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RAD50 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene Symbol RAD50
Entrez Gene ID 855471
Full Name MRX complex DNA-binding subunit
Gene Type protein-coding
Organism Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA Protein Name
NM_001183088.1 NP_014149.1 MRX complex DNA-binding subunit



Schizosaccharomyces pombe (fission yeast) rad50 XP_001713090.2
Kluyveromyces lactis KLLA0C02915g XP_452327.1
Eremothecium gossypii AGOS_AFR637W NP_986184.2
Saccharomyces cerevisiae (baker's yeast) RAD50 NP_014149.1


Related articles in PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications.
Philippsen P, Kleine K, Pöhlmann R, Düsterhöft A, Hamberg K, Hegemann JH, Obermaier B, Urrestarazu LA, Aert R, Albermann K, Altmann R, André B, Baladron V, Ballesta JP, Bécam AM, Beinhauer J, Boskovic J, Buitrago MJ, Bussereau F, Coster F, Crouzet M, D'Angelo M, Dal Pero F, De Antoni A, Del Rey F, Doignon F, Domdey H, Dubois E, Fiedler T, Fleig U, Floeth M, Fritz C, Gaillardin C, Garcia-Cantalejo JM, Glansdorff NN, Goffeau A, Gueldener U, Herbert C, Heumann K, Heuss-Neitzel D, Hilbert H, Hinni K, Iraqui Houssaini I, Jacquet M, Jimenez A, Jonniaux JL, Karpfinger L, Lanfranchi G, Lepingle A, Levesque H, Lyck R, Maftahi M, Mallet L, Maurer KC, Messenguy F, Mewes HW, Mösti D, Nasr F, Nicaud JM, Niedenthal RK, Pandolfo D, Piérard A, Piravandi E, Planta RJ, Pohl TM, Purnelle B, Rebischung C, Remacha M, Revuelta JL, Rinke M, Saiz JE, Sartorello F, Scherens B, Sen-Gupta M, Soler-Mira A, Urbanus JH, Valle G, Van Dyck L, Verhasselt P, Vierendeels F, Vissers S, Voet M, Volckaert G, Wach A, Wambutt R, Wedler H, Zollner A, Hani J
Nature387(6632 Suppl)93-8(1997 May)

Life with 6000 genes.
Goffeau A, Barrell BG, Bussey H, Davis RW, Dujon B, Feldmann H, Galibert F, Hoheisel JD, Jacq C, Johnston M, Louis EJ, Mewes HW, Murakami Y, Philippsen P, Tettelin H, Oliver SG
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)

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

Xrs2 dependent and independent functions of the Mre11-Rad50 complex orchestrating the cellular response to double-strand DNA breaks have been described.
Title: Xrs2 Dependent and Independent Functions of the Mre11-Rad50 Complex.

The Saccharomyces cerevisiae Mre11-Rad50-Xrs2 complex promotes trinucleotide repeat expansions independently of homologous recombination.
Title: The Saccharomyces cerevisiae Mre11-Rad50-Xrs2 complex promotes trinucleotide repeat expansions independently of homologous recombination.

Mre11 recruits conjugated SUMO moieties to facilitate the assembly and function of the Mre11-Rad50-Xrs2 complex.
Title: S. cerevisiae Mre11 recruits conjugated SUMO moieties to facilitate the assembly and function of the Mre11-Rad50-Xrs2 complex.

Data suggest that the major function of Sae2 in response to DNA double-strand breaks (DSBs) is to actively remove Mre11-Rad50-Xrs2 from break ends and prevent Rad53 in response to DSBs.
Title: Sae2 promotes DNA damage resistance by removing the Mre11-Rad50-Xrs2 complex from DNA and attenuating Rad53 signaling.

Data demonstrate that the dimerization state of the Rad50 hook domain exerts diverse influences on Mre11 complex function.
Title: Interdependence of the rad50 hook and globular domain functions.

The following RAD50 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RAD50 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 RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OSi04399 NM_001183088.1
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Saccharomyces cerevisiae S288c MRX complex DNA-binding subunit (RAD50), partial mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $713.30
$1019.00

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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.


CloneID OSi04399
Clone ID Related Accession (Same CDS sequence) NM_001183088.1
Accession Version NM_001183088.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3939bp)
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 2017-03-15
Organism Saccharomyces cerevisiae S288C
Product MRX complex DNA-binding subunit
Comment REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001146). ##Genome-Annotation-Data-START## Annotation Provider :: SGD Annotation Status :: Full Annotation Annotation Version :: R64-2-1 URL :: http://www.yeastgenome.org/ ##Genome-Annotation-Data-END## COMPLETENESS: incomplete on both ends.

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
3601
3661
3721
3781
3841
3901
ATGAGCGCTA TCTATAAATT ATCTATTCAG GGCATACGGT CTTTTGACTC CAATGATAGG 
GAAACTATTG AATTTGGCAA GCCTCTGACT TTAATAGTCG GCATGAATGG TTCAGGTAAA
ACGACTATCA TCGAATGTTT AAAGTACGCT ACCACAGGTG ATCTACCGCC CAACAGCAAG
GGAGGAGTAT TCATTCATGA CCCGAAGATA ACTGGTGAAA AGGACATTAG AGCTCAGGTC
AAACTGGCGT TTACGAGTGC CAATGGACTC AATATGATTG TCACCAGAAA TATTCAGTTG
CTAATGAAAA AGACTACTAC TACATTTAAG ACTTTAGAAG GCCAGTTGGT CGCTATAAAT
AATAGTGGTG ACCGCAGTAC TTTGTCCACC CGGTCTCTGG AATTAGACGC ACAAGTACCC
CTGTATCTGG GAGTTCCAAA AGCGATCTTG GAATACGTGA TATTCTGTCA CCAAGAAGAC
AGCCTGTGGC CACTGAGTGA ACCATCCAAT CTTAAAAAGA AGTTTGATGA AATTTTCCAA
GCGATGAAAT TTACAAAGGC TCTAGACAAT TTAAAATCCA TAAAGAAAGA CATGTCCGTG
GATATCAAGT TATTAAAGCA ATCAGTAGAA CACTTAAAGT TGGATAAAGA CAGATCGAAA
GCAATGAAGC TCAATATCCA CCAATTGCAA ACTAAGATAG ATCAGTATAA TGAAGAAGTG
TCTGAAATTG AATCTCAATT GAATGAAATC ACTGAGAAAT CCGATAAACT GTTTAAATCT
AATCAAGATT TCCAAAAAAT ACTATCCAAA GTAGAGAACT TGAAAAATAC AAAACTCTCA
ATTAGTGATC AAGTGAAAAG ATTGTCAAAC TCAATTGATA TTCTCGATTT ATCGAAGCCA
GATTTGCAAA ACTTATTGGC AAACTTCTCT AAAGTCTTGA TGGATAAGAA TAATCAGTTG
AGAGATTTGG AAACCGATAT TTCAAGTTTG AAAGACCGTC AGTCATCCTT GCAGAGCCTT
TCTAATTCCC TCATCAGGCG GCAGGGTGAG TTAGAAGCTG GTAAGGAGAC ATACGAAAAG
AACAGAAATC ACCTTTCATC GCTAAAAGAA GCCTTCCAAC ATAAGTTCCA AGGCCTTTCA
AATATTGAAA ACAGTGATAT GGCTCAAGTA AATCACGAAA TGTCACAGTT CAAGGCTTTC
ATCTCTCAGG ATTTAACTGA CACTATAGAT CAATTTGCAA AGGATATTCA ACTAAAGGAA
ACAAATTTAT CCGACTTGAT AAAATCAATA ACCGTCGATT CACAGAATTT GGAATATAAT
AAAAAGGACA GATCTAAATT AATCCATGAC TCTGAAGAGC TTGCTGAGAA ATTGAAATCA
TTTAAAAGTT TGTCTACTCA AGATAGCCTC AATCATGAAC TGGAAAACTT AAAAACATAC
AAAGAAAAGC TGCAATCTTG GGAAAGTGAG AATATTATAC CAAAATTGAA CCAGAAAATA
GAAGAGAAAA ATAATGAGAT GATTATCTTA GAGAATCAAA TTGAGAAATT TCAAGATCGC
ATAATGAAAA CGAATCAACA AGCGGACTTA TACGCCAAAC TAGGACTAAT AAAGAAGTCC
ATTAATACTA AATTAGACGA GTTACAAAAG ATTACGGAAA AATTACAGAA TGATTCTAGA
ATAAGGCAAG TATTTCCCCT CACCCAGGAA TTTCAAAGAG CTGATTTAGA AATGGATTTT
CAGAAATTAT TCATCAATAT GCAAAAGAAT ATAGCGATCA ACAACAAAAA GATGCACGAA
TTGGATAGAA GATATACAAA CGCTTTGTAC AATTTGAACA CCATTGAAAA GGATTTACAG
GATAATCAGA AGTCGAAAGA AAAAGTGATA CAACTACTAA GCGAAAACTT ACCAGAGGAT
TGTACTATTG ATGAATATAA TGATGTCCTG GAAGAAACGG AGCTCTCCTA TAAGACTGCG
CTGGAAAACT TGAAAATGCA TCAAACTACT TTAGAATTTA ATAGAAAAGC ATTAGAGATC
GCTGAACGTG ACAGCTGCTG TTATTTGTGT TCTAGAAAGT TTGAAAATGA ATCGTTTAAA
AGTAAGTTGT TACAAGAACT AAAAACAAAA ACAGACGCAA ATTTTGAAAA AACTTTGAAA
GACACTGTCC AAAACGAAAA GGAATATCTT CATAGTTTAA GGCTACTGGA GAAACATATT
ATTACACTAA ATTCTATAAA TGAAAAGATT GATAATTCAC AGAAGTGCCT TGAAAAAGCT
AAGGAGGAAA CAAAAACTTC CAAATCAAAA CTAGATGAAT TGGAAGTAGA TTCCACAAAA
TTGAAAGATG AGAAAGAGTT AGCTGAGTCT GAAATTCGTC CTTTGATTGA GAAGTTTACT
TACTTAGAAA AGGAACTTAA GGATCTTGAA AACAGTTCTA AAACGATATC TGAGGAGCTA
TCGATTTATA ATACCAGTGA AGATGGTATT CAAACTGTTG ATGAATTAAG GGACCAACAA
AGGAAGATGA ATGATTCTTT ACGTGAACTG AGGAAAACCA TTTCAGATTT GCAAATGGAA
AAAGATGAAA AGGTGAGAGA AAATTCAAGA ATGATTAACT TGATTAAAGA AAAGGAATTA
ACAGTTTCTG AAATTGAATC ATCTTTAACA CAGAAACAAA ATATTGATGA TTCTATAAGG
TCAAAAAGGG AAAACATCAA CGATATCGAT TCTAGAGTAA AGGAGTTAGA AGCACGTATT
ATTTCATTAA AAAACAAAAA GGATGAAGCG CAAAGTGTTC TAGACAAAGT AAAAAATGAA
CGTGATATTC AAGTACGCAA CAAACAAAAA ACCGTTGCAG ATATTAATCG GTTAATAGAT
AGATTTCAGA CCATTTATAA CGAAGTGGTT GATTTTGAAG CTAAGGGCTT CGATGAATTG
CAAACAACAA TAAAAGAACT AGAATTGAAC AAAGCTCAAA TGCTGGAACT AAAGGAGCAG
CTTGATCTCA AGTCAAATGA AGTTAACGAA GAAAAGAGAA AACTTGCTGA CTCAAATAAT
GAGGAGAAAA ACTTGAAGCA GAACTTAGAA CTAATTGAAT TGAAATCACA ACTTCAGCAC
ATTGAATCTG AGATAAGTAG ATTAGACGTT CAAAATGCAG AAGCTGAAAG GGACAAATAT
CAAGAGGAAT CACTAAGACT AAGAACAAGA TTTGAAAAGC TGAGCTCTGA AAACGCAGGT
AAATTAGGTG AAATGAAACA ATTACAGAAT CAAATAGATT CATTGACTCA TCAACTGCGG
ACTGATTACA AAGATATCGA GAAAAATTAC CATAAAGAAT GGGTTGAATT ACAGACAAGA
TCCTTTGTTA CTGACGACAT AGATGTCTAT TCAAAAGCAT TAGATAGTGC TATTATGAAA
TATCATGGAT TGAAAATGCA AGATATAAAC AGGATAATTG ATGAATTATG GAAGCGTACG
TATAGTGGTA CTGATATAGA CACCATCAAA ATTAGATCAG ATGAAGTTAG TAGTACAGTT
AAGGGAAAAT CATACAACTA TCGTGTTGTA ATGTACAAGC AGGATGTTGA ATTGGATATG
AGAGGACGAT GTTCCGCGGG TCAAAAAGTT CTTGCATCGA TTATTATCAG GCTAGCTCTA
TCTGAAACAT TTGGCGCAAA TTGTGGCGTA ATTGCACTAG ACGAACCTAC CACCAATTTA
GATGAAGAAA ACATCGAAAG TTTAGCAAAA TCTTTACACA ATATAATTAA TATGAGAAGA
CATCAAAAGA ATTTCCAGCT AATCGTGATC ACTCATGATG AGAAATTTTT GGGTCATATG
AATGCAGCGG CATTTACTGA TCACTTCTTC AAAGTCAAGA GAGATGATAG GCAAAAATCA
CAAATTGAGT GGGTCGATAT TAACAGAGTC ACTTATTGA

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

RefSeq NP_014149.1
CDS1..3939
Misc Feature(1)4..3906
Misc Feature(2)10..>504
Misc Feature(3)100..123
Misc Feature(4)460..471
Misc Feature(5)1996..2145
Misc Feature(6)<2524..3078
Misc Feature(7)<3592..3900
Misc Feature(8)3610..3639
Misc Feature(9)3688..3705
Misc Feature(10)3712..3723
Misc Feature(11)3802..3822
Translation

Target ORF information:

RefSeq Version NM_001183088.1
Organism Saccharomyces cerevisiae S288C
Definition Saccharomyces cerevisiae S288c MRX complex DNA-binding subunit (RAD50), partial mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001183088.1

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
3601
3661
3721
3781
3841
3901
ATGAGCGCTA TCTATAAATT ATCTATTCAG GGCATACGGT CTTTTGACTC CAATGATAGG 
GAAACTATTG AATTTGGCAA GCCTCTGACT TTAATAGTCG GCATGAATGG TTCAGGTAAA
ACGACTATCA TCGAATGTTT AAAGTACGCT ACCACAGGTG ATCTACCGCC CAACAGCAAG
GGAGGAGTAT TCATTCATGA CCCGAAGATA ACTGGTGAAA AGGACATTAG AGCTCAGGTC
AAACTGGCGT TTACGAGTGC CAATGGACTC AATATGATTG TCACCAGAAA TATTCAGTTG
CTAATGAAAA AGACTACTAC TACATTTAAG ACTTTAGAAG GCCAGTTGGT CGCTATAAAT
AATAGTGGTG ACCGCAGTAC TTTGTCCACC CGGTCTCTGG AATTAGACGC ACAAGTACCC
CTGTATCTGG GAGTTCCAAA AGCGATCTTG GAATACGTGA TATTCTGTCA CCAAGAAGAC
AGCCTGTGGC CACTGAGTGA ACCATCCAAT CTTAAAAAGA AGTTTGATGA AATTTTCCAA
GCGATGAAAT TTACAAAGGC TCTAGACAAT TTAAAATCCA TAAAGAAAGA CATGTCCGTG
GATATCAAGT TATTAAAGCA ATCAGTAGAA CACTTAAAGT TGGATAAAGA CAGATCGAAA
GCAATGAAGC TCAATATCCA CCAATTGCAA ACTAAGATAG ATCAGTATAA TGAAGAAGTG
TCTGAAATTG AATCTCAATT GAATGAAATC ACTGAGAAAT CCGATAAACT GTTTAAATCT
AATCAAGATT TCCAAAAAAT ACTATCCAAA GTAGAGAACT TGAAAAATAC AAAACTCTCA
ATTAGTGATC AAGTGAAAAG ATTGTCAAAC TCAATTGATA TTCTCGATTT ATCGAAGCCA
GATTTGCAAA ACTTATTGGC AAACTTCTCT AAAGTCTTGA TGGATAAGAA TAATCAGTTG
AGAGATTTGG AAACCGATAT TTCAAGTTTG AAAGACCGTC AGTCATCCTT GCAGAGCCTT
TCTAATTCCC TCATCAGGCG GCAGGGTGAG TTAGAAGCTG GTAAGGAGAC ATACGAAAAG
AACAGAAATC ACCTTTCATC GCTAAAAGAA GCCTTCCAAC ATAAGTTCCA AGGCCTTTCA
AATATTGAAA ACAGTGATAT GGCTCAAGTA AATCACGAAA TGTCACAGTT CAAGGCTTTC
ATCTCTCAGG ATTTAACTGA CACTATAGAT CAATTTGCAA AGGATATTCA ACTAAAGGAA
ACAAATTTAT CCGACTTGAT AAAATCAATA ACCGTCGATT CACAGAATTT GGAATATAAT
AAAAAGGACA GATCTAAATT AATCCATGAC TCTGAAGAGC TTGCTGAGAA ATTGAAATCA
TTTAAAAGTT TGTCTACTCA AGATAGCCTC AATCATGAAC TGGAAAACTT AAAAACATAC
AAAGAAAAGC TGCAATCTTG GGAAAGTGAG AATATTATAC CAAAATTGAA CCAGAAAATA
GAAGAGAAAA ATAATGAGAT GATTATCTTA GAGAATCAAA TTGAGAAATT TCAAGATCGC
ATAATGAAAA CGAATCAACA AGCGGACTTA TACGCCAAAC TAGGACTAAT AAAGAAGTCC
ATTAATACTA AATTAGACGA GTTACAAAAG ATTACGGAAA AATTACAGAA TGATTCTAGA
ATAAGGCAAG TATTTCCCCT CACCCAGGAA TTTCAAAGAG CTGATTTAGA AATGGATTTT
CAGAAATTAT TCATCAATAT GCAAAAGAAT ATAGCGATCA ACAACAAAAA GATGCACGAA
TTGGATAGAA GATATACAAA CGCTTTGTAC AATTTGAACA CCATTGAAAA GGATTTACAG
GATAATCAGA AGTCGAAAGA AAAAGTGATA CAACTACTAA GCGAAAACTT ACCAGAGGAT
TGTACTATTG ATGAATATAA TGATGTCCTG GAAGAAACGG AGCTCTCCTA TAAGACTGCG
CTGGAAAACT TGAAAATGCA TCAAACTACT TTAGAATTTA ATAGAAAAGC ATTAGAGATC
GCTGAACGTG ACAGCTGCTG TTATTTGTGT TCTAGAAAGT TTGAAAATGA ATCGTTTAAA
AGTAAGTTGT TACAAGAACT AAAAACAAAA ACAGACGCAA ATTTTGAAAA AACTTTGAAA
GACACTGTCC AAAACGAAAA GGAATATCTT CATAGTTTAA GGCTACTGGA GAAACATATT
ATTACACTAA ATTCTATAAA TGAAAAGATT GATAATTCAC AGAAGTGCCT TGAAAAAGCT
AAGGAGGAAA CAAAAACTTC CAAATCAAAA CTAGATGAAT TGGAAGTAGA TTCCACAAAA
TTGAAAGATG AGAAAGAGTT AGCTGAGTCT GAAATTCGTC CTTTGATTGA GAAGTTTACT
TACTTAGAAA AGGAACTTAA GGATCTTGAA AACAGTTCTA AAACGATATC TGAGGAGCTA
TCGATTTATA ATACCAGTGA AGATGGTATT CAAACTGTTG ATGAATTAAG GGACCAACAA
AGGAAGATGA ATGATTCTTT ACGTGAACTG AGGAAAACCA TTTCAGATTT GCAAATGGAA
AAAGATGAAA AGGTGAGAGA AAATTCAAGA ATGATTAACT TGATTAAAGA AAAGGAATTA
ACAGTTTCTG AAATTGAATC ATCTTTAACA CAGAAACAAA ATATTGATGA TTCTATAAGG
TCAAAAAGGG AAAACATCAA CGATATCGAT TCTAGAGTAA AGGAGTTAGA AGCACGTATT
ATTTCATTAA AAAACAAAAA GGATGAAGCG CAAAGTGTTC TAGACAAAGT AAAAAATGAA
CGTGATATTC AAGTACGCAA CAAACAAAAA ACCGTTGCAG ATATTAATCG GTTAATAGAT
AGATTTCAGA CCATTTATAA CGAAGTGGTT GATTTTGAAG CTAAGGGCTT CGATGAATTG
CAAACAACAA TAAAAGAACT AGAATTGAAC AAAGCTCAAA TGCTGGAACT AAAGGAGCAG
CTTGATCTCA AGTCAAATGA AGTTAACGAA GAAAAGAGAA AACTTGCTGA CTCAAATAAT
GAGGAGAAAA ACTTGAAGCA GAACTTAGAA CTAATTGAAT TGAAATCACA ACTTCAGCAC
ATTGAATCTG AGATAAGTAG ATTAGACGTT CAAAATGCAG AAGCTGAAAG GGACAAATAT
CAAGAGGAAT CACTAAGACT AAGAACAAGA TTTGAAAAGC TGAGCTCTGA AAACGCAGGT
AAATTAGGTG AAATGAAACA ATTACAGAAT CAAATAGATT CATTGACTCA TCAACTGCGG
ACTGATTACA AAGATATCGA GAAAAATTAC CATAAAGAAT GGGTTGAATT ACAGACAAGA
TCCTTTGTTA CTGACGACAT AGATGTCTAT TCAAAAGCAT TAGATAGTGC TATTATGAAA
TATCATGGAT TGAAAATGCA AGATATAAAC AGGATAATTG ATGAATTATG GAAGCGTACG
TATAGTGGTA CTGATATAGA CACCATCAAA ATTAGATCAG ATGAAGTTAG TAGTACAGTT
AAGGGAAAAT CATACAACTA TCGTGTTGTA ATGTACAAGC AGGATGTTGA ATTGGATATG
AGAGGACGAT GTTCCGCGGG TCAAAAAGTT CTTGCATCGA TTATTATCAG GCTAGCTCTA
TCTGAAACAT TTGGCGCAAA TTGTGGCGTA ATTGCACTAG ACGAACCTAC CACCAATTTA
GATGAAGAAA ACATCGAAAG TTTAGCAAAA TCTTTACACA ATATAATTAA TATGAGAAGA
CATCAAAAGA ATTTCCAGCT AATCGTGATC ACTCATGATG AGAAATTTTT GGGTCATATG
AATGCAGCGG CATTTACTGA TCACTTCTTC AAAGTCAAGA GAGATGATAG GCAAAAATCA
CAAATTGAGT GGGTCGATAT TAACAGAGTC ACTTATTGA

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

book

The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications.
Nature387(6632 Suppl)93-8(1997 May)
Philippsen P,Kleine K,Pöhlmann R,Düsterhöft A,Hamberg K,Hegemann JH,Obermaier B,Urrestarazu LA,Aert R,Albermann K,Altmann R,André B,Baladron V,Ballesta JP,Bécam AM,Beinhauer J,Boskovic J,Buitrago MJ,Bussereau F,Coster F,Crouzet M,D'Angelo M,Dal Pero F,De Antoni A,Del Rey F,Doignon F,Domdey H,Dubois E,Fiedler T,Fleig U,Floeth M,Fritz C,Gaillardin C,Garcia-Cantalejo JM,Glansdorff NN,Goffeau A,Gueldener U,Herbert C,Heumann K,Heuss-Neitzel D,Hilbert H,Hinni K,Iraqui Houssaini I,Jacquet M,Jimenez A,Jonniaux JL,Karpfinger L,Lanfranchi G,Lepingle A,Levesque H,Lyck R,Maftahi M,Mallet L,Maurer KC,Messenguy F,Mewes HW,Mösti D,Nasr F,Nicaud JM,Niedenthal RK,Pandolfo D,Piérard A,Piravandi E,Planta RJ,Pohl TM,Purnelle B,Rebischung C,Remacha M,Revuelta JL,Rinke M,Saiz JE,Sartorello F,Scherens B,Sen-Gupta M,Soler-Mira A,Urbanus JH,Valle G,Van Dyck L,Verhasselt P,Vierendeels F,Vissers S,Voet M,Volckaert G,Wach A,Wambutt R,Wedler H,Zollner A,Hani J


book

Life with 6000 genes.
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)
Goffeau A,Barrell BG,Bussey H,Davis RW,Dujon B,Feldmann H,Galibert F,Hoheisel JD,Jacq C,Johnston M,Louis EJ,Mewes HW,Murakami Y,Philippsen P,Tettelin H,Oliver SG


 
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