| Gene Symbol | MMRN1 |
| Entrez Gene ID | 100357410 |
| Full Name | multimerin 1 |
| Gene Type | protein-coding |
| Organism | Oryctolagus cuniculus(rabbit) |
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MMRN1 cDNA ORF clone, Oryctolagus cuniculus(rabbit)
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Gene
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Clones
gRNAs
The following MMRN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MMRN1 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.
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Reference Sequences (Refseq)
CloneID OOb16615 Clone ID Related Accession (Same CDS sequence) XM_008267595.2 Accession Version XM_008267595.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1466524800000 Organism Oryctolagus cuniculus(rabbit) Product multimerin-1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_013683.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 23, 2016 this sequence version replaced XM_008267595.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oryctolagus cuniculus Annotation Release 102 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
3541
3601ATGGAGGCAG CAAGGTTATT CGTCCTGCTC TCCAGTTTAT GGAGTGGAGG CATCGGGCTT
TACAGCGTGG AGCCCTCCTG GACTGCACCT GAAGGTGAAA GCTCCCAGAA TGTGACTTCT
GCCTCAGTTG CTCCCAACAC AACAGAAGGT TTCCAACTGC TGCCCACCGC TCGGCCCGAG
TTAGCTGAGA TCGCCCCGAT TCCTGAAGAG GGAACTTCTG AAGAGACTCT TCTACAGTCA
GCATTGCCCC TCTTAGAGTC AAGTACACCT GCTGAGGGTG TGGGAAACCA GACGCCTGCA
CCCACAGAGA TGACTGAAGA AGGAACCGTG AAGTCACAAA ATCCTGCCCT CAGGACCCAG
ACTAGCACCA AGTTCAATCC CGGAGCAAAG TCGGTGGTCC TTTCCAATTC TACACTGAGA
TTTCTGCAGA GTTTTGCTAG CACGTCAAAG GAACAAACAG TGCCTCAGAA CTTAGCTGGA
GGCATGAGAA ATCGGTCCCC CAGGAAAACA TATCTCAGCG ACCAAAGTCA AGGAGCTGGC
TATCAAAAAT CAAGTTTTGA GACAACTAGA GGAAAGAACT GGTGTGCCTA TGTGCATACT
AGGCTGTCCC CGACAGTGGT CCTGGACCCC CTGACCACTT ATGTTCCAGG TAGCAGAAGT
CCCTGCGGCT GGACCAGTGG ATCCTGTGCT CAGAGATCTC AGAAGGTATC AAATCCTGTC
TATAGGATGC AACACAAGAT TGTTACTTCC TTGGATTGGA GGTGCTGTCC CGGATACAGT
GGGCTAAAAT GTCAGCTGAA AGCCCAGGAA CAGCAGCAAT TGGCGCACAG CAACCAGGCT
GAAAGTAGCG CAGCTATTGG CAGAGGGACT GGTGAGCAAC AGCTACATCA ACAGCAAGAC
CATGGTGACG CAGCAGTGAT GCAAAAAATG ACCGACCAGA TGAACTCTCA GGCAAGGAAA
CTGACTCTTC TCCAGAAGCA GATTGACAGT ATTTCTTTGG CTGTGAATGA TGTGAGAAAC
ACACACTCCT CCCTGGAAGG GAAAATCAGT GAAGATAAAG GCAAAGAATT TCAATCTTTT
CTAAAAGGTC TAAAATCCAA AAGCTTCAAT GATTTGGTAA CAGACATAGT AAGAGAACAA
TTTAAAATTT TTCAAAATGA CATGCAAGAG ACTGTCGCTC AGCTCTTCAA AACTGTATCA
AGTCTATCAG AGGATCTTGA AAACACGCGG CAATTAATTA AACAAGTTAA TGAATCTGTG
ATTTCAGCAA CAGCCCAGCA AAAGTCAGTT TTAATTCAAG AAAATAGACC TACTTTGCCT
GATATAGTAG ATCTAAAAAA TCACATTGTG GATGTAAGGC ATGAAATGAC CTTCACATGT
GAGAAGCCAA TTAAAGAACT AGAAGCAAAG CAGATTCGTT TAGAAGATGC TCTAGCACAG
GAACGCTCTA GGAGCCTTCT GTATTATGAA TCCCTCAATC AGACTCTTTC TAAAATGAAG
GAAGTGCATG AGCAGCTTTT ATCAGACCAG AAGAATGTGC CAGCTGGCGA GTCCGTTAGC
AGTAATGTCA CTGAATACAT GTCTACTCTA AAGGAGAATA TGAAGAAGCA CAGTATGATG
CTGCTGCAAA TGTTTCATGA TTTGCACATC CAGGACAGCA AGATTAACAA TCTCACCATC
ACTGTGGAGA CGGGGAAAGA ATTTGTCAGG GGTGAGTGTG AAGACTTGTT ATCCAAGTGC
AGAAATGATT TTAAATTTCA ACTTAGGGAC ACAGAAGAGA ATTTGCATGT TTTAAACCAA
ACTTTGGCTG AGGTTCTGTT TCCAATGGAC AGTAAGATGA ATCAAATGAG TGAACAACTA
AATGACTTGA CATATGACAT GGAGATTCTT CAACCTTTGC TCGAGCAGGG AGCATCTCTT
AGACAGACAA TGACATATGA ACAACCAAAG GAGGCAGCAG TTACAAGGAA AAGGTTGGAA
AATCTAACAA ATGCTGTCAA TAGTCTAAAT TTTCTTGTCA AAGAACTTAC AAAAAGACAC
ACCTTACTTA GAAATGAAGT ACAAAGTCGT GGTGATACCT TCGAAAGAAG GATCAATGAA
TATGCCTTAG AAATGGAAGA TGGTCTAAAT AAGACAATGA CTGTTATCAA TAATGCCATT
GACTTCATTC AAGATAACTA TGTGCTAAAA GAGACTTTGA GTGCTATTAA GTATAATCCT
GAGATCCATG ATAAATGTAC CCAAAATATG GAAACCATTT TTGCATTTAT TTCTCAGTTT
CAACGCCTGA ATGATTCTAT TGAGATTTTG GTTAATGACA ATCAGAAATA TGACTTTGTT
TTGCAAGTTG CCAAGGCTCT CGCGTATTTT CCTAAAGATG AAAAATTAGG TCAGTTAAAT
TTTCAGAAAC TTTATCAAAT GTTCAATGAG ACCACGTCCC AAATGGCAAA ATATCAGCAA
AATATGAGTC ATTTGGAAGA AAAAATACTC TTGGCCACCA AGATTTCCAA ACATTTTGAA
ACCAAGTTGC AAGAGATTGA ATCTAAAGTG ACCCAGACAC TCATACCTTA TTATATTTCA
CTTAAAAAAG GTAGTGTGGC CACTAATGAT AGAGACCAAG CACTTCAACT TCAGGTATTA
AATTCCAGAT TTAAGGCACT GGAAGCAAAA TCCATCCGTC TTTCAATTAA CTTCTCATTA
CTTAACAAAA CTCTCAATGA AGTCTTAATA ATGTGTCACG GTGCTTCCAC AAATATATCA
GAACTGAATG CTACCATACC TAAGTGGATA AAAGGTTCCT TACCAGATAT TCACCTTCTT
CAGAAAGCTC TAACAAAATC TGTGGAACCG ATAATTGAGA TAAAAACTCA AGCTGCCCTG
TCCAATTTAA CTTGGTATAT AGATCGATCA TTGTCTGGTA ACCCGGCAAA TGCTGCCAGG
TCTCAGAAGC AAGTCAAGTC CTGGTTGAAG AAACCTAATA CACTCAAGAA ACCAACAGTG
AATGTTACCA CTGTTCTGAT AGGCCGGACT CAAAGAAACA CAGACAACAT TATATCTCCA
GCACCAGAAG AGTATTCAGG CTGCAGGAAG TCCCCGTGCC AGAATGGGGG CACATGTATA
AATGGAAGAA CAAGCTTTAC CTGTGCTTGC CGACATCCTT TTACTGGTGA CAACTGCACT
ATCAAGCTGG TGGAAGAAAA TGCTTTGCCT CCAGATTTTT CCAAAGGATC TTACAGATAC
GCACCGATGG TGGCATTTTT TGTATCTCAT ACCTATGGAA TGACTACTCC TGGTCCTATC
CTATTTAATG ATTTGGATGT CAATTACGGA GCTTCATATA CCCCAAGGAC TGGGAAATTC
CGGGTTCCGT ATCTTGGAGT ATATGTTTTC AAGTACACCA TTGAGTCACT GAGTGCTCAT
ATCTCTGGGT TTTTAGTGGT TGATGGAAGA GACAAGCTTG CATTTGAGTC TGAAAATATT
AACAGTGAAA TTCACTGTGA TAGGGTGCTG ACTGGGGATG CCCTACTAGA ATTAAATTAC
GGGCAGGAAG TGTGGTTACG ACTCGTTAAA GGAACCATTC CAGCGAAGAT TCCCCCTGTC
ACCACATTTA GTGGTTACTT ATTATACCGT ACGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_008265817.1 CDS 334..3969 Translation 
Target ORF information:
RefSeq Version XM_008267595.2 Organism Oryctolagus cuniculus(rabbit) Definition Oryctolagus cuniculus multimerin 1 (MMRN1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_008267595.2
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
3541
3601ATGGAGGCAG CAAGGTTATT CGTCCTGCTC TCCAGTTTAT GGAGTGGAGG CATCGGGCTT
TACAGCGTGG AGCCCTCCTG GACTGCACCT GAAGGTGAAA GCTCCCAGAA TGTGACTTCT
GCCTCAGTTG CTCCCAACAC AACAGAAGGT TTCCAACTGC TGCCCACCGC TCGGCCCGAG
TTAGCTGAGA TCGCCCCGAT TCCTGAAGAG GGAACTTCTG AAGAGACTCT TCTACAGTCA
GCATTGCCCC TCTTAGAGTC AAGTACACCT GCTGAGGGTG TGGGAAACCA GACGCCTGCA
CCCACAGAGA TGACTGAAGA AGGAACCGTG AAGTCACAAA ATCCTGCCCT CAGGACCCAG
ACTAGCACCA AGTTCAATCC CGGAGCAAAG TCGGTGGTCC TTTCCAATTC TACACTGAGA
TTTCTGCAGA GTTTTGCTAG CACGTCAAAG GAACAAACAG TGCCTCAGAA CTTAGCTGGA
GGCATGAGAA ATCGGTCCCC CAGGAAAACA TATCTCAGCG ACCAAAGTCA AGGAGCTGGC
TATCAAAAAT CAAGTTTTGA GACAACTAGA GGAAAGAACT GGTGTGCCTA TGTGCATACT
AGGCTGTCCC CGACAGTGGT CCTGGACCCC CTGACCACTT ATGTTCCAGG TAGCAGAAGT
CCCTGCGGCT GGACCAGTGG ATCCTGTGCT CAGAGATCTC AGAAGGTATC AAATCCTGTC
TATAGGATGC AACACAAGAT TGTTACTTCC TTGGATTGGA GGTGCTGTCC CGGATACAGT
GGGCTAAAAT GTCAGCTGAA AGCCCAGGAA CAGCAGCAAT TGGCGCACAG CAACCAGGCT
GAAAGTAGCG CAGCTATTGG CAGAGGGACT GGTGAGCAAC AGCTACATCA ACAGCAAGAC
CATGGTGACG CAGCAGTGAT GCAAAAAATG ACCGACCAGA TGAACTCTCA GGCAAGGAAA
CTGACTCTTC TCCAGAAGCA GATTGACAGT ATTTCTTTGG CTGTGAATGA TGTGAGAAAC
ACACACTCCT CCCTGGAAGG GAAAATCAGT GAAGATAAAG GCAAAGAATT TCAATCTTTT
CTAAAAGGTC TAAAATCCAA AAGCTTCAAT GATTTGGTAA CAGACATAGT AAGAGAACAA
TTTAAAATTT TTCAAAATGA CATGCAAGAG ACTGTCGCTC AGCTCTTCAA AACTGTATCA
AGTCTATCAG AGGATCTTGA AAACACGCGG CAATTAATTA AACAAGTTAA TGAATCTGTG
ATTTCAGCAA CAGCCCAGCA AAAGTCAGTT TTAATTCAAG AAAATAGACC TACTTTGCCT
GATATAGTAG ATCTAAAAAA TCACATTGTG GATGTAAGGC ATGAAATGAC CTTCACATGT
GAGAAGCCAA TTAAAGAACT AGAAGCAAAG CAGATTCGTT TAGAAGATGC TCTAGCACAG
GAACGCTCTA GGAGCCTTCT GTATTATGAA TCCCTCAATC AGACTCTTTC TAAAATGAAG
GAAGTGCATG AGCAGCTTTT ATCAGACCAG AAGAATGTGC CAGCTGGCGA GTCCGTTAGC
AGTAATGTCA CTGAATACAT GTCTACTCTA AAGGAGAATA TGAAGAAGCA CAGTATGATG
CTGCTGCAAA TGTTTCATGA TTTGCACATC CAGGACAGCA AGATTAACAA TCTCACCATC
ACTGTGGAGA CGGGGAAAGA ATTTGTCAGG GGTGAGTGTG AAGACTTGTT ATCCAAGTGC
AGAAATGATT TTAAATTTCA ACTTAGGGAC ACAGAAGAGA ATTTGCATGT TTTAAACCAA
ACTTTGGCTG AGGTTCTGTT TCCAATGGAC AGTAAGATGA ATCAAATGAG TGAACAACTA
AATGACTTGA CATATGACAT GGAGATTCTT CAACCTTTGC TCGAGCAGGG AGCATCTCTT
AGACAGACAA TGACATATGA ACAACCAAAG GAGGCAGCAG TTACAAGGAA AAGGTTGGAA
AATCTAACAA ATGCTGTCAA TAGTCTAAAT TTTCTTGTCA AAGAACTTAC AAAAAGACAC
ACCTTACTTA GAAATGAAGT ACAAAGTCGT GGTGATACCT TCGAAAGAAG GATCAATGAA
TATGCCTTAG AAATGGAAGA TGGTCTAAAT AAGACAATGA CTGTTATCAA TAATGCCATT
GACTTCATTC AAGATAACTA TGTGCTAAAA GAGACTTTGA GTGCTATTAA GTATAATCCT
GAGATCCATG ATAAATGTAC CCAAAATATG GAAACCATTT TTGCATTTAT TTCTCAGTTT
CAACGCCTGA ATGATTCTAT TGAGATTTTG GTTAATGACA ATCAGAAATA TGACTTTGTT
TTGCAAGTTG CCAAGGCTCT CGCGTATTTT CCTAAAGATG AAAAATTAGG TCAGTTAAAT
TTTCAGAAAC TTTATCAAAT GTTCAATGAG ACCACGTCCC AAATGGCAAA ATATCAGCAA
AATATGAGTC ATTTGGAAGA AAAAATACTC TTGGCCACCA AGATTTCCAA ACATTTTGAA
ACCAAGTTGC AAGAGATTGA ATCTAAAGTG ACCCAGACAC TCATACCTTA TTATATTTCA
CTTAAAAAAG GTAGTGTGGC CACTAATGAT AGAGACCAAG CACTTCAACT TCAGGTATTA
AATTCCAGAT TTAAGGCACT GGAAGCAAAA TCCATCCGTC TTTCAATTAA CTTCTCATTA
CTTAACAAAA CTCTCAATGA AGTCTTAATA ATGTGTCACG GTGCTTCCAC AAATATATCA
GAACTGAATG CTACCATACC TAAGTGGATA AAAGGTTCCT TACCAGATAT TCACCTTCTT
CAGAAAGCTC TAACAAAATC TGTGGAACCG ATAATTGAGA TAAAAACTCA AGCTGCCCTG
TCCAATTTAA CTTGGTATAT AGATCGATCA TTGTCTGGTA ACCCGGCAAA TGCTGCCAGG
TCTCAGAAGC AAGTCAAGTC CTGGTTGAAG AAACCTAATA CACTCAAGAA ACCAACAGTG
AATGTTACCA CTGTTCTGAT AGGCCGGACT CAAAGAAACA CAGACAACAT TATATCTCCA
GCACCAGAAG AGTATTCAGG CTGCAGGAAG TCCCCGTGCC AGAATGGGGG CACATGTATA
AATGGAAGAA CAAGCTTTAC CTGTGCTTGC CGACATCCTT TTACTGGTGA CAACTGCACT
ATCAAGCTGG TGGAAGAAAA TGCTTTGCCT CCAGATTTTT CCAAAGGATC TTACAGATAC
GCACCGATGG TGGCATTTTT TGTATCTCAT ACCTATGGAA TGACTACTCC TGGTCCTATC
CTATTTAATG ATTTGGATGT CAATTACGGA GCTTCATATA CCCCAAGGAC TGGGAAATTC
CGGGTTCCGT ATCTTGGAGT ATATGTTTTC AAGTACACCA TTGAGTCACT GAGTGCTCAT
ATCTCTGGGT TTTTAGTGGT TGATGGAAGA GACAAGCTTG CATTTGAGTC TGAAAATATT
AACAGTGAAA TTCACTGTGA TAGGGTGCTG ACTGGGGATG CCCTACTAGA ATTAAATTAC
GGGCAGGAAG TGTGGTTACG ACTCGTTAAA GGAACCATTC CAGCGAAGAT TCCCCCTGTC
ACCACATTTA GTGGTTACTT ATTATACCGT ACGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OOb37053 Clone ID Related Accession (Same CDS sequence) XM_017347406.1 Accession Version XM_017347406.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1466524800000 Organism Oryctolagus cuniculus(rabbit) Product multimerin-1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_013683.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oryctolagus cuniculus Annotation Release 102 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
3541
3601ATGGAGGCAG CAAGGTTATT CGTCCTGCTC TCCAGTTTAT GGAGTGGAGG CATCGGGCTT
TACAGCGTGG AGCCCTCCTG GACTGCACCT GAAGGTGAAA GCTCCCAGAA TGTGACTTCT
GCCTCAGTTG CTCCCAACAC AACAGAAGGT TTCCAACTGC TGCCCACCGC TCGGCCCGAG
TTAGCTGAGA TCGCCCCGAT TCCTGAAGAG GGAACTTCTG AAGAGACTCT TCTACAGTCA
GCATTGCCCC TCTTAGAGTC AAGTACACCT GCTGAGGGTG TGGGAAACCA GACGCCTGCA
CCCACAGAGA TGACTGAAGA AGGAACCGTG AAGTCACAAA ATCCTGCCCT CAGGACCCAG
ACTAGCACCA AGTTCAATCC CGGAGCAAAG TCGGTGGTCC TTTCCAATTC TACACTGAGA
TTTCTGCAGA GTTTTGCTAG CACGTCAAAG GAACAAACAG TGCCTCAGAA CTTAGCTGGA
GGCATGAGAA ATCGGTCCCC CAGGAAAACA TATCTCAGCG ACCAAAGTCA AGGAGCTGGC
TATCAAAAAT CAAGTTTTGA GACAACTAGA GGAAAGAACT GGTGTGCCTA TGTGCATACT
AGGCTGTCCC CGACAGTGGT CCTGGACCCC CTGACCACTT ATGTTCCAGG TAGCAGAAGT
CCCTGCGGCT GGACCAGTGG ATCCTGTGCT CAGAGATCTC AGAAGGTATC AAATCCTGTC
TATAGGATGC AACACAAGAT TGTTACTTCC TTGGATTGGA GGTGCTGTCC CGGATACAGT
GGGCTAAAAT GTCAGCTGAA AGCCCAGGAA CAGCAGCAAT TGGCGCACAG CAACCAGGCT
GAAAGTAGCG CAGCTATTGG CAGAGGGACT GGTGAGCAAC AGCTACATCA ACAGCAAGAC
CATGGTGACG CAGTGATGCA AAAAATGACC GACCAGATGA ACTCTCAGGC AAGGAAACTG
ACTCTTCTCC AGAAGCAGAT TGACAGTATT TCTTTGGCTG TGAATGATGT GAGAAACACA
CACTCCTCCC TGGAAGGGAA AATCAGTGAA GATAAAGGCA AAGAATTTCA ATCTTTTCTA
AAAGGTCTAA AATCCAAAAG CTTCAATGAT TTGGTAACAG ACATAGTAAG AGAACAATTT
AAAATTTTTC AAAATGACAT GCAAGAGACT GTCGCTCAGC TCTTCAAAAC TGTATCAAGT
CTATCAGAGG ATCTTGAAAA CACGCGGCAA TTAATTAAAC AAGTTAATGA ATCTGTGATT
TCAGCAACAG CCCAGCAAAA GTCAGTTTTA ATTCAAGAAA ATAGACCTAC TTTGCCTGAT
ATAGTAGATC TAAAAAATCA CATTGTGGAT GTAAGGCATG AAATGACCTT CACATGTGAG
AAGCCAATTA AAGAACTAGA AGCAAAGCAG ATTCGTTTAG AAGATGCTCT AGCACAGGAA
CGCTCTAGGA GCCTTCTGTA TTATGAATCC CTCAATCAGA CTCTTTCTAA AATGAAGGAA
GTGCATGAGC AGCTTTTATC AGACCAGAAG AATGTGCCAG CTGGCGAGTC CGTTAGCAGT
AATGTCACTG AATACATGTC TACTCTAAAG GAGAATATGA AGAAGCACAG TATGATGCTG
CTGCAAATGT TTCATGATTT GCACATCCAG GACAGCAAGA TTAACAATCT CACCATCACT
GTGGAGACGG GGAAAGAATT TGTCAGGGGT GAGTGTGAAG ACTTGTTATC CAAGTGCAGA
AATGATTTTA AATTTCAACT TAGGGACACA GAAGAGAATT TGCATGTTTT AAACCAAACT
TTGGCTGAGG TTCTGTTTCC AATGGACAGT AAGATGAATC AAATGAGTGA ACAACTAAAT
GACTTGACAT ATGACATGGA GATTCTTCAA CCTTTGCTCG AGCAGGGAGC ATCTCTTAGA
CAGACAATGA CATATGAACA ACCAAAGGAG GCAGCAGTTA CAAGGAAAAG GTTGGAAAAT
CTAACAAATG CTGTCAATAG TCTAAATTTT CTTGTCAAAG AACTTACAAA AAGACACACC
TTACTTAGAA ATGAAGTACA AAGTCGTGGT GATACCTTCG AAAGAAGGAT CAATGAATAT
GCCTTAGAAA TGGAAGATGG TCTAAATAAG ACAATGACTG TTATCAATAA TGCCATTGAC
TTCATTCAAG ATAACTATGT GCTAAAAGAG ACTTTGAGTG CTATTAAGTA TAATCCTGAG
ATCCATGATA AATGTACCCA AAATATGGAA ACCATTTTTG CATTTATTTC TCAGTTTCAA
CGCCTGAATG ATTCTATTGA GATTTTGGTT AATGACAATC AGAAATATGA CTTTGTTTTG
CAAGTTGCCA AGGCTCTCGC GTATTTTCCT AAAGATGAAA AATTAGGTCA GTTAAATTTT
CAGAAACTTT ATCAAATGTT CAATGAGACC ACGTCCCAAA TGGCAAAATA TCAGCAAAAT
ATGAGTCATT TGGAAGAAAA AATACTCTTG GCCACCAAGA TTTCCAAACA TTTTGAAACC
AAGTTGCAAG AGATTGAATC TAAAGTGACC CAGACACTCA TACCTTATTA TATTTCACTT
AAAAAAGGTA GTGTGGCCAC TAATGATAGA GACCAAGCAC TTCAACTTCA GGTATTAAAT
TCCAGATTTA AGGCACTGGA AGCAAAATCC ATCCGTCTTT CAATTAACTT CTCATTACTT
AACAAAACTC TCAATGAAGT CTTAATAATG TGTCACGGTG CTTCCACAAA TATATCAGAA
CTGAATGCTA CCATACCTAA GTGGATAAAA GGTTCCTTAC CAGATATTCA CCTTCTTCAG
AAAGCTCTAA CAAAATCTGT GGAACCGATA ATTGAGATAA AAACTCAAGC TGCCCTGTCC
AATTTAACTT GGTATATAGA TCGATCATTG TCTGGTAACC CGGCAAATGC TGCCAGGTCT
CAGAAGCAAG TCAAGTCCTG GTTGAAGAAA CCTAATACAC TCAAGAAACC AACAGTGAAT
GTTACCACTG TTCTGATAGG CCGGACTCAA AGAAACACAG ACAACATTAT ATCTCCAGCA
CCAGAAGAGT ATTCAGGCTG CAGGAAGTCC CCGTGCCAGA ATGGGGGCAC ATGTATAAAT
GGAAGAACAA GCTTTACCTG TGCTTGCCGA CATCCTTTTA CTGGTGACAA CTGCACTATC
AAGCTGGTGG AAGAAAATGC TTTGCCTCCA GATTTTTCCA AAGGATCTTA CAGATACGCA
CCGATGGTGG CATTTTTTGT ATCTCATACC TATGGAATGA CTACTCCTGG TCCTATCCTA
TTTAATGATT TGGATGTCAA TTACGGAGCT TCATATACCC CAAGGACTGG GAAATTCCGG
GTTCCGTATC TTGGAGTATA TGTTTTCAAG TACACCATTG AGTCACTGAG TGCTCATATC
TCTGGGTTTT TAGTGGTTGA TGGAAGAGAC AAGCTTGCAT TTGAGTCTGA AAATATTAAC
AGTGAAATTC ACTGTGATAG GGTGCTGACT GGGGATGCCC TACTAGAATT AAATTACGGG
CAGGAAGTGT GGTTACGACT CGTTAAAGGA ACCATTCCAG CGAAGATTCC CCCTGTCACC
ACATTTAGTG GTTACTTATT ATACCGTACG TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_017202895.1 CDS 334..3966 Translation
Target ORF information:
RefSeq Version XM_017347406.1 Organism Oryctolagus cuniculus(rabbit) Definition Oryctolagus cuniculus multimerin 1 (MMRN1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_017347406.1
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
3541
3601ATGGAGGCAG CAAGGTTATT CGTCCTGCTC TCCAGTTTAT GGAGTGGAGG CATCGGGCTT
TACAGCGTGG AGCCCTCCTG GACTGCACCT GAAGGTGAAA GCTCCCAGAA TGTGACTTCT
GCCTCAGTTG CTCCCAACAC AACAGAAGGT TTCCAACTGC TGCCCACCGC TCGGCCCGAG
TTAGCTGAGA TCGCCCCGAT TCCTGAAGAG GGAACTTCTG AAGAGACTCT TCTACAGTCA
GCATTGCCCC TCTTAGAGTC AAGTACACCT GCTGAGGGTG TGGGAAACCA GACGCCTGCA
CCCACAGAGA TGACTGAAGA AGGAACCGTG AAGTCACAAA ATCCTGCCCT CAGGACCCAG
ACTAGCACCA AGTTCAATCC CGGAGCAAAG TCGGTGGTCC TTTCCAATTC TACACTGAGA
TTTCTGCAGA GTTTTGCTAG CACGTCAAAG GAACAAACAG TGCCTCAGAA CTTAGCTGGA
GGCATGAGAA ATCGGTCCCC CAGGAAAACA TATCTCAGCG ACCAAAGTCA AGGAGCTGGC
TATCAAAAAT CAAGTTTTGA GACAACTAGA GGAAAGAACT GGTGTGCCTA TGTGCATACT
AGGCTGTCCC CGACAGTGGT CCTGGACCCC CTGACCACTT ATGTTCCAGG TAGCAGAAGT
CCCTGCGGCT GGACCAGTGG ATCCTGTGCT CAGAGATCTC AGAAGGTATC AAATCCTGTC
TATAGGATGC AACACAAGAT TGTTACTTCC TTGGATTGGA GGTGCTGTCC CGGATACAGT
GGGCTAAAAT GTCAGCTGAA AGCCCAGGAA CAGCAGCAAT TGGCGCACAG CAACCAGGCT
GAAAGTAGCG CAGCTATTGG CAGAGGGACT GGTGAGCAAC AGCTACATCA ACAGCAAGAC
CATGGTGACG CAGTGATGCA AAAAATGACC GACCAGATGA ACTCTCAGGC AAGGAAACTG
ACTCTTCTCC AGAAGCAGAT TGACAGTATT TCTTTGGCTG TGAATGATGT GAGAAACACA
CACTCCTCCC TGGAAGGGAA AATCAGTGAA GATAAAGGCA AAGAATTTCA ATCTTTTCTA
AAAGGTCTAA AATCCAAAAG CTTCAATGAT TTGGTAACAG ACATAGTAAG AGAACAATTT
AAAATTTTTC AAAATGACAT GCAAGAGACT GTCGCTCAGC TCTTCAAAAC TGTATCAAGT
CTATCAGAGG ATCTTGAAAA CACGCGGCAA TTAATTAAAC AAGTTAATGA ATCTGTGATT
TCAGCAACAG CCCAGCAAAA GTCAGTTTTA ATTCAAGAAA ATAGACCTAC TTTGCCTGAT
ATAGTAGATC TAAAAAATCA CATTGTGGAT GTAAGGCATG AAATGACCTT CACATGTGAG
AAGCCAATTA AAGAACTAGA AGCAAAGCAG ATTCGTTTAG AAGATGCTCT AGCACAGGAA
CGCTCTAGGA GCCTTCTGTA TTATGAATCC CTCAATCAGA CTCTTTCTAA AATGAAGGAA
GTGCATGAGC AGCTTTTATC AGACCAGAAG AATGTGCCAG CTGGCGAGTC CGTTAGCAGT
AATGTCACTG AATACATGTC TACTCTAAAG GAGAATATGA AGAAGCACAG TATGATGCTG
CTGCAAATGT TTCATGATTT GCACATCCAG GACAGCAAGA TTAACAATCT CACCATCACT
GTGGAGACGG GGAAAGAATT TGTCAGGGGT GAGTGTGAAG ACTTGTTATC CAAGTGCAGA
AATGATTTTA AATTTCAACT TAGGGACACA GAAGAGAATT TGCATGTTTT AAACCAAACT
TTGGCTGAGG TTCTGTTTCC AATGGACAGT AAGATGAATC AAATGAGTGA ACAACTAAAT
GACTTGACAT ATGACATGGA GATTCTTCAA CCTTTGCTCG AGCAGGGAGC ATCTCTTAGA
CAGACAATGA CATATGAACA ACCAAAGGAG GCAGCAGTTA CAAGGAAAAG GTTGGAAAAT
CTAACAAATG CTGTCAATAG TCTAAATTTT CTTGTCAAAG AACTTACAAA AAGACACACC
TTACTTAGAA ATGAAGTACA AAGTCGTGGT GATACCTTCG AAAGAAGGAT CAATGAATAT
GCCTTAGAAA TGGAAGATGG TCTAAATAAG ACAATGACTG TTATCAATAA TGCCATTGAC
TTCATTCAAG ATAACTATGT GCTAAAAGAG ACTTTGAGTG CTATTAAGTA TAATCCTGAG
ATCCATGATA AATGTACCCA AAATATGGAA ACCATTTTTG CATTTATTTC TCAGTTTCAA
CGCCTGAATG ATTCTATTGA GATTTTGGTT AATGACAATC AGAAATATGA CTTTGTTTTG
CAAGTTGCCA AGGCTCTCGC GTATTTTCCT AAAGATGAAA AATTAGGTCA GTTAAATTTT
CAGAAACTTT ATCAAATGTT CAATGAGACC ACGTCCCAAA TGGCAAAATA TCAGCAAAAT
ATGAGTCATT TGGAAGAAAA AATACTCTTG GCCACCAAGA TTTCCAAACA TTTTGAAACC
AAGTTGCAAG AGATTGAATC TAAAGTGACC CAGACACTCA TACCTTATTA TATTTCACTT
AAAAAAGGTA GTGTGGCCAC TAATGATAGA GACCAAGCAC TTCAACTTCA GGTATTAAAT
TCCAGATTTA AGGCACTGGA AGCAAAATCC ATCCGTCTTT CAATTAACTT CTCATTACTT
AACAAAACTC TCAATGAAGT CTTAATAATG TGTCACGGTG CTTCCACAAA TATATCAGAA
CTGAATGCTA CCATACCTAA GTGGATAAAA GGTTCCTTAC CAGATATTCA CCTTCTTCAG
AAAGCTCTAA CAAAATCTGT GGAACCGATA ATTGAGATAA AAACTCAAGC TGCCCTGTCC
AATTTAACTT GGTATATAGA TCGATCATTG TCTGGTAACC CGGCAAATGC TGCCAGGTCT
CAGAAGCAAG TCAAGTCCTG GTTGAAGAAA CCTAATACAC TCAAGAAACC AACAGTGAAT
GTTACCACTG TTCTGATAGG CCGGACTCAA AGAAACACAG ACAACATTAT ATCTCCAGCA
CCAGAAGAGT ATTCAGGCTG CAGGAAGTCC CCGTGCCAGA ATGGGGGCAC ATGTATAAAT
GGAAGAACAA GCTTTACCTG TGCTTGCCGA CATCCTTTTA CTGGTGACAA CTGCACTATC
AAGCTGGTGG AAGAAAATGC TTTGCCTCCA GATTTTTCCA AAGGATCTTA CAGATACGCA
CCGATGGTGG CATTTTTTGT ATCTCATACC TATGGAATGA CTACTCCTGG TCCTATCCTA
TTTAATGATT TGGATGTCAA TTACGGAGCT TCATATACCC CAAGGACTGG GAAATTCCGG
GTTCCGTATC TTGGAGTATA TGTTTTCAAG TACACCATTG AGTCACTGAG TGCTCATATC
TCTGGGTTTT TAGTGGTTGA TGGAAGAGAC AAGCTTGCAT TTGAGTCTGA AAATATTAAC
AGTGAAATTC ACTGTGATAG GGTGCTGACT GGGGATGCCC TACTAGAATT AAATTACGGG
CAGGAAGTGT GGTTACGACT CGTTAAAGGA ACCATTCCAG CGAAGATTCC CCCTGTCACC
ACATTTAGTG GTTACTTATT ATACCGTACG TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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