Abstract is: Werner Arber (born 3 June 1929 in Gränichen, Aargau) is a Swiss microbiologist and geneticist. Along with American researchers Hamilton Smith and Daniel Nathans, Werner Arber shared the 1978 Nobel Prize in Physiology or Medicine for the discovery of restriction endonucleases. Their work would lead to the development of recombinant DNA technology.
human | Q5 |
P2381 | Academic Tree ID | 67937 |
P5463 | AE member ID | Arber_Werner |
P6231 | BDELIS ID | 60625 |
P268 | Bibliothèque nationale de France ID | 12532724b |
P5019 | Brockhaus Enzyklopädie online ID | arber-werner |
P8179 | Canadiana Name Authority ID | ncf11324125 |
P11496 | CiNii Research ID | 1140845216652078464 |
P1280 | CONOR.SI ID | 144435811 |
P2456 | DBLP author ID | 18/9538 |
P6706 | De Agostini ID | Arber,+Werner |
P8313 | Den Store Danske ID | Werner_Arber |
P7902 | Deutsche Biographie (GND) ID | 11952581X |
P6394 | ELNET ID | a11889676 |
P10565 | Encyclopedia of China (Third Edition) ID | 533602 |
P1417 | Encyclopædia Britannica Online ID | biography/Werner-Arber |
P3219 | Encyclopædia Universalis ID | werner-arber |
P2163 | FAST ID | 1460291 |
P646 | Freebase ID | /m/03b25n |
P227 | GND ID | 11952581X |
P12385 | Gran Enciclopèdia Catalana ID | werner-arber |
P1296 | Gran Enciclopèdia Catalana ID (former scheme) | 0004798 |
P2924 | Great Russian Encyclopedia Online ID (old version) | 1826369 |
P1741 | GTAA ID | 78070 |
P3226 | HAS member ID | 19651 |
P902 | HDS ID | 014274 |
P7982 | Hrvatska enciklopedija ID | 3572 |
P269 | IdRef ID | 034586741 |
P213 | ISNI | 0000000110411119 |
P10553 | IxTheo authority ID | 1010311336 |
P409 | Libraries Australia ID | 35052810 |
P244 | Library of Congress authority ID | n83134397 |
P10242 | Lur Encyclopedic Dictionary ID | 00427/eu_a_4274/a4274 |
P1284 | Munzinger person ID | 00000015510 |
P271 | NACSIS-CAT author ID | DA07578541 |
P5380 | National Academy of Sciences member ID | 47103 |
P949 | National Library of Israel ID (old) | 002276308 |
P8189 | National Library of Israel J9U ID | 987007444804105171 |
P1006 | Nationale Thesaurus voor Auteursnamen ID | 070352232 |
P3222 | NE.se ID | werner-arber |
P691 | NL CR AUT ID | nlk20000080202 |
P1315 | NLA Trove people ID | 812774 |
P1263 | NNDB people ID | 478/000131085 |
P8024 | Nobel Laureate API ID | 414 |
P1015 | NORAF ID | 90179739 |
P1207 | NUKAT ID | n94200400 |
P7305 | Online PWN Encyclopedia ID | 3870688 |
P12582 | Oxford Reference overview ID | 20110810104358290 |
P12458 | Parsifal cluster ID | 207557 |
P9640 | PAS member ID | ordinary/arber |
P5739 | Pontificia Università della Santa Croce ID | 2878 |
P3368 | Prabook ID | 485754 |
P8349 | Proleksis enciklopedija ID | 9310 |
P3065 | RERO ID (obsolete) | 02-A002935888 |
P396 | SBN author ID | RAVV089910 |
P3987 | SHARE Catalogue author ID | 76684 |
P8034 | Vatican Library VcBA ID | 495/349032 |
P214 | VIAF ID | 15582183 |
P10832 | WorldCat Entities ID | E39PBJdWVpJTGtMCYxVKJtvyh3 |
P1556 | zbMATH author ID | arber.werner |
P512 | academic degree | professor | Q121594 |
P166 | award received | Nobel Prize in Physiology or Medicine | Q80061 |
EMBO Membership | Q26268243 | ||
honorary doctorate of the University of Las Palmas, Gran Canaria | Q29062963 | ||
Fellow of the American Academy of Arts and Sciences | Q52382875 | ||
Great Cross of the National Order of Scientific Merit | Q17613667 | ||
??? | Q126416239 | ||
P40 | child | Silvia Arber | Q14625051 |
P27 | country of citizenship | Switzerland | Q39 |
P1343 | described by source | Obálky knih | Q67311526 |
Medvik | Q99413897 | ||
P185 | doctoral student | Daisy Dussoix | Q22212795 |
P69 | educated at | ETH Zurich | Q11942 |
University of Basel | Q372608 | ||
University of Geneva | Q503473 | ||
P108 | employer | University of Southern California | Q4614 |
University of Geneva | Q503473 | ||
P734 | family name | Arber | Q21489127 |
Arber | Q21489127 | ||
Arber | Q21489127 | ||
P101 | field of work | microbiology | Q7193 |
P735 | given name | Werner | Q676823 |
Werner | Q676823 | ||
P1412 | languages spoken, written or signed | German | Q188 |
English | Q1860 | ||
P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
P463 | member of | Hungarian Academy of Sciences | Q265058 |
National Academy of Sciences | Q270794 | ||
American Academy of Arts and Sciences | Q463303 | ||
Academia Europaea | Q337234 | ||
Pontifical Academy of Sciences | Q938622 | ||
Royal Academy of Engineering of Spain | Q6101699 | ||
European Molecular Biology Organization | Q1376791 | ||
P1559 | name in native language | Werner Arber | |
P106 | occupation | physician | Q39631 |
biologist | Q864503 | ||
geneticist | Q3126128 | ||
university teacher | Q1622272 | ||
P39 | position held | rector of the University of Basel | Q18250165 |
P21 | sex or gender | male | Q6581097 |
Q33928269 | A site-specific, conservative recombination system carried by bacteriophage P1. Mapping the recombinase gene cin and the cross-over sites cix for the inversion of the C segment. |
Q42686273 | Accessory genes in the darA operon of bacteriophage P1 affect antirestriction function, generalized transduction, head morphogenesis, and host cell lysis |
Q36232773 | Amplification of drug resistance genes flanked by inversely repeated IS1 elements: involvement of IS1-promoted DNA rearrangements before amplification |
Q43460451 | Bacteriophage P1 derivatives unaffected in their growth by a large inversion or by IS insertions at various locations |
Q36163450 | Bacteriophage P1 gene 10 encodes a trans-activating factor required for late gene expression |
Q36140266 | Bacteriophage P1 gene 10 is expressed from a promoter-operator sequence controlled by C1 and Bof proteins |
Q42647820 | Bacteriophage P1 tail-fibre and dar operons are expressed from homologous phage-specific late promoter sequences |
Q54733997 | Bent DNA is needed for recombinational enhancer activity in the site-specific recombination system Cin of bacteriophage P1. The role of FIS protein. |
Q37606417 | Bleomycin-resistance gene derived from the transposon Tn5 confers selective advantage to Escherichia coli K-12 |
Q35580121 | Cin-mediated recombination at secondary crossover sites on the Escherichia coli chromosome |
Q54798345 | Crossover sites cix for inversion of the invertible DNA segment C on the bacteriophage P7 genome. |
Q36112500 | DNA inversion regions Min of plasmid p15B and Cin of bacteriophage P1: evolution of bacteriophage tail fiber genes |
Q34221874 | DNA modification and restriction |
Q30011203 | Dynamics of IS-related genetic rearrangements in resting Escherichia coli K-12. |
Q54513897 | Factors of antibiotic resistance. Viewpoint of the molecular geneticist |
Q35789929 | Gene organization in the multiple DNA inversion region min of plasmid p15B of E.coli 15T-: assemblage of a variable gene |
Q54543605 | Genesis and Natural History of IS-mediated Transposons |
Q34022443 | Genetic engineering compared to natural genetic variations |
Q33820587 | Genetic variation: molecular mechanisms and impact on microbial evolution |
Q37337459 | Genetically encoded generators of genetic variants |
Q27693227 | Horizontal Gene Transfer among Bacteria and Its Role in Biological Evolution |
Q36471251 | Host specificity of DNA produced by Escherichia coli, X. In vitro restriction of phage fd replicative form |
Q36449683 | Host specificity of DNA produced by Escherichia coli. XI. In vitro modification of phage fd replicative form |
Q44251122 | Host specificity of DNA produced by Escherichia coli. XV. The role of nucleotide methylation in in vitro B-specific modification |
Q40026635 | Host-Controlled Modification of Bacteriophage |
Q33933271 | IS2 insertion is a major cause of spontaneous mutagenesis of the bacteriophage P1: non-random distribution of target sites. |
Q33692254 | Involvement of gene products in bacterial evolution |
Q54530447 | Is the IS 1-flanked r-Determinant of the R Plasmid NR1 a Transposon? |
Q50123515 | Lack of hotspot targets: a constraint for IS30 transposition in Salmonella |
Q37795359 | Mechanisms in microbial evolution |
Q53517296 | Microbiology: impact on research in life sciences. |
Q39550386 | Molecular Darwinism: the contingency of spontaneous genetic variation |
Q33559983 | Mutational analysis of a prokaryotic recombinational enhancer element with two functions |
Q54668981 | Mutational analysis of the bacteriophage P1 late promoter sequence Ps |
Q43547224 | Mutational loss of the B-specific restriction in bacteriophage fd |
Q42664109 | Mutations in the carboxy-terminal part of IS30 transposase affect the formation and dissolution of (IS30)2 dimer |
Q35687823 | Nucleotide sequence of IS26, a new prokaryotic mobile genetic etement |
Q33939891 | Nucleotide sequence of the prokaryotic mobile genetic element IS30 |
Q36309577 | Occurrence and properties of composite transposon Tn2672: evolution of multiple drug resistance transposons. |
Q44542333 | Physical analysis of the genomes of hybrid phages between phage P1 and plasmid p15B |
Q41056164 | Promotion and Limitation of Genetic Exchange |
Q33931817 | Promotion of RNA transcription on the insertion element IS30 of E. coli K12. |
Q41105665 | Rearrangements of Genetic Material in Escherichia coli As Observed on the Bacteriophage P1 Plasmid |
Q37690215 | Site-specific DNA inversion is enhanced by a DNA sequence element in cis. |
Q37687433 | Site-specific DNA recombination system Min of plasmid p15B: a cluster of overlapping invertible DNA segments |
Q37508264 | Systemic aspects of biological evolution |
Q38336070 | Target specificity of insertion element IS30. |
Q39848163 | Terminal inverted repeats of insertion sequence IS30 serve as targets for transposition |
Q54787788 | Terminal inverted repeats of prokaryotic transposable element IS186 which can generate duplications of variable length at an identical target sequence. |
Q33539533 | The 2009 Lindau Nobel Laureate Meeting: Werner Arber, physiology or medicine 1978. |
Q44742463 | The Min DNA inversion enzyme of plasmid p15B of Escherichia coli 15T-: a new member of the Din family of site-specific recombinases |
Q38341631 | The N-terminal domain of the insertion sequence 30 transposase interacts specifically with the terminal inverted repeats of the element |
Q54788816 | The characterization of terminators of RNA transcription on IS30 and an analysis of their role in IS element-mediated polarity. |
Q37492956 | The impact of science and technology on the civilization |
Q41025524 | The insertion element IS1 is a natural constituent of coliphage P1 DNA |
Q35529725 | The inventiveness of nature: an interview with Werner Arber |
Q54513129 | The kanamycin resistance transposon Tn2680 derived from the R plasmid Rts1 and carried by phage P1Km has flanking 0.8-kb-long direct repeats |
Q33933885 | The sequence of the bacteriophage P1 genome region serving as hot target for IS2 insertion |
Q34372837 | Three functions of bacteriophage P1 involved in cell lysis |
Q37676993 | Transposable element IS1 intrinsically generates target duplications of variable length |
Q22212795 | Daisy Dussoix | doctoral advisor | P184 |
Q14625051 | Silvia Arber | father | P22 |
Category:Werner Arber | wikimedia | |
Arabic (ar / Q13955) | فرنر أربر | wikipedia |
Egyptian Arabic (arz / Q29919) | فرنر اربر | wikipedia |
azb | ورنر آربر | wikipedia |
Вернер Арбер | wikipedia | |
Вернер Арбер | wikipedia | |
bn | ভের্নার আরবার | wikipedia |
Catalan (ca / Q7026) | Werner Arber | wikipedia |
ckb | وارنەر ئاربیر | wikipedia |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
Βέρνερ Άρμπερ | wikipedia | |
Werner Arber | wikipedia | |
en-simple | Werner Arber | wikipedia |
Esperanto (eo / Q143) | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
Basque language (eu / Q8752) | Werner Arber | wikipedia |
Persian (fa / Q9168) | ورنر آربر | wikipedia |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
gsw | Werner Arber | wikipedia |
ורנר ארבר | wikipedia | |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
io | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
ヴェルナー・アーバー | wikipedia | |
Вернер Арбер | wikipedia | |
베르너 아르버 | wikipedia | |
Guarnerius Arber | wikipedia | |
mn | Вернер Арбер | wikipedia |
Werner Arber | wikipedia | |
mzn | ورنر آربر | wikipedia |
nb | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
oc | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
pnb | ورنر آربر | wikipedia |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
Арбер, Вернер | wikipedia | |
Serbo-Croatian (sh / Q9301) | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
Werner Arber | wikipedia | |
sw | Werner Arber | wikipedia |
Вернер Арбер | wikipedia | |
Werner Arber | wikipedia | |
Tatar language (tt / Q25285) | Вернер Арбер | wikipedia |
Вернер Арбер | wikipedia | |
Urdu (ur / Q1617) | ورنر اربر | wikipedia |
uz | Werner Arber | wikipedia |
Werner Arber | wikipedia | |
Yoruba (yo / Q34311) | Werner Arber | wikipedia |
沃納·亞伯 | wikipedia | |
Werner Arber | wikiquote | |
Werner Arber | wikiquote |
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