| Bos taurus (cattle) |
EMILIN1 |
NP_001179363.1 |
| Mus musculus (house mouse) |
Emilin1 |
NP_598679.1 |
| Pan troglodytes (chimpanzee) |
EMILIN1 |
XP_515351.2 |
|
EMILIN1 |
XP_001089257.1 |
| Rattus norvegicus (Norway rat) |
Emilin1 |
NP_001100180.1 |
| Homo sapiens (human) |
EMILIN1 |
NP_008977.1 |
| Canis lupus familiaris (dog) |
EMILIN1 |
XP_003432201.1 |
| Danio rerio (zebrafish) |
emilin1a |
NP_001025378.1 |
| Xenopus tropicalis (tropical clawed frog) |
emilin1 |
NP_001090870.1 |
Related articles in PubMed
Downregulated Elastin Microfibril Interfacer 1 Expression in the Pulmonary Vasculature of Experimental Congenital Diaphragmatic Hernia.
Zimmer J, Takahashi T, Hofmann AD, Puri P
European journal of pediatric surgery : official journal of Austrian Association of Pediatric Surgery ... [et al] = Zeitschrift fur Kinderchirurgie28(1)115-119(2018 Feb)
Extracellular matrix remodelling in response to venous hypertension: proteomics of human varicose veins.
Barallobre-Barreiro J, Oklu R, Lynch M, Fava M, Baig F, Yin X, Barwari T, Potier DN, Albadawi H, Jahangiri M, Porter KE, Watkins MT, Misra S, Stoughton J, Mayr M
Cardiovascular research110(3)419-30(2016 06)
Diagnostic Exome Sequencing Identifies a Novel Gene, EMILIN1, Associated with Autosomal-Dominant Hereditary Connective Tissue Disease.
Capuano A, Bucciotti F, Farwell KD, Tippin Davis B, Mroske C, Hulick PJ, Weissman SM, Gao Q, Spessotto P, Colombatti A, Doliana R
Human mutation37(1)84-97(2016 Jan)
TGF-? mediates early angiogenesis and latent fibrosis in an Emilin1-deficient mouse model of aortic valve disease.
Munjal C, Opoka AM, Osinska H, James JF, Bressan GM, Hinton RB
Disease models & mechanisms7(8)987-96(2014 Aug)
Extracellular matrix secretion by cardiac fibroblasts: role of microRNA-29b and microRNA-30c.
Abonnenc M, Nabeebaccus AA, Mayr U, Barallobre-Barreiro J, Dong X, Cuello F, Sur S, Drozdov I, Langley SR, Lu R, Stathopoulou K, Didangelos A, Yin X, Zimmermann WH, Shah AM, Zampetaki A, Mayr M
Circulation research113(10)1138-47(2013 Oct)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following Emilin1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Emilin1 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 |
ORa04943 |
| Clone ID Related Accession (Same CDS sequence) |
NM_001106710.1
|
| Accession Version |
NM_001106710.1 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 2703bp)
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 |
2019-04-18 |
| Organism |
Rattus norvegicus(Norway rat) |
| Product |
EMILIN-1 |
| Comment |
Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473947.1. On or before Oct 4, 2007 this sequence version replaced XM_238447.4, XM_001064749.1.
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##
RNAseq introns :: single sample supports all introns SAMN00632252, SAMN02642756 [ECO:0000348]
##Evidence-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
| ATGGAGTGGA GGTGCTGTCA GGGGTATGGG GGCGATGACT GCGGAGAGGG TCCTGCTTCT
GTTCTGGGCC CTGCACCCTC CACACCACTT CCCCGGCCCA GGCCTGCGCG TCCCAACCTG
TCTGGCTCCA GTGCCGGCAG CCACCTCAGT GGACTAGGAG GAGAAGGCCC TGGTGAGACA
GAGAAGGTGC AGCAGCTAGA GCAGCAGGTA AAGAGTCTGA CCAAAGAGCT GCAAGGCCTT
CGAGGTGTCC TTCAGGGAAT GAATGGGCGC CTGGCAGAAG ATGTACAGAG GGCTGTGGAG
GCGGCCTTTA ATGGGAGGCA GCAGCCAGCA GATGCAGCTG CCCGCCCAGG TGTGCACGAA
ACCCTCAATG AGATCCAGCA GCAGCTGCAG CTCCTGGACA ACCGTGTCTC CACCCATGAC
CAGGAACTGG GCCACCTTAA CAACCATCAT AATGGAGGCC CTGGTGGAAG CGGCAGGGCC
TCAGCCCCTG TCCCTGTTCC TTCTGGCCCC AGCGAGGAAC TGTTAAGGCA GCTGGAACGG
CAGCTGCAGG AGTCTTGCTC AGTGTGCCTG GCAGGGCTGG ATGGCTTCCG CCAGCAGCAA
CAAGAGGATA GGGAGCGGCT GCGAACCCTG GAGAAGCTGA TGTCCTCTAT GGAGGAGCGG
CAGCAGCAGC TTATGGGACC TGCCATGGCC AGAAGACCCC CTCAGGAATG CTGCCCCCCG
GAGCTGGGTC GGAGAGTGTC AGAGCTGGAA CGGAGGCTGG ATGTGGTGGC TGGCTCGGTG
ACAGTGCTAA GCGGACGTAG AGGTTCTGAG CTCGGAGGAG CAGCAGGGCA GGGGGGCCAT
CCCCCGGGGT ACACCAGCTT GGCCTCCCGC CTTTCTCACC TGGAGGACCG CTTCAACTCT
ACCCTAGGTC CCTCAGAGGA ACAAGAGAAG AACTGGCCTG GAGGACCAGG GAGGCTGGGC
CAGTGGTTGC CTGCTGCTCC TGGACAGCTG GAAAAGCTGG AGGTGCTACT AGCCAATGTG
AGCAGGGAGC TGGGTGGCCG CCTAGATCTA TTGGAAGAGC AGGTGGCAGG GGCTGTTAGG
GCTTGTGGTC AGATCTGTTC CGAGGGGCCT GGGGAACAGG ACTCTCGGGT CAGTGAGATC
CTCAGTGCCT TGGAGCGCAG GGTGCTGGAC AGCGAGGGCC AGTTAAGGCT GGTGGGTTCA
GGCTTACACA AAGCAGAAAC GGCAGGGGAG GCCCAGCAGG CCATGTTGGA GGGACTGCAA
GGGATTCTGG GCCGGCTTCA GGAGCGCATG GACACACAGG AAGAGACAGC AGCAGAACTC
TCACTGCGCC TCAATCTTAC CGCAGCCCAG CTAAGCCAAC TGGAGGGTCT GCTGCAAGCC
CGTGGGGACG AGGGCTGTGG TGCCTGTGGT GGTGTCCAGG AGGAGCTAGG CCGTCTTCGG
GATGGTGTGG AACGTTGCTC CTGCCCATTG TTACCTCCAC GGGGCCCTGG AGCTGGCCCA
GGGGTTGGGG GCCCAAGCCG TGGGCCTCTG GACGGTTTCA GTGTGTTTGG GGGCGGCTCG
GGCTCAGCCC TCCAGGCCCT TCAAGGAGAA CTCTCTGAGG TTATTCTCAC CTTCAGCTCC
CTTAATGACT CACTGCATGA GCTCCAGACC ACTGTGGAGG GCCAGGGCGC TGATCTGGCT
GACCTGGGGG CCACCAAGGA CAGCATCATC TCTGAGATCA ACAGGCTACA GCAGGAGGCC
ACAGAGCACA TTACAGAGAT CGAGGAGCGT TTCCGAGGCC TGGAGGAAGG CCAGGCCCAG
GCGGGCCAAT GCCCTAGCTT AGAGGGGCGA CTAGGCCGCC TTGAGGGAGT TTGTGAACGA
CTGGACACTG TGGCAGGGGG ACTACAAGGC CTCCGTGAAG GCCTTTCCAG ACACGTGGCC
GGGCTCTGGG CTGCAGTAAG GGAAAGCAAC AGTACCAGTC TGACGCAGGC CGCACTGCTG
GAGAAGCTGC TGGGGGGCCA GGCAGGCCTG GGCAGGCGGC TTGGTGCCCT CAACAGTTCC
CTGCTGCTCC TAGAAGACCG TCTGCAGCAA CTTAGCCTAA AGGACTTCAC TGGACCTTCA
GGCAAGGCTG GGCCCCCTGG GCCTCCTGGG CTACAAGGGC CTCCAGGCCC TGCAGGACCT
CCAGGACCTC CTGGCAAAGA TGGACAAAGG GGGGCCATTG GACCACCAGG TCCTCAAGGT
GAACAGGGAG TGGAGGGAGC ACCAGCAGCC CCCGTGCCTA GGGTGGCATT TTCAGCTGCC
CTGAGTTTGC CTCGGTCAGA ACCCGGCACA GTCCCCTTCG ACAGAGTCTT GCTCAACGAT
GGAGGCTACT ATGACCCAGA GACAGGTGTA TTCACTGCGC CACTGGCTGG GCGCTACTTG
CTGAGCGCTG TACTTACAGG GCACCGGCAC GAGAAAGTGG AGGCAGTACT GTCCCGCTCC
AACCTGGGCG TGGCCCGCAT AGACTCGGGA GGCTATGAAC CCGAGGGACT GGAGAATAAA
CCTGTGGCCG AAAGTCAGCC TAGCCCGGGC GCTCTGGGAG TCTTCAGCCT CATCCTGCCA
CTGCAGGTCG GAGACACTGT CTGCATCGAC CTGGTCATGG GGCAGCTGGC ACACTCAGAG
GAGCCGCTTA CCATCTTCAG CGGAGCCCTG CTTTACGAGG ACACAGACCT TGAACAGGTG
TAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
NP_001100180.1 |
| CDS | 821..3523 |
| Translation | |
Target ORF information:
| RefSeq Version | NM_001106710.1 |
| Organism | Rattus norvegicus(Norway rat) |
| Definition | Rattus norvegicus elastin microfibril interfacer 1 (Emilin1), mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
 NM_001106710.1 |
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
| ATGGAGTGGA GGTGCTGTCA GGGGTATGGG GGCGATGACT GCGGAGAGGG TCCTGCTTCT
GTTCTGGGCC CTGCACCCTC CACACCACTT CCCCGGCCCA GGCCTGCGCG TCCCAACCTG
TCTGGCTCCA GTGCCGGCAG CCACCTCAGT GGACTAGGAG GAGAAGGCCC TGGTGAGACA
GAGAAGGTGC AGCAGCTAGA GCAGCAGGTA AAGAGTCTGA CCAAAGAGCT GCAAGGCCTT
CGAGGTGTCC TTCAGGGAAT GAATGGGCGC CTGGCAGAAG ATGTACAGAG GGCTGTGGAG
GCGGCCTTTA ATGGGAGGCA GCAGCCAGCA GATGCAGCTG CCCGCCCAGG TGTGCACGAA
ACCCTCAATG AGATCCAGCA GCAGCTGCAG CTCCTGGACA ACCGTGTCTC CACCCATGAC
CAGGAACTGG GCCACCTTAA CAACCATCAT AATGGAGGCC CTGGTGGAAG CGGCAGGGCC
TCAGCCCCTG TCCCTGTTCC TTCTGGCCCC AGCGAGGAAC TGTTAAGGCA GCTGGAACGG
CAGCTGCAGG AGTCTTGCTC AGTGTGCCTG GCAGGGCTGG ATGGCTTCCG CCAGCAGCAA
CAAGAGGATA GGGAGCGGCT GCGAACCCTG GAGAAGCTGA TGTCCTCTAT GGAGGAGCGG
CAGCAGCAGC TTATGGGACC TGCCATGGCC AGAAGACCCC CTCAGGAATG CTGCCCCCCG
GAGCTGGGTC GGAGAGTGTC AGAGCTGGAA CGGAGGCTGG ATGTGGTGGC TGGCTCGGTG
ACAGTGCTAA GCGGACGTAG AGGTTCTGAG CTCGGAGGAG CAGCAGGGCA GGGGGGCCAT
CCCCCGGGGT ACACCAGCTT GGCCTCCCGC CTTTCTCACC TGGAGGACCG CTTCAACTCT
ACCCTAGGTC CCTCAGAGGA ACAAGAGAAG AACTGGCCTG GAGGACCAGG GAGGCTGGGC
CAGTGGTTGC CTGCTGCTCC TGGACAGCTG GAAAAGCTGG AGGTGCTACT AGCCAATGTG
AGCAGGGAGC TGGGTGGCCG CCTAGATCTA TTGGAAGAGC AGGTGGCAGG GGCTGTTAGG
GCTTGTGGTC AGATCTGTTC CGAGGGGCCT GGGGAACAGG ACTCTCGGGT CAGTGAGATC
CTCAGTGCCT TGGAGCGCAG GGTGCTGGAC AGCGAGGGCC AGTTAAGGCT GGTGGGTTCA
GGCTTACACA AAGCAGAAAC GGCAGGGGAG GCCCAGCAGG CCATGTTGGA GGGACTGCAA
GGGATTCTGG GCCGGCTTCA GGAGCGCATG GACACACAGG AAGAGACAGC AGCAGAACTC
TCACTGCGCC TCAATCTTAC CGCAGCCCAG CTAAGCCAAC TGGAGGGTCT GCTGCAAGCC
CGTGGGGACG AGGGCTGTGG TGCCTGTGGT GGTGTCCAGG AGGAGCTAGG CCGTCTTCGG
GATGGTGTGG AACGTTGCTC CTGCCCATTG TTACCTCCAC GGGGCCCTGG AGCTGGCCCA
GGGGTTGGGG GCCCAAGCCG TGGGCCTCTG GACGGTTTCA GTGTGTTTGG GGGCGGCTCG
GGCTCAGCCC TCCAGGCCCT TCAAGGAGAA CTCTCTGAGG TTATTCTCAC CTTCAGCTCC
CTTAATGACT CACTGCATGA GCTCCAGACC ACTGTGGAGG GCCAGGGCGC TGATCTGGCT
GACCTGGGGG CCACCAAGGA CAGCATCATC TCTGAGATCA ACAGGCTACA GCAGGAGGCC
ACAGAGCACA TTACAGAGAT CGAGGAGCGT TTCCGAGGCC TGGAGGAAGG CCAGGCCCAG
GCGGGCCAAT GCCCTAGCTT AGAGGGGCGA CTAGGCCGCC TTGAGGGAGT TTGTGAACGA
CTGGACACTG TGGCAGGGGG ACTACAAGGC CTCCGTGAAG GCCTTTCCAG ACACGTGGCC
GGGCTCTGGG CTGCAGTAAG GGAAAGCAAC AGTACCAGTC TGACGCAGGC CGCACTGCTG
GAGAAGCTGC TGGGGGGCCA GGCAGGCCTG GGCAGGCGGC TTGGTGCCCT CAACAGTTCC
CTGCTGCTCC TAGAAGACCG TCTGCAGCAA CTTAGCCTAA AGGACTTCAC TGGACCTTCA
GGCAAGGCTG GGCCCCCTGG GCCTCCTGGG CTACAAGGGC CTCCAGGCCC TGCAGGACCT
CCAGGACCTC CTGGCAAAGA TGGACAAAGG GGGGCCATTG GACCACCAGG TCCTCAAGGT
GAACAGGGAG TGGAGGGAGC ACCAGCAGCC CCCGTGCCTA GGGTGGCATT TTCAGCTGCC
CTGAGTTTGC CTCGGTCAGA ACCCGGCACA GTCCCCTTCG ACAGAGTCTT GCTCAACGAT
GGAGGCTACT ATGACCCAGA GACAGGTGTA TTCACTGCGC CACTGGCTGG GCGCTACTTG
CTGAGCGCTG TACTTACAGG GCACCGGCAC GAGAAAGTGG AGGCAGTACT GTCCCGCTCC
AACCTGGGCG TGGCCCGCAT AGACTCGGGA GGCTATGAAC CCGAGGGACT GGAGAATAAA
CCTGTGGCCG AAAGTCAGCC TAGCCCGGGC GCTCTGGGAG TCTTCAGCCT CATCCTGCCA
CTGCAGGTCG GAGACACTGT CTGCATCGAC CTGGTCATGG GGCAGCTGGC ACACTCAGAG
GAGCCGCTTA CCATCTTCAG CGGAGCCCTG CTTTACGAGG ACACAGACCT TGAACAGGTG
TAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| CloneID |
ORa29148 |
| Clone ID Related Accession (Same CDS sequence) |
XM_008764511.2
|
| Accession Version |
XM_008764511.2 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 2760bp)
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 |
EMILIN-1 isoform X2 |
| Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005105.4) 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_008764511.1.
##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
| ATGTACCGCA GCTTCCTTCG CCCTCGCTAC CGGGTGGCCT ACAAGACGGT GACAGACATG
GAGTGGAGGT GCTGTCAGGG GTATGGGGGC GATGACTGCG GAGAGGGTCC TGCTTCTGTT
CTGGGCCCTG CACCCTCCAC ACCACTTCCC CGGCCCAGGC CTGCGCGTCC CAACCTGTCT
GGCTCCAGTG CCGGCAGCCA CCTCAGTGGA CTAGGAGGAG AAGGCCCTGG TGAGACAGAG
AAGGTGCAGC AGCTAGAGCA GCAGGTAAAG AGTCTGACCA AAGAGCTGCA AGGCCTTCGA
GGTGTCCTTC AGGGAATGAA TGGGCGCCTG GCAGAAGATG TACAGAGGGC TGTGGAGGCG
GCCTTTAATG GGAGGCAGCA GCCAGCAGAT GCAGCTGCCC GCCCAGGTGT GCACGAAACC
CTCAATGAGA TCCAGCAGCA GCTGCAGCTC CTGGACAACC GTGTCTCCAC CCATGACCAG
GAACTGGGCC ACCTTAACAA CCATCATAAT GGAGGCCCTG GTGGAAGCGG CAGGGCCTCA
GCCCCTGTCC CTGTTCCTTC TGGCCCCAGC GAGGAACTGT TAAGGCAGCT GGAACGGCAG
CTGCAGGAGT CTTGCTCAGT GTGCCTGGCA GGGCTGGATG GCTTCCGCCA GCAGCAACAA
GAGGATAGGG AGCGGCTGCG AACCCTGGAG AAGCTGATGT CCTCTATGGA GGAGCGGCAG
CAGCAGCTTA TGGGACCTGC CATGGCCAGA AGACCCCCTC AGGAATGCTG CCCCCCGGAG
CTGGGTCGGA GAGTGTCAGA GCTGGAACGG AGGCTGGATG TGGTGGCTGG CTCGGTGACA
GTGCTAAGCG GACGTAGAGG TTCTGAGCTC GGAGGAGCAG CAGGGCAGGG GGGCCATCCC
CCGGGGTACA CCAGCTTGGC CTCCCGCCTT TCTCACCTGG AGGACCGCTT CAACTCTACC
CTAGGTCCCT CAGAGGAACA AGAGAAGAAC TGGCCTGGAG GACCAGGGAG GCTGGGCCAG
TGGTTGCCTG CTGCTCCTGG ACAGCTGGAA AAGCTGGAGG TGCTACTAGC CAATGTGAGC
AGGGAGCTGG GTGGCCGCCT AGATCTATTG GAAGAGCAGG TGGCAGGGGC TGTTAGGGCT
TGTGGTCAGA TCTGTTCCGA GGGGCCTGGG GAACAGGACT CTCGGGTCAG TGAGATCCTC
AGTGCCTTGG AGCGCAGGGT GCTGGACAGC GAGGGCCAGT TAAGGCTGGT GGGTTCAGGC
TTACACAAAG CAGAAACGGC AGGGGAGGCC CAGCAGGCCA TGTTGGAGGG ACTGCAAGGG
ATTCTGGGCC GGCTTCAGGA GCGCATGGAC ACACAGGAAG AGACAGCAGC AGAACTCTCA
CTGCGCCTCA ATCTTACCGC AGCCCAGCTA AGCCAACTGG AGGGTCTGCT GCAAGCCCGT
GGGGACGAGG GCTGTGGTGC CTGTGGTGGT GTCCAGGAGG AGCTAGGCCG TCTTCGGGAT
GGTGTGGAAC GTTGCTCCTG CCCATTGTTA CCTCCACGGG GCCCTGGAGC TGGCCCAGGG
GTTGGGGGCC CAAGCCGTGG GCCTCTGGAC GGTTTCAGTG TGTTTGGGGG CGGCTCGGGC
TCAGCCCTCC AGGCCCTTCA AGGAGAACTC TCTGAGGTTA TTCTCACCTT CAGCTCCCTT
AATGACTCAC TGCATGAGCT CCAGACCACT GTGGAGGGCC AGGGCGCTGA TCTGGCTGAC
CTGGGGGCCA CCAAGGACAG CATCATCTCT GAGATCAACA GGCTACAGCA GGAGGCCACA
GAGCACATTA CAGAGATCGA GGAGCGTTTC CGAGGCCTGG AGGAAGGCCA GGCCCAGGCG
GGCCAATGCC CTAGCTTAGA GGGGCGACTA GGCCGCCTTG AGGGAGTTTG TGAACGACTG
GACACTGTGG CAGGGGGACT ACAAGGCCTC CGTGAAGGCC TTTCCAGACA CGTGGCCGGG
CTCTGGGCTG CAGTAAGGGA AAGCAACAGT ACCAGTCTGA CGCAGGCCGC ACTGCTGGAG
AAGCTGCTGG GGGGCCAGGC AGGCCTGGGC AGGCGGCTTG GTGCCCTCAA CAGTTCCCTG
CTGCTCCTAG AAGACCGTCT GCAGCAACTT AGCCTAAAGG ACTTCACTGG ACCTTCAGGC
AAGGCTGGGC CCCCTGGGCC TCCTGGGCTA CAAGGGCCTC CAGGCCCTGC AGGACCTCCA
GGACCTCCTG GCAAAGATGG ACAAAGGGGG GCCATTGGAC CACCAGGTCC TCAAGGTGAA
CAGGGAGTGG AGGGAGCACC AGCAGCCCCC GTGCCTAGGG TGGCATTTTC AGCTGCCCTG
AGTTTGCCTC GGTCAGAACC CGGCACAGTC CCCTTCGACA GAGTCTTGCT CAACGATGGA
GGCTACTATG ACCCAGAGAC AGGTGTATTC ACTGCGCCAC TGGCTGGGCG CTACTTGCTG
AGCGCTGTAC TTACAGGGCA CCGGCACGAG AAAGTGGAGG CAGTACTGTC CCGCTCCAAC
CTGGGCGTGG CCCGCATAGA CTCGGGAGGC TATGAACCCG AGGGACTGGA GAATAAACCT
GTGGCCGAAA GTCAGCCTAG CCCGGGCGCT CTGGGAGTCT TCAGCCTCAT CCTGCCACTG
CAGGTCGGAG ACACTGTCTG CATCGACCTG GTCATGGGGC AGCTGGCACA CTCAGAGGAG
CCGCTTACCA TCTTCAGCGG AGCCCTGCTT TACGAGGACA CAGACCTTGA ACAGGTGTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
XP_008762733.1 |
| CDS | 1510..4269 |
| Translation | |
Target ORF information:
| RefSeq Version | XM_008764511.2 |
| Organism | Rattus norvegicus(Norway rat) |
| Definition | Rattus norvegicus elastin microfibril interfacer 1 (Emilin1), transcript variant X2, mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
XM_008764511.2 |
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
| ATGTACCGCA GCTTCCTTCG CCCTCGCTAC CGGGTGGCCT ACAAGACGGT GACAGACATG
GAGTGGAGGT GCTGTCAGGG GTATGGGGGC GATGACTGCG GAGAGGGTCC TGCTTCTGTT
CTGGGCCCTG CACCCTCCAC ACCACTTCCC CGGCCCAGGC CTGCGCGTCC CAACCTGTCT
GGCTCCAGTG CCGGCAGCCA CCTCAGTGGA CTAGGAGGAG AAGGCCCTGG TGAGACAGAG
AAGGTGCAGC AGCTAGAGCA GCAGGTAAAG AGTCTGACCA AAGAGCTGCA AGGCCTTCGA
GGTGTCCTTC AGGGAATGAA TGGGCGCCTG GCAGAAGATG TACAGAGGGC TGTGGAGGCG
GCCTTTAATG GGAGGCAGCA GCCAGCAGAT GCAGCTGCCC GCCCAGGTGT GCACGAAACC
CTCAATGAGA TCCAGCAGCA GCTGCAGCTC CTGGACAACC GTGTCTCCAC CCATGACCAG
GAACTGGGCC ACCTTAACAA CCATCATAAT GGAGGCCCTG GTGGAAGCGG CAGGGCCTCA
GCCCCTGTCC CTGTTCCTTC TGGCCCCAGC GAGGAACTGT TAAGGCAGCT GGAACGGCAG
CTGCAGGAGT CTTGCTCAGT GTGCCTGGCA GGGCTGGATG GCTTCCGCCA GCAGCAACAA
GAGGATAGGG AGCGGCTGCG AACCCTGGAG AAGCTGATGT CCTCTATGGA GGAGCGGCAG
CAGCAGCTTA TGGGACCTGC CATGGCCAGA AGACCCCCTC AGGAATGCTG CCCCCCGGAG
CTGGGTCGGA GAGTGTCAGA GCTGGAACGG AGGCTGGATG TGGTGGCTGG CTCGGTGACA
GTGCTAAGCG GACGTAGAGG TTCTGAGCTC GGAGGAGCAG CAGGGCAGGG GGGCCATCCC
CCGGGGTACA CCAGCTTGGC CTCCCGCCTT TCTCACCTGG AGGACCGCTT CAACTCTACC
CTAGGTCCCT CAGAGGAACA AGAGAAGAAC TGGCCTGGAG GACCAGGGAG GCTGGGCCAG
TGGTTGCCTG CTGCTCCTGG ACAGCTGGAA AAGCTGGAGG TGCTACTAGC CAATGTGAGC
AGGGAGCTGG GTGGCCGCCT AGATCTATTG GAAGAGCAGG TGGCAGGGGC TGTTAGGGCT
TGTGGTCAGA TCTGTTCCGA GGGGCCTGGG GAACAGGACT CTCGGGTCAG TGAGATCCTC
AGTGCCTTGG AGCGCAGGGT GCTGGACAGC GAGGGCCAGT TAAGGCTGGT GGGTTCAGGC
TTACACAAAG CAGAAACGGC AGGGGAGGCC CAGCAGGCCA TGTTGGAGGG ACTGCAAGGG
ATTCTGGGCC GGCTTCAGGA GCGCATGGAC ACACAGGAAG AGACAGCAGC AGAACTCTCA
CTGCGCCTCA ATCTTACCGC AGCCCAGCTA AGCCAACTGG AGGGTCTGCT GCAAGCCCGT
GGGGACGAGG GCTGTGGTGC CTGTGGTGGT GTCCAGGAGG AGCTAGGCCG TCTTCGGGAT
GGTGTGGAAC GTTGCTCCTG CCCATTGTTA CCTCCACGGG GCCCTGGAGC TGGCCCAGGG
GTTGGGGGCC CAAGCCGTGG GCCTCTGGAC GGTTTCAGTG TGTTTGGGGG CGGCTCGGGC
TCAGCCCTCC AGGCCCTTCA AGGAGAACTC TCTGAGGTTA TTCTCACCTT CAGCTCCCTT
AATGACTCAC TGCATGAGCT CCAGACCACT GTGGAGGGCC AGGGCGCTGA TCTGGCTGAC
CTGGGGGCCA CCAAGGACAG CATCATCTCT GAGATCAACA GGCTACAGCA GGAGGCCACA
GAGCACATTA CAGAGATCGA GGAGCGTTTC CGAGGCCTGG AGGAAGGCCA GGCCCAGGCG
GGCCAATGCC CTAGCTTAGA GGGGCGACTA GGCCGCCTTG AGGGAGTTTG TGAACGACTG
GACACTGTGG CAGGGGGACT ACAAGGCCTC CGTGAAGGCC TTTCCAGACA CGTGGCCGGG
CTCTGGGCTG CAGTAAGGGA AAGCAACAGT ACCAGTCTGA CGCAGGCCGC ACTGCTGGAG
AAGCTGCTGG GGGGCCAGGC AGGCCTGGGC AGGCGGCTTG GTGCCCTCAA CAGTTCCCTG
CTGCTCCTAG AAGACCGTCT GCAGCAACTT AGCCTAAAGG ACTTCACTGG ACCTTCAGGC
AAGGCTGGGC CCCCTGGGCC TCCTGGGCTA CAAGGGCCTC CAGGCCCTGC AGGACCTCCA
GGACCTCCTG GCAAAGATGG ACAAAGGGGG GCCATTGGAC CACCAGGTCC TCAAGGTGAA
CAGGGAGTGG AGGGAGCACC AGCAGCCCCC GTGCCTAGGG TGGCATTTTC AGCTGCCCTG
AGTTTGCCTC GGTCAGAACC CGGCACAGTC CCCTTCGACA GAGTCTTGCT CAACGATGGA
GGCTACTATG ACCCAGAGAC AGGTGTATTC ACTGCGCCAC TGGCTGGGCG CTACTTGCTG
AGCGCTGTAC TTACAGGGCA CCGGCACGAG AAAGTGGAGG CAGTACTGTC CCGCTCCAAC
CTGGGCGTGG CCCGCATAGA CTCGGGAGGC TATGAACCCG AGGGACTGGA GAATAAACCT
GTGGCCGAAA GTCAGCCTAG CCCGGGCGCT CTGGGAGTCT TCAGCCTCAT CCTGCCACTG
CAGGTCGGAG ACACTGTCTG CATCGACCTG GTCATGGGGC AGCTGGCACA CTCAGAGGAG
CCGCTTACCA TCTTCAGCGG AGCCCTGCTT TACGAGGACA CAGACCTTGA ACAGGTGTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| CloneID |
ORa29147 |
| Clone ID Related Accession (Same CDS sequence) |
XM_006239793.3
|
| Accession Version |
XM_006239793.3 Latest version! |
Documents for ORF clone product in default vector |
| Sequence Information |
ORF Nucleotide Sequence (Length: 3054bp)
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 |
EMILIN-1 isoform X1 |
| Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005105.4) 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_006239793.2.
##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##
|
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
| ATGGCCCCCA GAATCCTCTG GAGCTGCTAT CTCTGCTGTC TGCTGACCAT TGCCACAGAA
GCTGCCAGCT ACCCTCCTCG GGGCTACAGC CTGTACACAG GGGGCAGTGG GGCCCTCAGT
CCTGGGGGAC CCCAGGCCCA GAACTCACCC CGGCCTGCCA GCCGCCACAG GAACTGGTGT
GCCTACGTGG TGACTCGGAC AGTGAGCTGC GTCCTTGAGG ATGGAGTGGA GACCTTTGTC
AAGCCAGACT ATCAACCCTG TGGCTGGGGC CAGCCCCAGT GTCCTCGAAG TATCATGTAC
CGCAGCTTCC TTCGCCCTCG CTACCGGGTG GCCTACAAGA CGGTGACAGA CATGGAGTGG
AGGTGCTGTC AGGGGTATGG GGGCGATGAC TGCGGAGAGG GTCCTGCTTC TGTTCTGGGC
CCTGCACCCT CCACACCACT TCCCCGGCCC AGGCCTGCGC GTCCCAACCT GTCTGGCTCC
AGTGCCGGCA GCCACCTCAG TGGACTAGGA GGAGAAGGCC CTGGTGAGAC AGAGAAGGTG
CAGCAGCTAG AGCAGCAGGT AAAGAGTCTG ACCAAAGAGC TGCAAGGCCT TCGAGGTGTC
CTTCAGGGAA TGAATGGGCG CCTGGCAGAA GATGTACAGA GGGCTGTGGA GGCGGCCTTT
AATGGGAGGC AGCAGCCAGC AGATGCAGCT GCCCGCCCAG GTGTGCACGA AACCCTCAAT
GAGATCCAGC AGCAGCTGCA GCTCCTGGAC AACCGTGTCT CCACCCATGA CCAGGAACTG
GGCCACCTTA ACAACCATCA TAATGGAGGC CCTGGTGGAA GCGGCAGGGC CTCAGCCCCT
GTCCCTGTTC CTTCTGGCCC CAGCGAGGAA CTGTTAAGGC AGCTGGAACG GCAGCTGCAG
GAGTCTTGCT CAGTGTGCCT GGCAGGGCTG GATGGCTTCC GCCAGCAGCA ACAAGAGGAT
AGGGAGCGGC TGCGAACCCT GGAGAAGCTG ATGTCCTCTA TGGAGGAGCG GCAGCAGCAG
CTTATGGGAC CTGCCATGGC CAGAAGACCC CCTCAGGAAT GCTGCCCCCC GGAGCTGGGT
CGGAGAGTGT CAGAGCTGGA ACGGAGGCTG GATGTGGTGG CTGGCTCGGT GACAGTGCTA
AGCGGACGTA GAGGTTCTGA GCTCGGAGGA GCAGCAGGGC AGGGGGGCCA TCCCCCGGGG
TACACCAGCT TGGCCTCCCG CCTTTCTCAC CTGGAGGACC GCTTCAACTC TACCCTAGGT
CCCTCAGAGG AACAAGAGAA GAACTGGCCT GGAGGACCAG GGAGGCTGGG CCAGTGGTTG
CCTGCTGCTC CTGGACAGCT GGAAAAGCTG GAGGTGCTAC TAGCCAATGT GAGCAGGGAG
CTGGGTGGCC GCCTAGATCT ATTGGAAGAG CAGGTGGCAG GGGCTGTTAG GGCTTGTGGT
CAGATCTGTT CCGAGGGGCC TGGGGAACAG GACTCTCGGG TCAGTGAGAT CCTCAGTGCC
TTGGAGCGCA GGGTGCTGGA CAGCGAGGGC CAGTTAAGGC TGGTGGGTTC AGGCTTACAC
AAAGCAGAAA CGGCAGGGGA GGCCCAGCAG GCCATGTTGG AGGGACTGCA AGGGATTCTG
GGCCGGCTTC AGGAGCGCAT GGACACACAG GAAGAGACAG CAGCAGAACT CTCACTGCGC
CTCAATCTTA CCGCAGCCCA GCTAAGCCAA CTGGAGGGTC TGCTGCAAGC CCGTGGGGAC
GAGGGCTGTG GTGCCTGTGG TGGTGTCCAG GAGGAGCTAG GCCGTCTTCG GGATGGTGTG
GAACGTTGCT CCTGCCCATT GTTACCTCCA CGGGGCCCTG GAGCTGGCCC AGGGGTTGGG
GGCCCAAGCC GTGGGCCTCT GGACGGTTTC AGTGTGTTTG GGGGCGGCTC GGGCTCAGCC
CTCCAGGCCC TTCAAGGAGA ACTCTCTGAG GTTATTCTCA CCTTCAGCTC CCTTAATGAC
TCACTGCATG AGCTCCAGAC CACTGTGGAG GGCCAGGGCG CTGATCTGGC TGACCTGGGG
GCCACCAAGG ACAGCATCAT CTCTGAGATC AACAGGCTAC AGCAGGAGGC CACAGAGCAC
ATTACAGAGA TCGAGGAGCG TTTCCGAGGC CTGGAGGAAG GCCAGGCCCA GGCGGGCCAA
TGCCCTAGCT TAGAGGGGCG ACTAGGCCGC CTTGAGGGAG TTTGTGAACG ACTGGACACT
GTGGCAGGGG GACTACAAGG CCTCCGTGAA GGCCTTTCCA GACACGTGGC CGGGCTCTGG
GCTGCAGTAA GGGAAAGCAA CAGTACCAGT CTGACGCAGG CCGCACTGCT GGAGAAGCTG
CTGGGGGGCC AGGCAGGCCT GGGCAGGCGG CTTGGTGCCC TCAACAGTTC CCTGCTGCTC
CTAGAAGACC GTCTGCAGCA ACTTAGCCTA AAGGACTTCA CTGGACCTTC AGGCAAGGCT
GGGCCCCCTG GGCCTCCTGG GCTACAAGGG CCTCCAGGCC CTGCAGGACC TCCAGGACCT
CCTGGCAAAG ATGGACAAAG GGGGGCCATT GGACCACCAG GTCCTCAAGG TGAACAGGGA
GTGGAGGGAG CACCAGCAGC CCCCGTGCCT AGGGTGGCAT TTTCAGCTGC CCTGAGTTTG
CCTCGGTCAG AACCCGGCAC AGTCCCCTTC GACAGAGTCT TGCTCAACGA TGGAGGCTAC
TATGACCCAG AGACAGGTGT ATTCACTGCG CCACTGGCTG GGCGCTACTT GCTGAGCGCT
GTACTTACAG GGCACCGGCA CGAGAAAGTG GAGGCAGTAC TGTCCCGCTC CAACCTGGGC
GTGGCCCGCA TAGACTCGGG AGGCTATGAA CCCGAGGGAC TGGAGAATAA ACCTGTGGCC
GAAAGTCAGC CTAGCCCGGG CGCTCTGGGA GTCTTCAGCC TCATCCTGCC ACTGCAGGTC
GGAGACACTG TCTGCATCGA CCTGGTCATG GGGCAGCTGG CACACTCAGA GGAGCCGCTT
ACCATCTTCA GCGGAGCCCT GCTTTACGAG GACACAGACC TTGAACAGGT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
| RefSeq |
XP_006239855.1 |
| CDS | 484..3537 |
| Translation | |
Target ORF information:
| RefSeq Version | XM_006239793.3 |
| Organism | Rattus norvegicus(Norway rat) |
| Definition | Rattus norvegicus elastin microfibril interfacer 1 (Emilin1), transcript variant X1, mRNA. |
Target ORF information:
| Epitope | DYKDDDDK |
| Bacterial selection | AMPR |
| Mammalian selection | NeoR |
| Vector | pcDNA3.1+/C-(K)DYK |
|
XM_006239793.3 |
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
| ATGGCCCCCA GAATCCTCTG GAGCTGCTAT CTCTGCTGTC TGCTGACCAT TGCCACAGAA
GCTGCCAGCT ACCCTCCTCG GGGCTACAGC CTGTACACAG GGGGCAGTGG GGCCCTCAGT
CCTGGGGGAC CCCAGGCCCA GAACTCACCC CGGCCTGCCA GCCGCCACAG GAACTGGTGT
GCCTACGTGG TGACTCGGAC AGTGAGCTGC GTCCTTGAGG ATGGAGTGGA GACCTTTGTC
AAGCCAGACT ATCAACCCTG TGGCTGGGGC CAGCCCCAGT GTCCTCGAAG TATCATGTAC
CGCAGCTTCC TTCGCCCTCG CTACCGGGTG GCCTACAAGA CGGTGACAGA CATGGAGTGG
AGGTGCTGTC AGGGGTATGG GGGCGATGAC TGCGGAGAGG GTCCTGCTTC TGTTCTGGGC
CCTGCACCCT CCACACCACT TCCCCGGCCC AGGCCTGCGC GTCCCAACCT GTCTGGCTCC
AGTGCCGGCA GCCACCTCAG TGGACTAGGA GGAGAAGGCC CTGGTGAGAC AGAGAAGGTG
CAGCAGCTAG AGCAGCAGGT AAAGAGTCTG ACCAAAGAGC TGCAAGGCCT TCGAGGTGTC
CTTCAGGGAA TGAATGGGCG CCTGGCAGAA GATGTACAGA GGGCTGTGGA GGCGGCCTTT
AATGGGAGGC AGCAGCCAGC AGATGCAGCT GCCCGCCCAG GTGTGCACGA AACCCTCAAT
GAGATCCAGC AGCAGCTGCA GCTCCTGGAC AACCGTGTCT CCACCCATGA CCAGGAACTG
GGCCACCTTA ACAACCATCA TAATGGAGGC CCTGGTGGAA GCGGCAGGGC CTCAGCCCCT
GTCCCTGTTC CTTCTGGCCC CAGCGAGGAA CTGTTAAGGC AGCTGGAACG GCAGCTGCAG
GAGTCTTGCT CAGTGTGCCT GGCAGGGCTG GATGGCTTCC GCCAGCAGCA ACAAGAGGAT
AGGGAGCGGC TGCGAACCCT GGAGAAGCTG ATGTCCTCTA TGGAGGAGCG GCAGCAGCAG
CTTATGGGAC CTGCCATGGC CAGAAGACCC CCTCAGGAAT GCTGCCCCCC GGAGCTGGGT
CGGAGAGTGT CAGAGCTGGA ACGGAGGCTG GATGTGGTGG CTGGCTCGGT GACAGTGCTA
AGCGGACGTA GAGGTTCTGA GCTCGGAGGA GCAGCAGGGC AGGGGGGCCA TCCCCCGGGG
TACACCAGCT TGGCCTCCCG CCTTTCTCAC CTGGAGGACC GCTTCAACTC TACCCTAGGT
CCCTCAGAGG AACAAGAGAA GAACTGGCCT GGAGGACCAG GGAGGCTGGG CCAGTGGTTG
CCTGCTGCTC CTGGACAGCT GGAAAAGCTG GAGGTGCTAC TAGCCAATGT GAGCAGGGAG
CTGGGTGGCC GCCTAGATCT ATTGGAAGAG CAGGTGGCAG GGGCTGTTAG GGCTTGTGGT
CAGATCTGTT CCGAGGGGCC TGGGGAACAG GACTCTCGGG TCAGTGAGAT CCTCAGTGCC
TTGGAGCGCA GGGTGCTGGA CAGCGAGGGC CAGTTAAGGC TGGTGGGTTC AGGCTTACAC
AAAGCAGAAA CGGCAGGGGA GGCCCAGCAG GCCATGTTGG AGGGACTGCA AGGGATTCTG
GGCCGGCTTC AGGAGCGCAT GGACACACAG GAAGAGACAG CAGCAGAACT CTCACTGCGC
CTCAATCTTA CCGCAGCCCA GCTAAGCCAA CTGGAGGGTC TGCTGCAAGC CCGTGGGGAC
GAGGGCTGTG GTGCCTGTGG TGGTGTCCAG GAGGAGCTAG GCCGTCTTCG GGATGGTGTG
GAACGTTGCT CCTGCCCATT GTTACCTCCA CGGGGCCCTG GAGCTGGCCC AGGGGTTGGG
GGCCCAAGCC GTGGGCCTCT GGACGGTTTC AGTGTGTTTG GGGGCGGCTC GGGCTCAGCC
CTCCAGGCCC TTCAAGGAGA ACTCTCTGAG GTTATTCTCA CCTTCAGCTC CCTTAATGAC
TCACTGCATG AGCTCCAGAC CACTGTGGAG GGCCAGGGCG CTGATCTGGC TGACCTGGGG
GCCACCAAGG ACAGCATCAT CTCTGAGATC AACAGGCTAC AGCAGGAGGC CACAGAGCAC
ATTACAGAGA TCGAGGAGCG TTTCCGAGGC CTGGAGGAAG GCCAGGCCCA GGCGGGCCAA
TGCCCTAGCT TAGAGGGGCG ACTAGGCCGC CTTGAGGGAG TTTGTGAACG ACTGGACACT
GTGGCAGGGG GACTACAAGG CCTCCGTGAA GGCCTTTCCA GACACGTGGC CGGGCTCTGG
GCTGCAGTAA GGGAAAGCAA CAGTACCAGT CTGACGCAGG CCGCACTGCT GGAGAAGCTG
CTGGGGGGCC AGGCAGGCCT GGGCAGGCGG CTTGGTGCCC TCAACAGTTC CCTGCTGCTC
CTAGAAGACC GTCTGCAGCA ACTTAGCCTA AAGGACTTCA CTGGACCTTC AGGCAAGGCT
GGGCCCCCTG GGCCTCCTGG GCTACAAGGG CCTCCAGGCC CTGCAGGACC TCCAGGACCT
CCTGGCAAAG ATGGACAAAG GGGGGCCATT GGACCACCAG GTCCTCAAGG TGAACAGGGA
GTGGAGGGAG CACCAGCAGC CCCCGTGCCT AGGGTGGCAT TTTCAGCTGC CCTGAGTTTG
CCTCGGTCAG AACCCGGCAC AGTCCCCTTC GACAGAGTCT TGCTCAACGA TGGAGGCTAC
TATGACCCAG AGACAGGTGT ATTCACTGCG CCACTGGCTG GGCGCTACTT GCTGAGCGCT
GTACTTACAG GGCACCGGCA CGAGAAAGTG GAGGCAGTAC TGTCCCGCTC CAACCTGGGC
GTGGCCCGCA TAGACTCGGG AGGCTATGAA CCCGAGGGAC TGGAGAATAA ACCTGTGGCC
GAAAGTCAGC CTAGCCCGGG CGCTCTGGGA GTCTTCAGCC TCATCCTGCC ACTGCAGGTC
GGAGACACTG TCTGCATCGA CCTGGTCATG GGGCAGCTGG CACACTCAGA GGAGCCGCTT
ACCATCTTCA GCGGAGCCCT GCTTTACGAG GACACAGACC TTGAACAGGT GTAG |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
Extracellular matrix remodelling in response to venous hypertension: proteomics of human varicose veins.
Cardiovascular research110(3)419-30(2016 06)
Barallobre-Barreiro J,Oklu R,Lynch M,Fava M,Baig F,Yin X,Barwari T,Potier DN,Albadawi H,Jahangiri M,Porter KE,Watkins MT,Misra S,Stoughton J,Mayr M |
|
Diagnostic Exome Sequencing Identifies a Novel Gene, EMILIN1, Associated with Autosomal-Dominant Hereditary Connective Tissue Disease.
Human mutation37(1)84-97(2016 Jan)
Capuano A,Bucciotti F,Farwell KD,Tippin Davis B,Mroske C,Hulick PJ,Weissman SM,Gao Q,Spessotto P,Colombatti A,Doliana R |
|
Extracellular matrix secretion by cardiac fibroblasts: role of microRNA-29b and microRNA-30c.
Circulation research113(10)1138-47(2013 Oct)
Abonnenc M,Nabeebaccus AA,Mayr U,Barallobre-Barreiro J,Dong X,Cuello F,Sur S,Drozdov I,Langley SR,Lu R,Stathopoulou K,Didangelos A,Yin X,Zimmermann WH,Shah AM,Zampetaki A,Mayr M |
