGAACA TATAGACGTC 
AAGTTTGCCT CTGAAGCTGA AGATAAAGTC AGGGAAGAGT GCTGTCCTGG GAAGCCACTT 
AATGTTTTCA GAACAGAACC TGGTGTGCCA GTTTCCCTAG TAAATCCTCA GCCATCCAGC 
GGGCACTTCT CTACCAAAAT CGACATCAGA CAAGGAGATA GCTGTGAGTC CATAATCAGA 
CGCCTGACGA AAATGGACCG AGGAATCAAA GAGAGAACAA AATGCCTGGA AGACTTCAAC 
TCTGGATATG GCTGCCAGCT GCATTAA

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

RefSeq	XP_006254734.1
CDS	223..3609
Translation	MAERKGTAKVDFLKKIEKEVQQKWEAEKVFEVSASSLEKQKQSSKGKYFVTFPYPYMNGRLHLGHTFSLSKCEFAVGYQRLKGKSCLFPFGLHCTGMPIKACADKLKREIELYGCPPDFPEEEEEEEESSAKPGDIVMKDKAKGKKSKAAAKAGSSKYQWNIMKSLGLSDEDIAKFSEAEHWLDYFPPLAVQDLKKIGLKVDWRRSFITTDVNPYYDSFVRWQFLTLRERNKIKFGKRYTIYSPKDGQPCMDHDRQTGEGVGPQEYTLVKLKVLDPYPSKLSGLKGKNIFLVAATLRPETMFGQTNCWVRPDMKYIGFETANGDIFICTQRAARNMSYQGFTKHNGVVPVVKELMGEEILGASLSAPLTCYKVIYVLPMLTIKEDKGTGVVTSVPSDSPDDFAALRDLKKKQALRAKYAVRDDMVLPFEPVPVLEIPGIGNLPAVTVCDELKIQSQNDREKLAEAKEKLYLRGFYDGVMLVDGFKGQKIQHVKKTIQKNMIDAGDALIYMEPEKQVVSRSADECVVALCDQWYLDYGDENWKKQTFQCLKNMETFCEESRKNFEASLDWLQEHACSRTYGLGTRLPWDEQWLIESLSDSTIYMAFYTVAHLLQGGDLQGQAESPLGIRPQQMTRDVWDYVFFKDAPFPKTQIPKEKLDQLKQEFEFWYPVDLRASGKDLIPNHLSYYIYNHVAMWPEQSDKWPVSVRANGHLLLNSEKMSKSTGNFLTLSQAVDKFSADGMRLALADAGDTVEDANFVEAMADAGILRLYTWVEWVKEMLANCSSLRSGPANSFNDRVFASEMNAGIIKTDQNYEKMMFKEALKTGFFEFQAAKDKYRELATEGMHRELVFRFIEVQTILLTPFCPHLCEHIWTLLGKPDSIMHASWPVAGPVDESLIRSSQYLMEVAHDLRLRLKNYMTPAKGKKTDKQPVQRPSHCTIYVAKNYPVWQHITLTTLRSHFEANNGKLPDNKVIACELGSLPELKKYMKKVMPFVAMIKENMEKKGPRVLDLELEFDEQAVLMENIVYLTNSLELEHIDVKFASEAEDKVREECCPGKPLNVFRTEPGVPVSLVNPQPSSGHFSTKIDIRQGDSCESIIRRLTKMDRGIKERTKCLEDFNSGYGCQLH

Target ORF information:

RefSeq Version	XM_006254672.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus leucyl-tRNA synthetase (Lars), transcript variant X1, mRNA.

Target ORF information:

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

XM_006254672.3

ORF Insert Sequence:

ATGGCGGAAA GAAAAGGAAC AGCCAAAGTA GACTTCTTGA AGAAGATTGA GAAAGAAGTC 
CAGCAGAAAT GGGAAGCGGA GAAAGTGTTT GAAGTCAGCG CGTCTTCACT GGAGAAGCAG 
AAGCAGAGCA GCAAGGGCAA ATACTTTGTC ACCTTTCCAT ATCCATACAT GAATGGACGC 
CTTCATTTGG GACACACGTT TTCCTTATCC AAGTGTGAGT TTGCAGTAGG ATACCAGAGA 
TTAAAAGGAA AAAGCTGTCT GTTTCCCTTC GGGTTACACT GTACCGGTAT GCCTATTAAG 
GCATGTGCTG ACAAGCTGAA AAGGGAGATA GAGCTGTATG GCTGCCCTCC TGATTTTCCA 
GAGGAGGAGG AGGAAGAGGA AGAAAGCAGT GCTAAACCTG GAGATATAGT AATGAAGGAT 
AAAGCCAAAG GGAAAAAGAG TAAAGCCGCT GCTAAAGCAG GATCTTCTAA GTACCAGTGG 
AACATTATGA AATCCCTTGG GCTCTCTGAT GAAGACATCG CGAAGTTTTC TGAAGCAGAA 
CATTGGCTTG ATTATTTCCC ACCACTGGCT GTTCAGGATC TGAAGAAAAT AGGTTTGAAG 
GTAGACTGGC GGCGTTCCTT CATCACCACG GATGTGAATC CTTACTATGA TTCTTTTGTC 
AGGTGGCAAT TTTTAACTTT AAGAGAAAGA AATAAAATTA AATTCGGGAA GCGGTACACT 
ATTTATTCCC CAAAAGATGG ACAGCCTTGC ATGGATCATG ACAGACAAAC CGGAGAGGGT 
GTTGGACCTC AGGAATATAC CCTAGTCAAA CTGAAGGTGC TTGATCCATA CCCATCAAAA 
TTAAGTGGCC TGAAAGGGAA AAATATCTTC CTAGTAGCTG CCACACTCAG ACCTGAGACT 
ATGTTTGGAC AGACAAATTG TTGGGTTCGG CCTGATATGA AATACATTGG GTTTGAGACA 
GCAAATGGAG ACATATTCAT CTGTACCCAG AGAGCAGCCA GGAATATGTC ATACCAAGGC 
TTCACCAAGC ACAATGGCGT GGTGCCGGTT GTGAAGGAGT TAATGGGAGA GGAAATCCTT 
GGGGCTTCAC TTTCTGCACC CCTGACATGC TATAAGGTGA TCTATGTTCT CCCTATGCTG 
ACCATTAAGG AGGATAAAGG CACTGGGGTG GTCACAAGCG TTCCTTCTGA TTCCCCGGAT 
GATTTTGCGG CACTCAGAGA CTTGAAGAAA AAGCAAGCCT TACGAGCAAA GTATGCAGTC 
AGAGATGACA TGGTCCTGCC CTTTGAACCG GTGCCAGTCC TTGAAATCCC AGGGATTGGA 
AATCTTCCTG CTGTGACCGT TTGTGACGAA CTGAAAATTC AGAGCCAGAA TGACCGTGAA 
AAACTTGCAG AGGCAAAGGA GAAATTGTAT CTAAGAGGAT TTTATGATGG TGTAATGCTA 
GTGGATGGAT TTAAAGGGCA GAAGATCCAA CATGTAAAGA AGACTATTCA GAAAAACATG 
ATTGATGCTG GAGATGCGCT TATCTACATG GAGCCAGAAA AACAAGTGGT GTCGAGGTCT 
GCAGATGAGT GTGTTGTGGC CCTGTGTGAC CAATGGTACT TGGATTATGG AGATGAGAAC 
TGGAAGAAAC AGACATTTCA GTGCCTGAAG AACATGGAAA CATTCTGCGA GGAGAGCAGG 
AAGAATTTTG AAGCTTCCTT AGACTGGCTG CAAGAACATG CCTGCTCAAG AACTTACGGT 
TTAGGCACGC GTCTGCCTTG GGATGAGCAG TGGTTGATTG AATCCCTCTC AGACTCCACT 
ATTTACATGG CGTTTTACAC AGTTGCACAC CTGTTGCAGG GGGGTGACCT GCAGGGTCAG 
GCGGAGTCTC CACTGGGCAT CAGACCCCAG CAGATGACGA GGGATGTTTG GGATTATGTG 
TTCTTCAAGG ATGCTCCATT TCCCAAGACT CAGATCCCAA AGGAAAAGCT GGATCAGCTG 
AAGCAGGAAT TTGAGTTTTG GTATCCAGTG GACCTTCGAG CCTCTGGCAA GGATCTGATT 
CCAAATCATC TTTCATATTA CATTTACAAT CATGTGGCCA TGTGGCCAGA ACAAAGCGAC 
AAGTGGCCTG TATCCGTTCG AGCAAATGGA CACCTGCTGC TCAACTCCGA GAAGATGTCA 
AAATCTACGG GAAACTTCCT CACTTTGAGC CAAGCTGTTG ACAAGTTTTC CGCTGATGGA 
ATGCGCCTGG CTCTGGCTGA TGCTGGCGAC ACTGTTGAAG ATGCTAACTT TGTGGAAGCT 
ATGGCAGACG CAGGCATTCT CCGTCTGTAC ACATGGGTAG AGTGGGTCAA AGAAATGCTT 
GCCAACTGCA GCAGCCTGAG AAGTGGACCT GCCAACTCAT TCAATGATCG TGTGTTTGCC 
AGTGAAATGA ATGCAGGAAT TATAAAAACA GATCAAAACT ATGAAAAGAT GATGTTTAAA 
GAAGCGTTGA AAACAGGTTT TTTTGAGTTT CAGGCTGCGA AAGACAAGTA CCGTGAACTG 
GCCACAGAGG GGATGCACAG AGAGCTTGTG TTCCGGTTTA TTGAAGTTCA AACAATCCTT 
CTGACTCCAT TCTGTCCACA TTTGTGTGAG CACATCTGGA CACTGCTGGG AAAGCCTGAT 
TCAATTATGC ATGCCTCATG GCCTGTGGCA GGTCCCGTGG ATGAATCCCT GATTCGTTCC 
TCACAGTACC TCATGGAAGT AGCACACGAC CTTAGATTAC GGCTCAAGAA TTACATGACG 
CCAGCTAAAG GGAAGAAGAC GGACAAGCAA CCAGTTCAGA GGCCCTCACA CTGCACCATC 
TATGTGGCAA AGAACTACCC TGTCTGGCAG CACATTACCC TGACAACCCT ACGGAGCCAC 
TTTGAGGCTA ACAATGGAAA ATTGCCTGAT AACAAAGTCA TCGCTTGTGA ACTAGGCAGT 
TTGCCAGAAC TGAAGAAATA TATGAAGAAA GTTATGCCAT TTGTTGCCAT GATTAAGGAA 
AACATGGAGA AGAAAGGGCC GCGAGTCTTG GATTTAGAGT TGGAATTTGA TGAGCAGGCA 
GTCCTTATGG AGAATATAGT CTACCTAACC AATTCTCTTG AGCTGGAACA TATAGACGTC 
AAGTTTGCCT CTGAAGCTGA AGATAAAGTC AGGGAAGAGT GCTGTCCTGG GAAGCCACTT 
AATGTTTTCA GAACAGAACC TGGTGTGCCA GTTTCCCTAG TAAATCCTCA GCCATCCAGC 
GGGCACTTCT CTACCAAAAT CGACATCAGA CAAGGAGATA GCTGTGAGTC CATAATCAGA 
CGCCTGACGA AAATGGACCG AGGAATCAAA GAGAGAACAA AATGCCTGGA AGACTTCAAC 
TCTGGATATG GCTGCCAGCT GCATTAA

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

PubMed

The EARP Complex and Its Interactor EIPR-1 Are Required for Cargo Sorting to Dense-Core Vesicles.
PLoS genetics12(5)e1006074(2016 May)
Topalidou I,Cattin-Ortol? J,Pappas AL,Cooper K,Merrihew GE,MacCoss MJ,Ailion M

The crystal structure of human GlnRS provides basis for the development of neurological disorders.
Nucleic acids research44(7)3420-31(2016 Apr)
Ognjenovi? J,Wu J,Matthies D,Baxa U,Subramaniam S,Ling J,Simonovi? M

Leucyl-tRNA synthetase is an intracellular leucine sensor for the mTORC1-signaling pathway.
Cell149(2)410-24(2012 Apr)
Han JM,Jeong SJ,Park MC,Kim G,Kwon NH,Kim HK,Ha SH,Ryu SH,Kim S

Dynamic Organization of Aminoacyl-tRNA Synthetase Complexes in the Cytoplasm of Human Cells.
The Journal of biological chemistry284(20)13746-54(2009 May)
Kaminska M,Havrylenko S,Decottignies P,Le Mar?chal P,Negrutskii B,Mirande M

Dissection of the structural organization of the aminoacyl-tRNA synthetase complex.
The Journal of biological chemistry284(10)6053-60(2009 Mar)
Kaminska M,Havrylenko S,Decottignies P,Gillet S,Le Mar?chal P,Negrutskii B,Mirande M

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Lars1 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:

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