Gallus gallus (chicken) |
LAMB3 |
XP_425827.3 |
Xenopus tropicalis (tropical clawed frog) |
lamb3 |
XP_002933550.2 |
Homo sapiens (human) |
LAMB3 |
NP_001017402.1 |
Pan troglodytes (chimpanzee) |
LAMB3 |
XP_003949737.1 |
|
LAMB3 |
XP_002802197.1 |
Canis lupus familiaris (dog) |
LAMB3 |
XP_005622385.1 |
Bos taurus (cattle) |
LAMB3 |
NP_001075065.1 |
Rattus norvegicus (Norway rat) |
Lamb3 |
NP_001094311.1 |
Mus musculus (house mouse) |
Lamb3 |
NP_001264857.1 |
Related articles in PubMed
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Epitope mapping of function-blocking monoclonal antibody CM6 suggests a "weak" integrin binding site on the laminin-332 LG2 domain.
Yamashita H, Shang M, Tripathi M, Jourquin J, Georgescu W, Liu S, Weidow B, Quaranta V
Journal of cellular physiology223(3)541-8(2010 Jun)
Laminin-332-beta1 integrin interactions negatively regulate invadopodia.
Liu S, Yamashita H, Weidow B, Weaver AM, Quaranta V
Journal of cellular physiology223(1)134-42(2010 Apr)
Transcriptome-based systematic identification of extracellular matrix proteins.
Manabe R, Tsutsui K, Yamada T, Kimura M, Nakano I, Shimono C, Sanzen N, Furutani Y, Fukuda T, Oguri Y, Shimamoto K, Kiyozumi D, Sato Y, Sado Y, Senoo H, Yamashina S, Fukuda S, Kawai J, Sugiura N, Kimata K, Hayashizaki Y, Sekiguchi K
Proceedings of the National Academy of Sciences of the United States of America105(35)12849-54(2008 Sep)
Wdnm1-like, a new adipokine with a role in MMP-2 activation.
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American journal of physiology. Endocrinology and metabolism295(1)E205-15(2008 Jul)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following Lamb3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Lamb3 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 |
ORa58090 |
Clone ID Related Accession (Same CDS sequence) |
XM_017598839.1
|
Accession Version |
XM_017598839.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3384bp)
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 |
laminin subunit beta-3 isoform X2 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005112.4) 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##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361
| ATGTGTGGTA AGAGAAATCC AGGTGGCAAT GCCCAGAATG GAAAATGGCT GTGGCAGATG AAATGCTGCA AGTGTGACTC CAGGCTGCCT CGCAACTACA ACAGTCACCG AGTGGAGAAC GTTGTATCGT CTTCAGGCCC CATGCGCTGG TGGCAGTCCC AGAACGATGT GAGCCCTGTC TCTCTTCAAC TGGACCTAGA CAAGAGGATG CAGCTTCAGG ACATAATGAT GGATTTTAAG GGTCTCATGC CAGCTGGCAT GTTGATTGAG CGCTCTTCTG ACTTTGGCAA GACATGGAGG GTGTACCAGT ACCTGGCGAC AGACTGTGCC AGCACCTTTC CCCAGGTCCA CCAGGGCCAG CCCAAGAACT GGCAGGACGT CCGGTGCCGG CCCTTGTCCC AGAGGCCTAA TGGGCATCTG ACTGGGGGAA AGGTCCAACT TAACCTTATG GATTTGGCAT CAGCTATCCC TGCATCTCAA AGTAAAAAGA TTCAAGAACT AGGAGACATC ACGAACTTGA GAGTCAACTT CACCAAGCTG GCCCCAGTGC CCCAGAGGGG CTCCTATCCA CCCAGCGCCT ACTTTGCAGT ATCACAGCTA CGTCTACAGG GGAGTTGCTT CTGTCATGGA CATGCCGACC GCTGTGCCCC TAATCCTGGA GGCCCTACAG GTTCCACCAC CGCTGTGCAG GTCAACGATG TCTGTGTCTG CCAGCACAAC ACAGCTGGCC CCAACTGTGA CCGCTGCGCC CCCTTCTACA ACAACCGGCC ATGGAGACCT GCAGAGGGAC AGGACATCCA TGAGTGCCAA AGGTGTGACT GCAATGGGCA CTCAGAGACC TGCCACTTCG ACCCAGCTGT GTTTGCTGCT AGCCAAGGGA CAAGTGGAGG CGTGTGTGAC AACTGCCAGG ACCACACAGA GGGCAAGAAC TGTGAGCGAT GTCAGCTACA CTATTTCCGG AATAGACGAC CAGGCGCTCC CATTCATGAG ACCTGTATTC CCTGCGAGTG TGATCCAGAC GGGGCAGTCC CAGGAGCTCC CTGTGACCGA CTGACGGGCC AGTGCGTGTG CAAAGACCAC GTGCAAGGGG AGCGCTGTGA TCTTTGCAAG CCTGGTTTCA CAGGGCTCAC CTTCGCCAAC CCACAGGGCT GCCATCCCTG TGACTGCAGC ATCTTAGGTA CCCGGCAAGA TATGCCTTGT GAGGAGGAAA CTGGACGCTG CTTGTGTCTT CCCAATGTAG TGGGCCCCAA ATGTGACCAG TGCGCCCCTT CCCACTGGAA GCTGGCCAGC GGCCGGGGCT GTGAGCCCTG TGCCTGTGAC CCACGCAACT CCCTCAGCTC CCAGTGCAAC CAGTTTACAG GGCAGTGTCC TTGTCGGGAA GGGTTTGGTG GCCTCACATG TAGTTCTGCA GCCATTCGTC AGTGTCCCGA CCGGACCCAT GGAGACGTGG CCACAGGGTG CCGAGCCTGT GACTGTGACT TCAGAGGAAC CGAGGGTCCT GGCTGTGACA AAACCTCAGG CCGTTGCCTC TGCCGCCCCG GCTTGACAGG GCCCCGCTGC GACCAGTGCC AACGAGGCTA CTGCGACCGC TACCCAGTGT GTGTGGCCTG CCACTCTTGC TTCCAGGCCT ATGACACAGA CCTCCAGGAG CAGGCTTGGC GCCTTGGCAG TCTCCGTAAT ACCACTGAAG GCCTGGGCAC AGGGACAGGT CTGGAGGACC GTGGCCTGGC TTCTCGGTTG CTAGATGCCA AGAGCAAAAT CGAGCAGATC AGACAGATTC TGGGTGGCAC CTCTGTCACA GAGCGGGATG TGGCTCAAGT GGCCAATGCC ATCCTGTCTA TCAGGAGGAC TCTTCAGGGC CTGCCCCTGG ACCTACCCTT AGAGGAGGAG ATGGAATCCT TCTCTGGAGA CCTGGGGAAT CTAGACAGAA GCTTCAATCG CCTCCTCCTT ATGTACCGGA GCAAGAAGGA GCAGTTTGAG AAGCTAAGCA GTGTGGACCC TTCAGGAGCC TTCCGCATGC TGACTATGGC TTATGAGCAG TCCTCCCGGG CTGCACAGCA AGTATCCGAC AGTTCCAGCC TGCTGAGCCA GCTGAGGGAC AGTCGCAGAG AGGTAGAAGG TCTGGAGAGA CAGACTGGAG AGGGAGGAGC TGGAGGAGCT CAGCTCATGG CCCTGCGCCT AGAGATGGCT TCACTGCCTG ACTTGACACC CACCATCAAC AAGCTCTGTG GTGGCTCTAG GCAGACAGCC TGCACCCCAG GAGACTGCCC TGGATTGCTG TGTCCCCAGG ACAATGGTAC AGCCTGTGGC TCTCACTGCA GGGGAGCCCT GCCCAGAGCC AGAGGGGCCT TACACATGGC AGGGCAGGTA GCTGAGCAGC TACGAAGCTT CAATACCCAG CTCCAGCAGA CCAGGCAAAT GATCAGGGCA GCTGAGGAGG CAGCATCAAA GGTCCAATCA GATGCCCAGC GCCTTGAGAC TCAGGTGAGT ACCAGCCGCT TACAGATGGA GGAAGATGTC CGGCGCACAC GGCTTCTCAT CCAGCAGGTC CGGGGCTTCC TCACAGACCC TCACACAGAT GCAGCCACCA TCCAACAGGT GAGCGAGGCA GTGCTGGCTC TCTGGCTGCC CACAGACTCA GCTACAGTGC TACGCAAGAT GAAAGAGATC CAGGACATTG CTGCCAGGCT CCCTAACGTG GACTTAGTGC TATCCCAGAC TAAGCAGGAC ATTGCACGGG CCCGCAGGCT CCAGGCTGAG GCCGAGAAGG CCAGAAGCCG AGCCCACGTT GTGGAAGGGC AGGTGGATGA CGTGGTCGGG AACCTCAGGC AGGGCACCGT GGCTCTGCAG GAGGCTCAGG ACACTATGCA GGGCACTGGC CGCTCTCTTC GGCTCATCCA GGAAAGGGTT ACTGAGGTTC AGCAGGTCCT GGTACCAGCT GAAAGGCTGG TGAAAGGCAT GAAGGAACAG ATGAGTGGAT TCTGGGCACG GGTGAAGGAG CTCCGCCATC AGGCCCAGGA AGAGCAGGCA CAGGCAATGA AGGCCCAGCA GCTTGCAGAG GGTGCCAGCA ATCAGGCCAT GAATGCTCAG GAGGGCTTTG AGAGACTTAA GCAAAGGTAT ACAGAGTTGA AAGACCGGCT GGGTCAGAGT TCTATGCTGG GTGAGCAAGG CAATCGGATC TTGAGCATCA AGGCGGAGGC AGAGGAGCTC TTTGGGGAAA CCATGGAAAT GATGGATAAA ATGAAAGACA TGGAGTCAGA GCTGCTTCGA GGGAGTCAGG CCATCATGCT TCGTTCAGCA GACCTGTCGG GGCTGGAGAA GCGCGTGGAG CAGATCCGCA GTTACATCAA CGGGCGTGTG CTGTACTATG CCACCTGCAA GTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_017454328.1 |
CDS | 710..4093 |
Translation | |
Target ORF information:
RefSeq Version | XM_017598839.1 |
Organism | Rattus norvegicus(Norway rat) |
Definition | Rattus norvegicus laminin subunit beta 3 (Lamb3), transcript variant X2, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_017598839.1 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361
| ATGTGTGGTA AGAGAAATCC AGGTGGCAAT GCCCAGAATG GAAAATGGCT GTGGCAGATG AAATGCTGCA AGTGTGACTC CAGGCTGCCT CGCAACTACA ACAGTCACCG AGTGGAGAAC GTTGTATCGT CTTCAGGCCC CATGCGCTGG TGGCAGTCCC AGAACGATGT GAGCCCTGTC TCTCTTCAAC TGGACCTAGA CAAGAGGATG CAGCTTCAGG ACATAATGAT GGATTTTAAG GGTCTCATGC CAGCTGGCAT GTTGATTGAG CGCTCTTCTG ACTTTGGCAA GACATGGAGG GTGTACCAGT ACCTGGCGAC AGACTGTGCC AGCACCTTTC CCCAGGTCCA CCAGGGCCAG CCCAAGAACT GGCAGGACGT CCGGTGCCGG CCCTTGTCCC AGAGGCCTAA TGGGCATCTG ACTGGGGGAA AGGTCCAACT TAACCTTATG GATTTGGCAT CAGCTATCCC TGCATCTCAA AGTAAAAAGA TTCAAGAACT AGGAGACATC ACGAACTTGA GAGTCAACTT CACCAAGCTG GCCCCAGTGC CCCAGAGGGG CTCCTATCCA CCCAGCGCCT ACTTTGCAGT ATCACAGCTA CGTCTACAGG GGAGTTGCTT CTGTCATGGA CATGCCGACC GCTGTGCCCC TAATCCTGGA GGCCCTACAG GTTCCACCAC CGCTGTGCAG GTCAACGATG TCTGTGTCTG CCAGCACAAC ACAGCTGGCC CCAACTGTGA CCGCTGCGCC CCCTTCTACA ACAACCGGCC ATGGAGACCT GCAGAGGGAC AGGACATCCA TGAGTGCCAA AGGTGTGACT GCAATGGGCA CTCAGAGACC TGCCACTTCG ACCCAGCTGT GTTTGCTGCT AGCCAAGGGA CAAGTGGAGG CGTGTGTGAC AACTGCCAGG ACCACACAGA GGGCAAGAAC TGTGAGCGAT GTCAGCTACA CTATTTCCGG AATAGACGAC CAGGCGCTCC CATTCATGAG ACCTGTATTC CCTGCGAGTG TGATCCAGAC GGGGCAGTCC CAGGAGCTCC CTGTGACCGA CTGACGGGCC AGTGCGTGTG CAAAGACCAC GTGCAAGGGG AGCGCTGTGA TCTTTGCAAG CCTGGTTTCA CAGGGCTCAC CTTCGCCAAC CCACAGGGCT GCCATCCCTG TGACTGCAGC ATCTTAGGTA CCCGGCAAGA TATGCCTTGT GAGGAGGAAA CTGGACGCTG CTTGTGTCTT CCCAATGTAG TGGGCCCCAA ATGTGACCAG TGCGCCCCTT CCCACTGGAA GCTGGCCAGC GGCCGGGGCT GTGAGCCCTG TGCCTGTGAC CCACGCAACT CCCTCAGCTC CCAGTGCAAC CAGTTTACAG GGCAGTGTCC TTGTCGGGAA GGGTTTGGTG GCCTCACATG TAGTTCTGCA GCCATTCGTC AGTGTCCCGA CCGGACCCAT GGAGACGTGG CCACAGGGTG CCGAGCCTGT GACTGTGACT TCAGAGGAAC CGAGGGTCCT GGCTGTGACA AAACCTCAGG CCGTTGCCTC TGCCGCCCCG GCTTGACAGG GCCCCGCTGC GACCAGTGCC AACGAGGCTA CTGCGACCGC TACCCAGTGT GTGTGGCCTG CCACTCTTGC TTCCAGGCCT ATGACACAGA CCTCCAGGAG CAGGCTTGGC GCCTTGGCAG TCTCCGTAAT ACCACTGAAG GCCTGGGCAC AGGGACAGGT CTGGAGGACC GTGGCCTGGC TTCTCGGTTG CTAGATGCCA AGAGCAAAAT CGAGCAGATC AGACAGATTC TGGGTGGCAC CTCTGTCACA GAGCGGGATG TGGCTCAAGT GGCCAATGCC ATCCTGTCTA TCAGGAGGAC TCTTCAGGGC CTGCCCCTGG ACCTACCCTT AGAGGAGGAG ATGGAATCCT TCTCTGGAGA CCTGGGGAAT CTAGACAGAA GCTTCAATCG CCTCCTCCTT ATGTACCGGA GCAAGAAGGA GCAGTTTGAG AAGCTAAGCA GTGTGGACCC TTCAGGAGCC TTCCGCATGC TGACTATGGC TTATGAGCAG TCCTCCCGGG CTGCACAGCA AGTATCCGAC AGTTCCAGCC TGCTGAGCCA GCTGAGGGAC AGTCGCAGAG AGGTAGAAGG TCTGGAGAGA CAGACTGGAG AGGGAGGAGC TGGAGGAGCT CAGCTCATGG CCCTGCGCCT AGAGATGGCT TCACTGCCTG ACTTGACACC CACCATCAAC AAGCTCTGTG GTGGCTCTAG GCAGACAGCC TGCACCCCAG GAGACTGCCC TGGATTGCTG TGTCCCCAGG ACAATGGTAC AGCCTGTGGC TCTCACTGCA GGGGAGCCCT GCCCAGAGCC AGAGGGGCCT TACACATGGC AGGGCAGGTA GCTGAGCAGC TACGAAGCTT CAATACCCAG CTCCAGCAGA CCAGGCAAAT GATCAGGGCA GCTGAGGAGG CAGCATCAAA GGTCCAATCA GATGCCCAGC GCCTTGAGAC TCAGGTGAGT ACCAGCCGCT TACAGATGGA GGAAGATGTC CGGCGCACAC GGCTTCTCAT CCAGCAGGTC CGGGGCTTCC TCACAGACCC TCACACAGAT GCAGCCACCA TCCAACAGGT GAGCGAGGCA GTGCTGGCTC TCTGGCTGCC CACAGACTCA GCTACAGTGC TACGCAAGAT GAAAGAGATC CAGGACATTG CTGCCAGGCT CCCTAACGTG GACTTAGTGC TATCCCAGAC TAAGCAGGAC ATTGCACGGG CCCGCAGGCT CCAGGCTGAG GCCGAGAAGG CCAGAAGCCG AGCCCACGTT GTGGAAGGGC AGGTGGATGA CGTGGTCGGG AACCTCAGGC AGGGCACCGT GGCTCTGCAG GAGGCTCAGG ACACTATGCA GGGCACTGGC CGCTCTCTTC GGCTCATCCA GGAAAGGGTT ACTGAGGTTC AGCAGGTCCT GGTACCAGCT GAAAGGCTGG TGAAAGGCAT GAAGGAACAG ATGAGTGGAT TCTGGGCACG GGTGAAGGAG CTCCGCCATC AGGCCCAGGA AGAGCAGGCA CAGGCAATGA AGGCCCAGCA GCTTGCAGAG GGTGCCAGCA ATCAGGCCAT GAATGCTCAG GAGGGCTTTG AGAGACTTAA GCAAAGGTAT ACAGAGTTGA AAGACCGGCT GGGTCAGAGT TCTATGCTGG GTGAGCAAGG CAATCGGATC TTGAGCATCA AGGCGGAGGC AGAGGAGCTC TTTGGGGAAA CCATGGAAAT GATGGATAAA ATGAAAGACA TGGAGTCAGA GCTGCTTCGA GGGAGTCAGG CCATCATGCT TCGTTCAGCA GACCTGTCGG GGCTGGAGAA GCGCGTGGAG CAGATCCGCA GTTACATCAA CGGGCGTGTG CTGTACTATG CCACCTGCAA GTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ORa11134 |
Clone ID Related Accession (Same CDS sequence) |
XM_008769856.2
, NM_001100841.1
|
Accession Version |
NM_001100841.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3519bp)
Protein sequence
SNP |
Vector |
pcDNA3.1+/C-(K)DYK or customized vector |
User Manual |
Clone information |
Clone Map |
MSDS |
Tag on pcDNA3.1+/C-(K)DYK |
C terminal DYKDDDDK tags |
ORF Insert Method |
CloneEZ™ Seamless cloning technology |
Insert Structure |
linear |
Update Date |
2018-10-12 |
Organism |
Rattus norvegicus(Norway rat) |
Product |
laminin subunit beta-3 precursor |
Comment |
Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC126166.4. On or before Dec 19, 2009 this sequence version replaced XM_223087.4, XM_001069930.1.
Sequence Note: The RefSeq transcript and protein were derived from genomic sequence because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments and orthologous data.
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##
RNAseq introns :: single sample supports all introns SAMEA2689599, SAMEA2689602 [ECO:0000348]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481
| ATGATGACGG CACTTTTCCT CTTGTGGCTT GCCTTGCCTG GCCTCCTGTG TGCCCAGCAA CCCTGCTCCC GAGGGGCCTG TTATCCACCT GTTGGGGACT TGCTCATTGG AAGGACTCAG CTTCTTCGAG CCTCGTCTAC CTGTGGATTG ACCAAGCCTG AGACCTATTG CACCCAATAT GGACAGTGGC AGATGAAATG CTGCAAGTGT GACTCCAGGC TGCCTCGCAA CTACAACAGT CACCGAGTGG AGAACGTTGT ATCGTCTTCA GGCCCCATGC GCTGGTGGCA GTCCCAGAAC GATGTGAGCC CTGTCTCTCT TCAACTGGAC CTAGACAAGA GGATGCAGCT TCAGGACATA ATGATGGATT TTAAGGGTCT CATGCCAGCT GGCATGTTGA TTGAGCGCTC TTCTGACTTT GGCAAGACAT GGAGGGTGTA CCAGTACCTG GCGACAGACT GTGCCAGCAC CTTTCCCCAG GTCCACCAGG GCCAGCCCAA GAACTGGCAG GACGTCCGGT GCCGGCCCTT GTCCCAGAGG CCTAATGGGC ATCTGACTGG GGGAAAGGTC CAACTTAACC TTATGGATTT GGCATCAGCT ATCCCTGCAT CTCAAAGTAA AAAGATTCAA GAACTAGGAG ACATCACGAA CTTGAGAGTC AACTTCACCA AGCTGGCCCC AGTGCCCCAG AGGGGCTCCT ATCCACCCAG CGCCTACTTT GCAGTATCAC AGCTACGTCT ACAGGGGAGT TGCTTCTGTC ATGGACATGC CGACCGCTGT GCCCCTAATC CTGGAGGCCC TACAGGTTCC ACCACCGCTG TGCAGGTCAA CGATGTCTGT GTCTGCCAGC ACAACACAGC TGGCCCCAAC TGTGACCGCT GCGCCCCCTT CTACAACAAC CGGCCATGGA GACCTGCAGA GGGACAGGAC ATCCATGAGT GCCAAAGGTG TGACTGCAAT GGGCACTCAG AGACCTGCCA CTTCGACCCA GCTGTGTTTG CTGCTAGCCA AGGGACAAGT GGAGGCGTGT GTGACAACTG CCAGGACCAC ACAGAGGGCA AGAACTGTGA GCGATGTCAG CTACACTATT TCCGGAATAG ACGACCAGGC GCTCCCATTC ATGAGACCTG TATTCCCTGC GAGTGTGATC CAGACGGGGC AGTCCCAGGA GCTCCCTGTG ACCGACTGAC GGGCCAGTGC GTGTGCAAAG ACCACGTGCA AGGGGAGCGC TGTGATCTTT GCAAGCCTGG TTTCACAGGG CTCACCTTCG CCAACCCACA GGGCTGCCAT CCCTGTGACT GCAGCATCTT AGGTACCCGG CAAGATATGC CTTGTGAGGA GGAAACTGGA CGCTGCTTGT GTCTTCCCAA TGTAGTGGGC CCCAAATGTG ACCAGTGCGC CCCTTCCCAC TGGAAGCTGG CCAGCGGCCG GGGCTGTGAG CCCTGTGCCT GTGACCCACG CAACTCCCTC AGCTCCCAGT GCAACCAGTT TACAGGGCAG TGTCCTTGTC GGGAAGGGTT TGGTGGCCTC ACATGTAGTT CTGCAGCCAT TCGTCAGTGT CCCGACCGGA CCCATGGAGA CGTGGCCACA GGGTGCCGAG CCTGTGACTG TGACTTCAGA GGAACCGAGG GTCCTGGCTG TGACAAAACC TCAGGCCGTT GCCTCTGCCG CCCCGGCTTG ACAGGGCCCC GCTGCGACCA GTGCCAACGA GGCTACTGCG ACCGCTACCC AGTGTGTGTG GCCTGCCACT CTTGCTTCCA GGCCTATGAC ACAGACCTCC AGGAGCAGGC TTGGCGCCTT GGCAGTCTCC GTAATACCAC TGAAGGCCTG GGCACAGGGA CAGGTCTGGA GGACCGTGGC CTGGCTTCTC GGTTGCTAGA TGCCAAGAGC AAAATCGAGC AGATCAGACA GATTCTGGGT GGCACCTCTG TCACAGAGCG GGATGTGGCT CAAGTGGCCA ATGCCATCCT GTCTATCAGG AGGACTCTTC AGGGCCTGCC CCTGGACCTA CCCTTAGAGG AGGAGATGGA ATCCTTCTCT GGAGACCTGG GGAATCTAGA CAGAAGCTTC AATCGCCTCC TCCTTATGTA CCGGAGCAAG AAGGAGCAGT TTGAGAAGCT AAGCAGTGTG GACCCTTCAG GAGCCTTCCG CATGCTGACT ATGGCTTATG AGCAGTCCTC CCGGGCTGCA CAGCAAGTAT CCGACAGTTC CAGCCTGCTG AGCCAGCTGA GGGACAGTCG CAGAGAGGTA GAAGGTCTGG AGAGACAGAC TGGAGAGGGA GGAGCTGGAG GAGCTCAGCT CATGGCCCTG CGCCTAGAGA TGGCTTCACT GCCTGACTTG ACACCCACCA TCAACAAGCT CTGTGGTGGC TCTAGGCAGA CAGCCTGCAC CCCAGGAGAC TGCCCTGGAT TGCTGTGTCC CCAGGACAAT GGTACAGCCT GTGGCTCTCA CTGCAGGGGA GCCCTGCCCA GAGCCAGAGG GGCCTTACAC ATGGCAGGGC AGGTAGCTGA GCAGCTACGA AGCTTCAATA CCCAGCTCCA GCAGACCAGG CAAATGATCA GGGCAGCTGA GGAGGCAGCA TCAAAGGTCC AATCAGATGC CCAGCGCCTT GAGACTCAGG TGAGTACCAG CCGCTTACAG ATGGAGGAAG ATGTCCGGCG CACACGGCTT CTCATCCAGC AGGTCCGGGG CTTCCTCACA GACCCTCACA CAGATGCAGC CACCATCCAA CAGGTGAGCG AGGCAGTGCT GGCTCTCTGG CTGCCCACAG ACTCAGCTAC AGTGCTACGC AAGATGAAAG AGATCCAGGA CATTGCTGCC AGGCTCCCTA ACGTGGACTT AGTGCTATCC CAGACTAAGC AGGACATTGC ACGGGCCCGC AGGCTCCAGG CTGAGGCCGA GAAGGCCAGA AGCCGAGCCC ACGTTGTGGA AGGGCAGGTG GATGACGTGG TCGGGAACCT CAGGCAGGGC ACCGTGGCTC TGCAGGAGGC TCAGGACACT ATGCAGGGCA CTGGCCGCTC TCTTCGGCTC ATCCAGGAAA GGGTTACTGA GGTTCAGCAG GTCCTGGTAC CAGCTGAAAG GCTGGTGAAA GGCATGAAGG AACAGATGAG TGGATTCTGG GCACGGGTGA AGGAGCTCCG CCATCAGGCC CAGGAAGAGC AGGCACAGGC AATGAAGGCC CAGCAGCTTG CAGAGGGTGC CAGCAATCAG GCCATGAATG CTCAGGAGGG CTTTGAGAGA CTTAAGCAAA GGTATACAGA GTTGAAAGAC CGGCTGGGTC AGAGTTCTAT GCTGGGTGAG CAAGGCAATC GGATCTTGAG CATCAAGGCG GAGGCAGAGG AGCTCTTTGG GGAAACCATG GAAATGATGG ATAAAATGAA AGACATGGAG TCAGAGCTGC TTCGAGGGAG TCAGGCCATC ATGCTTCGTT CAGCAGACCT GTCGGGGCTG GAGAAGCGCG TGGAGCAGAT CCGCAGTTAC ATCAACGGGC GTGTGCTGTA CTATGCCACC TGCAAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_001094311.1 |
CDS | 178..3696 |
Translation | |
Target ORF information:
RefSeq Version | NM_001100841.1 |
Organism | Rattus norvegicus(Norway rat) |
Definition | Rattus norvegicus laminin subunit beta 3 (Lamb3), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_001100841.1 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481
| ATGATGACGG CACTTTTCCT CTTGTGGCTT GCCTTGCCTG GCCTCCTGTG TGCCCAGCAA CCCTGCTCCC GAGGGGCCTG TTATCCACCT GTTGGGGACT TGCTCATTGG AAGGACTCAG CTTCTTCGAG CCTCGTCTAC CTGTGGATTG ACCAAGCCTG AGACCTATTG CACCCAATAT GGACAGTGGC AGATGAAATG CTGCAAGTGT GACTCCAGGC TGCCTCGCAA CTACAACAGT CACCGAGTGG AGAACGTTGT ATCGTCTTCA GGCCCCATGC GCTGGTGGCA GTCCCAGAAC GATGTGAGCC CTGTCTCTCT TCAACTGGAC CTAGACAAGA GGATGCAGCT TCAGGACATA ATGATGGATT TTAAGGGTCT CATGCCAGCT GGCATGTTGA TTGAGCGCTC TTCTGACTTT GGCAAGACAT GGAGGGTGTA CCAGTACCTG GCGACAGACT GTGCCAGCAC CTTTCCCCAG GTCCACCAGG GCCAGCCCAA GAACTGGCAG GACGTCCGGT GCCGGCCCTT GTCCCAGAGG CCTAATGGGC ATCTGACTGG GGGAAAGGTC CAACTTAACC TTATGGATTT GGCATCAGCT ATCCCTGCAT CTCAAAGTAA AAAGATTCAA GAACTAGGAG ACATCACGAA CTTGAGAGTC AACTTCACCA AGCTGGCCCC AGTGCCCCAG AGGGGCTCCT ATCCACCCAG CGCCTACTTT GCAGTATCAC AGCTACGTCT ACAGGGGAGT TGCTTCTGTC ATGGACATGC CGACCGCTGT GCCCCTAATC CTGGAGGCCC TACAGGTTCC ACCACCGCTG TGCAGGTCAA CGATGTCTGT GTCTGCCAGC ACAACACAGC TGGCCCCAAC TGTGACCGCT GCGCCCCCTT CTACAACAAC CGGCCATGGA GACCTGCAGA GGGACAGGAC ATCCATGAGT GCCAAAGGTG TGACTGCAAT GGGCACTCAG AGACCTGCCA CTTCGACCCA GCTGTGTTTG CTGCTAGCCA AGGGACAAGT GGAGGCGTGT GTGACAACTG CCAGGACCAC ACAGAGGGCA AGAACTGTGA GCGATGTCAG CTACACTATT TCCGGAATAG ACGACCAGGC GCTCCCATTC ATGAGACCTG TATTCCCTGC GAGTGTGATC CAGACGGGGC AGTCCCAGGA GCTCCCTGTG ACCGACTGAC GGGCCAGTGC GTGTGCAAAG ACCACGTGCA AGGGGAGCGC TGTGATCTTT GCAAGCCTGG TTTCACAGGG CTCACCTTCG CCAACCCACA GGGCTGCCAT CCCTGTGACT GCAGCATCTT AGGTACCCGG CAAGATATGC CTTGTGAGGA GGAAACTGGA CGCTGCTTGT GTCTTCCCAA TGTAGTGGGC CCCAAATGTG ACCAGTGCGC CCCTTCCCAC TGGAAGCTGG CCAGCGGCCG GGGCTGTGAG CCCTGTGCCT GTGACCCACG CAACTCCCTC AGCTCCCAGT GCAACCAGTT TACAGGGCAG TGTCCTTGTC GGGAAGGGTT TGGTGGCCTC ACATGTAGTT CTGCAGCCAT TCGTCAGTGT CCCGACCGGA CCCATGGAGA CGTGGCCACA GGGTGCCGAG CCTGTGACTG TGACTTCAGA GGAACCGAGG GTCCTGGCTG TGACAAAACC TCAGGCCGTT GCCTCTGCCG CCCCGGCTTG ACAGGGCCCC GCTGCGACCA GTGCCAACGA GGCTACTGCG ACCGCTACCC AGTGTGTGTG GCCTGCCACT CTTGCTTCCA GGCCTATGAC ACAGACCTCC AGGAGCAGGC TTGGCGCCTT GGCAGTCTCC GTAATACCAC TGAAGGCCTG GGCACAGGGA CAGGTCTGGA GGACCGTGGC CTGGCTTCTC GGTTGCTAGA TGCCAAGAGC AAAATCGAGC AGATCAGACA GATTCTGGGT GGCACCTCTG TCACAGAGCG GGATGTGGCT CAAGTGGCCA ATGCCATCCT GTCTATCAGG AGGACTCTTC AGGGCCTGCC CCTGGACCTA CCCTTAGAGG AGGAGATGGA ATCCTTCTCT GGAGACCTGG GGAATCTAGA CAGAAGCTTC AATCGCCTCC TCCTTATGTA CCGGAGCAAG AAGGAGCAGT TTGAGAAGCT AAGCAGTGTG GACCCTTCAG GAGCCTTCCG CATGCTGACT ATGGCTTATG AGCAGTCCTC CCGGGCTGCA CAGCAAGTAT CCGACAGTTC CAGCCTGCTG AGCCAGCTGA GGGACAGTCG CAGAGAGGTA GAAGGTCTGG AGAGACAGAC TGGAGAGGGA GGAGCTGGAG GAGCTCAGCT CATGGCCCTG CGCCTAGAGA TGGCTTCACT GCCTGACTTG ACACCCACCA TCAACAAGCT CTGTGGTGGC TCTAGGCAGA CAGCCTGCAC CCCAGGAGAC TGCCCTGGAT TGCTGTGTCC CCAGGACAAT GGTACAGCCT GTGGCTCTCA CTGCAGGGGA GCCCTGCCCA GAGCCAGAGG GGCCTTACAC ATGGCAGGGC AGGTAGCTGA GCAGCTACGA AGCTTCAATA CCCAGCTCCA GCAGACCAGG CAAATGATCA GGGCAGCTGA GGAGGCAGCA TCAAAGGTCC AATCAGATGC CCAGCGCCTT GAGACTCAGG TGAGTACCAG CCGCTTACAG ATGGAGGAAG ATGTCCGGCG CACACGGCTT CTCATCCAGC AGGTCCGGGG CTTCCTCACA GACCCTCACA CAGATGCAGC CACCATCCAA CAGGTGAGCG AGGCAGTGCT GGCTCTCTGG CTGCCCACAG ACTCAGCTAC AGTGCTACGC AAGATGAAAG AGATCCAGGA CATTGCTGCC AGGCTCCCTA ACGTGGACTT AGTGCTATCC CAGACTAAGC AGGACATTGC ACGGGCCCGC AGGCTCCAGG CTGAGGCCGA GAAGGCCAGA AGCCGAGCCC ACGTTGTGGA AGGGCAGGTG GATGACGTGG TCGGGAACCT CAGGCAGGGC ACCGTGGCTC TGCAGGAGGC TCAGGACACT ATGCAGGGCA CTGGCCGCTC TCTTCGGCTC ATCCAGGAAA GGGTTACTGA GGTTCAGCAG GTCCTGGTAC CAGCTGAAAG GCTGGTGAAA GGCATGAAGG AACAGATGAG TGGATTCTGG GCACGGGTGA AGGAGCTCCG CCATCAGGCC CAGGAAGAGC AGGCACAGGC AATGAAGGCC CAGCAGCTTG CAGAGGGTGC CAGCAATCAG GCCATGAATG CTCAGGAGGG CTTTGAGAGA CTTAAGCAAA GGTATACAGA GTTGAAAGAC CGGCTGGGTC AGAGTTCTAT GCTGGGTGAG CAAGGCAATC GGATCTTGAG CATCAAGGCG GAGGCAGAGG AGCTCTTTGG GGAAACCATG GAAATGATGG ATAAAATGAA AGACATGGAG TCAGAGCTGC TTCGAGGGAG TCAGGCCATC ATGCTTCGTT CAGCAGACCT GTCGGGGCTG GAGAAGCGCG TGGAGCAGAT CCGCAGTTAC ATCAACGGGC GTGTGCTGTA CTATGCCACC TGCAAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ORa11134 |
Clone ID Related Accession (Same CDS sequence) |
XM_008769856.2
, NM_001100841.1
|
Accession Version |
XM_008769856.2 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3519bp)
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 |
laminin subunit beta-3 isoform X1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005112.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jul 26, 2016 this sequence version replaced XM_008769856.1.
##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##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481
| ATGATGACGG CACTTTTCCT CTTGTGGCTT GCCTTGCCTG GCCTCCTGTG TGCCCAGCAA CCCTGCTCCC GAGGGGCCTG TTATCCACCT GTTGGGGACT TGCTCATTGG AAGGACTCAG CTTCTTCGAG CCTCGTCTAC CTGTGGATTG ACCAAGCCTG AGACCTATTG CACCCAATAT GGACAGTGGC AGATGAAATG CTGCAAGTGT GACTCCAGGC TGCCTCGCAA CTACAACAGT CACCGAGTGG AGAACGTTGT ATCGTCTTCA GGCCCCATGC GCTGGTGGCA GTCCCAGAAC GATGTGAGCC CTGTCTCTCT TCAACTGGAC CTAGACAAGA GGATGCAGCT TCAGGACATA ATGATGGATT TTAAGGGTCT CATGCCAGCT GGCATGTTGA TTGAGCGCTC TTCTGACTTT GGCAAGACAT GGAGGGTGTA CCAGTACCTG GCGACAGACT GTGCCAGCAC CTTTCCCCAG GTCCACCAGG GCCAGCCCAA GAACTGGCAG GACGTCCGGT GCCGGCCCTT GTCCCAGAGG CCTAATGGGC ATCTGACTGG GGGAAAGGTC CAACTTAACC TTATGGATTT GGCATCAGCT ATCCCTGCAT CTCAAAGTAA AAAGATTCAA GAACTAGGAG ACATCACGAA CTTGAGAGTC AACTTCACCA AGCTGGCCCC AGTGCCCCAG AGGGGCTCCT ATCCACCCAG CGCCTACTTT GCAGTATCAC AGCTACGTCT ACAGGGGAGT TGCTTCTGTC ATGGACATGC CGACCGCTGT GCCCCTAATC CTGGAGGCCC TACAGGTTCC ACCACCGCTG TGCAGGTCAA CGATGTCTGT GTCTGCCAGC ACAACACAGC TGGCCCCAAC TGTGACCGCT GCGCCCCCTT CTACAACAAC CGGCCATGGA GACCTGCAGA GGGACAGGAC ATCCATGAGT GCCAAAGGTG TGACTGCAAT GGGCACTCAG AGACCTGCCA CTTCGACCCA GCTGTGTTTG CTGCTAGCCA AGGGACAAGT GGAGGCGTGT GTGACAACTG CCAGGACCAC ACAGAGGGCA AGAACTGTGA GCGATGTCAG CTACACTATT TCCGGAATAG ACGACCAGGC GCTCCCATTC ATGAGACCTG TATTCCCTGC GAGTGTGATC CAGACGGGGC AGTCCCAGGA GCTCCCTGTG ACCGACTGAC GGGCCAGTGC GTGTGCAAAG ACCACGTGCA AGGGGAGCGC TGTGATCTTT GCAAGCCTGG TTTCACAGGG CTCACCTTCG CCAACCCACA GGGCTGCCAT CCCTGTGACT GCAGCATCTT AGGTACCCGG CAAGATATGC CTTGTGAGGA GGAAACTGGA CGCTGCTTGT GTCTTCCCAA TGTAGTGGGC CCCAAATGTG ACCAGTGCGC CCCTTCCCAC TGGAAGCTGG CCAGCGGCCG GGGCTGTGAG CCCTGTGCCT GTGACCCACG CAACTCCCTC AGCTCCCAGT GCAACCAGTT TACAGGGCAG TGTCCTTGTC GGGAAGGGTT TGGTGGCCTC ACATGTAGTT CTGCAGCCAT TCGTCAGTGT CCCGACCGGA CCCATGGAGA CGTGGCCACA GGGTGCCGAG CCTGTGACTG TGACTTCAGA GGAACCGAGG GTCCTGGCTG TGACAAAACC TCAGGCCGTT GCCTCTGCCG CCCCGGCTTG ACAGGGCCCC GCTGCGACCA GTGCCAACGA GGCTACTGCG ACCGCTACCC AGTGTGTGTG GCCTGCCACT CTTGCTTCCA GGCCTATGAC ACAGACCTCC AGGAGCAGGC TTGGCGCCTT GGCAGTCTCC GTAATACCAC TGAAGGCCTG GGCACAGGGA CAGGTCTGGA GGACCGTGGC CTGGCTTCTC GGTTGCTAGA TGCCAAGAGC AAAATCGAGC AGATCAGACA GATTCTGGGT GGCACCTCTG TCACAGAGCG GGATGTGGCT CAAGTGGCCA ATGCCATCCT GTCTATCAGG AGGACTCTTC AGGGCCTGCC CCTGGACCTA CCCTTAGAGG AGGAGATGGA ATCCTTCTCT GGAGACCTGG GGAATCTAGA CAGAAGCTTC AATCGCCTCC TCCTTATGTA CCGGAGCAAG AAGGAGCAGT TTGAGAAGCT AAGCAGTGTG GACCCTTCAG GAGCCTTCCG CATGCTGACT ATGGCTTATG AGCAGTCCTC CCGGGCTGCA CAGCAAGTAT CCGACAGTTC CAGCCTGCTG AGCCAGCTGA GGGACAGTCG CAGAGAGGTA GAAGGTCTGG AGAGACAGAC TGGAGAGGGA GGAGCTGGAG GAGCTCAGCT CATGGCCCTG CGCCTAGAGA TGGCTTCACT GCCTGACTTG ACACCCACCA TCAACAAGCT CTGTGGTGGC TCTAGGCAGA CAGCCTGCAC CCCAGGAGAC TGCCCTGGAT TGCTGTGTCC CCAGGACAAT GGTACAGCCT GTGGCTCTCA CTGCAGGGGA GCCCTGCCCA GAGCCAGAGG GGCCTTACAC ATGGCAGGGC AGGTAGCTGA GCAGCTACGA AGCTTCAATA CCCAGCTCCA GCAGACCAGG CAAATGATCA GGGCAGCTGA GGAGGCAGCA TCAAAGGTCC AATCAGATGC CCAGCGCCTT GAGACTCAGG TGAGTACCAG CCGCTTACAG ATGGAGGAAG ATGTCCGGCG CACACGGCTT CTCATCCAGC AGGTCCGGGG CTTCCTCACA GACCCTCACA CAGATGCAGC CACCATCCAA CAGGTGAGCG AGGCAGTGCT GGCTCTCTGG CTGCCCACAG ACTCAGCTAC AGTGCTACGC AAGATGAAAG AGATCCAGGA CATTGCTGCC AGGCTCCCTA ACGTGGACTT AGTGCTATCC CAGACTAAGC AGGACATTGC ACGGGCCCGC AGGCTCCAGG CTGAGGCCGA GAAGGCCAGA AGCCGAGCCC ACGTTGTGGA AGGGCAGGTG GATGACGTGG TCGGGAACCT CAGGCAGGGC ACCGTGGCTC TGCAGGAGGC TCAGGACACT ATGCAGGGCA CTGGCCGCTC TCTTCGGCTC ATCCAGGAAA GGGTTACTGA GGTTCAGCAG GTCCTGGTAC CAGCTGAAAG GCTGGTGAAA GGCATGAAGG AACAGATGAG TGGATTCTGG GCACGGGTGA AGGAGCTCCG CCATCAGGCC CAGGAAGAGC AGGCACAGGC AATGAAGGCC CAGCAGCTTG CAGAGGGTGC CAGCAATCAG GCCATGAATG CTCAGGAGGG CTTTGAGAGA CTTAAGCAAA GGTATACAGA GTTGAAAGAC CGGCTGGGTC AGAGTTCTAT GCTGGGTGAG CAAGGCAATC GGATCTTGAG CATCAAGGCG GAGGCAGAGG AGCTCTTTGG GGAAACCATG GAAATGATGG ATAAAATGAA AGACATGGAG TCAGAGCTGC TTCGAGGGAG TCAGGCCATC ATGCTTCGTT CAGCAGACCT GTCGGGGCTG GAGAAGCGCG TGGAGCAGAT CCGCAGTTAC ATCAACGGGC GTGTGCTGTA CTATGCCACC TGCAAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_008768078.1 |
CDS | 110..3628 |
Translation | |
Target ORF information:
RefSeq Version | XM_008769856.2 |
Organism | Rattus norvegicus(Norway rat) |
Definition | Rattus norvegicus laminin subunit beta 3 (Lamb3), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_008769856.2 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481
| ATGATGACGG CACTTTTCCT CTTGTGGCTT GCCTTGCCTG GCCTCCTGTG TGCCCAGCAA CCCTGCTCCC GAGGGGCCTG TTATCCACCT GTTGGGGACT TGCTCATTGG AAGGACTCAG CTTCTTCGAG CCTCGTCTAC CTGTGGATTG ACCAAGCCTG AGACCTATTG CACCCAATAT GGACAGTGGC AGATGAAATG CTGCAAGTGT GACTCCAGGC TGCCTCGCAA CTACAACAGT CACCGAGTGG AGAACGTTGT ATCGTCTTCA GGCCCCATGC GCTGGTGGCA GTCCCAGAAC GATGTGAGCC CTGTCTCTCT TCAACTGGAC CTAGACAAGA GGATGCAGCT TCAGGACATA ATGATGGATT TTAAGGGTCT CATGCCAGCT GGCATGTTGA TTGAGCGCTC TTCTGACTTT GGCAAGACAT GGAGGGTGTA CCAGTACCTG GCGACAGACT GTGCCAGCAC CTTTCCCCAG GTCCACCAGG GCCAGCCCAA GAACTGGCAG GACGTCCGGT GCCGGCCCTT GTCCCAGAGG CCTAATGGGC ATCTGACTGG GGGAAAGGTC CAACTTAACC TTATGGATTT GGCATCAGCT ATCCCTGCAT CTCAAAGTAA AAAGATTCAA GAACTAGGAG ACATCACGAA CTTGAGAGTC AACTTCACCA AGCTGGCCCC AGTGCCCCAG AGGGGCTCCT ATCCACCCAG CGCCTACTTT GCAGTATCAC AGCTACGTCT ACAGGGGAGT TGCTTCTGTC ATGGACATGC CGACCGCTGT GCCCCTAATC CTGGAGGCCC TACAGGTTCC ACCACCGCTG TGCAGGTCAA CGATGTCTGT GTCTGCCAGC ACAACACAGC TGGCCCCAAC TGTGACCGCT GCGCCCCCTT CTACAACAAC CGGCCATGGA GACCTGCAGA GGGACAGGAC ATCCATGAGT GCCAAAGGTG TGACTGCAAT GGGCACTCAG AGACCTGCCA CTTCGACCCA GCTGTGTTTG CTGCTAGCCA AGGGACAAGT GGAGGCGTGT GTGACAACTG CCAGGACCAC ACAGAGGGCA AGAACTGTGA GCGATGTCAG CTACACTATT TCCGGAATAG ACGACCAGGC GCTCCCATTC ATGAGACCTG TATTCCCTGC GAGTGTGATC CAGACGGGGC AGTCCCAGGA GCTCCCTGTG ACCGACTGAC GGGCCAGTGC GTGTGCAAAG ACCACGTGCA AGGGGAGCGC TGTGATCTTT GCAAGCCTGG TTTCACAGGG CTCACCTTCG CCAACCCACA GGGCTGCCAT CCCTGTGACT GCAGCATCTT AGGTACCCGG CAAGATATGC CTTGTGAGGA GGAAACTGGA CGCTGCTTGT GTCTTCCCAA TGTAGTGGGC CCCAAATGTG ACCAGTGCGC CCCTTCCCAC TGGAAGCTGG CCAGCGGCCG GGGCTGTGAG CCCTGTGCCT GTGACCCACG CAACTCCCTC AGCTCCCAGT GCAACCAGTT TACAGGGCAG TGTCCTTGTC GGGAAGGGTT TGGTGGCCTC ACATGTAGTT CTGCAGCCAT TCGTCAGTGT CCCGACCGGA CCCATGGAGA CGTGGCCACA GGGTGCCGAG CCTGTGACTG TGACTTCAGA GGAACCGAGG GTCCTGGCTG TGACAAAACC TCAGGCCGTT GCCTCTGCCG CCCCGGCTTG ACAGGGCCCC GCTGCGACCA GTGCCAACGA GGCTACTGCG ACCGCTACCC AGTGTGTGTG GCCTGCCACT CTTGCTTCCA GGCCTATGAC ACAGACCTCC AGGAGCAGGC TTGGCGCCTT GGCAGTCTCC GTAATACCAC TGAAGGCCTG GGCACAGGGA CAGGTCTGGA GGACCGTGGC CTGGCTTCTC GGTTGCTAGA TGCCAAGAGC AAAATCGAGC AGATCAGACA GATTCTGGGT GGCACCTCTG TCACAGAGCG GGATGTGGCT CAAGTGGCCA ATGCCATCCT GTCTATCAGG AGGACTCTTC AGGGCCTGCC CCTGGACCTA CCCTTAGAGG AGGAGATGGA ATCCTTCTCT GGAGACCTGG GGAATCTAGA CAGAAGCTTC AATCGCCTCC TCCTTATGTA CCGGAGCAAG AAGGAGCAGT TTGAGAAGCT AAGCAGTGTG GACCCTTCAG GAGCCTTCCG CATGCTGACT ATGGCTTATG AGCAGTCCTC CCGGGCTGCA CAGCAAGTAT CCGACAGTTC CAGCCTGCTG AGCCAGCTGA GGGACAGTCG CAGAGAGGTA GAAGGTCTGG AGAGACAGAC TGGAGAGGGA GGAGCTGGAG GAGCTCAGCT CATGGCCCTG CGCCTAGAGA TGGCTTCACT GCCTGACTTG ACACCCACCA TCAACAAGCT CTGTGGTGGC TCTAGGCAGA CAGCCTGCAC CCCAGGAGAC TGCCCTGGAT TGCTGTGTCC CCAGGACAAT GGTACAGCCT GTGGCTCTCA CTGCAGGGGA GCCCTGCCCA GAGCCAGAGG GGCCTTACAC ATGGCAGGGC AGGTAGCTGA GCAGCTACGA AGCTTCAATA CCCAGCTCCA GCAGACCAGG CAAATGATCA GGGCAGCTGA GGAGGCAGCA TCAAAGGTCC AATCAGATGC CCAGCGCCTT GAGACTCAGG TGAGTACCAG CCGCTTACAG ATGGAGGAAG ATGTCCGGCG CACACGGCTT CTCATCCAGC AGGTCCGGGG CTTCCTCACA GACCCTCACA CAGATGCAGC CACCATCCAA CAGGTGAGCG AGGCAGTGCT GGCTCTCTGG CTGCCCACAG ACTCAGCTAC AGTGCTACGC AAGATGAAAG AGATCCAGGA CATTGCTGCC AGGCTCCCTA ACGTGGACTT AGTGCTATCC CAGACTAAGC AGGACATTGC ACGGGCCCGC AGGCTCCAGG CTGAGGCCGA GAAGGCCAGA AGCCGAGCCC ACGTTGTGGA AGGGCAGGTG GATGACGTGG TCGGGAACCT CAGGCAGGGC ACCGTGGCTC TGCAGGAGGC TCAGGACACT ATGCAGGGCA CTGGCCGCTC TCTTCGGCTC ATCCAGGAAA GGGTTACTGA GGTTCAGCAG GTCCTGGTAC CAGCTGAAAG GCTGGTGAAA GGCATGAAGG AACAGATGAG TGGATTCTGG GCACGGGTGA AGGAGCTCCG CCATCAGGCC CAGGAAGAGC AGGCACAGGC AATGAAGGCC CAGCAGCTTG CAGAGGGTGC CAGCAATCAG GCCATGAATG CTCAGGAGGG CTTTGAGAGA CTTAAGCAAA GGTATACAGA GTTGAAAGAC CGGCTGGGTC AGAGTTCTAT GCTGGGTGAG CAAGGCAATC GGATCTTGAG CATCAAGGCG GAGGCAGAGG AGCTCTTTGG GGAAACCATG GAAATGATGG ATAAAATGAA AGACATGGAG TCAGAGCTGC TTCGAGGGAG TCAGGCCATC ATGCTTCGTT CAGCAGACCT GTCGGGGCTG GAGAAGCGCG TGGAGCAGAT CCGCAGTTAC ATCAACGGGC GTGTGCTGTA CTATGCCACC TGCAAGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
Transcriptome-based systematic identification of extracellular matrix proteins.
Proceedings of the National Academy of Sciences of the United States of America105(35)12849-54(2008 Sep)
Manabe R,Tsutsui K,Yamada T,Kimura M,Nakano I,Shimono C,Sanzen N,Furutani Y,Fukuda T,Oguri Y,Shimamoto K,Kiyozumi D,Sato Y,Sado Y,Senoo H,Yamashina S,Fukuda S,Kawai J,Sugiura N,Kimata K,Hayashizaki Y,Sekiguchi K |