about
Mathematics is biology's next microscope, only better; biology is mathematics' next physics, only betterThe favorable features of tryptophan synthase for proving Beadle and Tatum's one gene-one enzyme hypothesisON THE TOPOGRAPHY OF THE GENETIC FINE STRUCTURENon coding RNAs and viruses in the framework of the phylogeny of the genes, epigenesis and heredityDetecting independent and recurrent copy number aberrations using interval graphs.Fine Structure Mapping of the am (Gdh) Locus of Neurospora.Recombination studies of lactose nonfermenting mutants of Escherichia coli K-12.MUTANTS OF ESCHERICHIA COLI DEFECTIVE IN THE B PROTEIN OF TRYPTOPHAN SYNTHETASE. II. INTRAGENIC POSITIONGenetic alterations of the rII B cistron polypeptide of phage T4.Model for bacteriophage T4 development in Escherichia coli.The genome of bacteriophage T4.Protein determinants of phage T4 lysis inhibition.Food-web structure in low- and high-dimensional trophic niche spacesSUPPRESSION OF A CLASS OF RII MUTANTS OF T4 BY A SUPPRESSOR OF A LAC -"OPERATOR NEGATIVE" MUTATIONA tribute to Seymour Benzer, 1921--2007.Direct biochemical mapping of eukaryotic viral DNA by means of a linked transcription-translation cell-free system.Maize Adh1 as a monitor of environmental mutagens.Effects of mutations to streptomycin resistance on the rate of translation of mutant genetic information.An ORFan no more: the bacteriophage T4 39.2 gene product, NwgI, modulates GroEL chaperone functionEffect of DNA sequence and structure on nuclease activity of the DexA protein of bacteriophage T4.The properties of altered proteins from mutants bearing one or two lesions in the same gene.COMPARATIVE COMPLEMENTATION AND GENETIC MAPS OF THE PAN-2 LOCUS IN NEUROSPORA CRASSA.GENE STRUCTURE AND FUNCTION IN NEUROSPORA.Gene and genon concept: coding versus regulation. A conceptual and information-theoretic analysis of genetic storage and expression in the light of modern molecular biologyGenetic Map of Bacteriophage phiX174.The gene and the genon concept: a functional and information-theoretic analysis.Complementation between different mutations in the ilvA gene of Escherichia coli K-12.High nucleotide substitution error frequencies in clonal pools of vesicular stomatitis viruscyt gene of adenoviruses 2 and 5 is an oncogene for transforming function in early region E1B and encodes the E1B 19,000-molecular-weight polypeptideMy 2,000 best films: parallel phenotyping of Dictyostelium development.Frameshift mutations produced by proflavin in bacteriophage T4: specificity within a hotspot.Isolation and mapping of t gene mutants of bacteriophage T4D.The Evolving Definition of the Term "Gene".Interval Graph Limits.Allelic variation at the level of intragenic recombination.Toward monitoring specific DNA lesions in the gene by using pollen systems.A graph-theoretic approach to comparing and integrating genetic, physical and sequence-based mapsOn the maximal cliques in c-max-tolerance graphs and their application in clustering molecular sequences.Rigorous conditions for food-web intervality in high-dimensional trophic niche spaces.Alleles versus mutations: Understanding the evolution of genetic architecture requires a molecular perspective on allelic origins.
P2860
Q21146777-474B7F39-BB8F-4600-980A-2976F9B340AEQ24544757-D5BE9852-BC25-4178-A15A-4D92CD58D2BAQ24644905-13354A5B-ED73-4370-8099-5F123B8CF320Q28732315-4CB8624B-5BA0-40C8-8177-7908510838AEQ33760431-2FED52A2-98EA-43D2-8760-30B71637094CQ33949569-49C4928E-21BF-44D4-AE96-81CAA78516ABQ33979024-A9A0FFCF-8776-4256-9C78-F63AFA28DAE5Q33980739-FEA732E7-BE4F-4387-BBD6-BE0FE076F682Q33986827-DCB11E63-7523-46B5-9A32-583E8C51C0F8Q33991436-DDA76AFF-EF28-42AB-B61B-753C07CB99D8Q34072495-ADE0787B-26BD-4755-8EDD-75FAB8E827ECQ34258546-6AA14C43-4AF9-4B8B-B161-3D785DF23E5AQ34333282-A2E211DF-BE64-489A-8E44-8ACEA0FAA894Q34413506-EC38DE66-2881-4682-8184-0113A4D6DC37Q34877526-53D735DE-4FA7-4C24-A2EB-58DA73A1338AQ35016464-BFDF826C-69FF-427E-AF50-D6F5E653D5FBQ35132813-49D2363A-CBF0-4700-A331-37DDE7AEC57EQ35176227-566A72B8-0F20-4FAD-86BB-FDFA6B3A8B13Q35810835-E612079F-32B0-42F5-B7CC-53E1E8FB945AQ36225030-ACCB274B-51F4-4C3E-8A2B-C3784F4B3AAEQ36407414-8B300A0F-6423-4893-AF96-71ACC6085A5FQ36434115-C0322E3E-2683-424E-86EC-9DB85174CE99Q36434339-F7376CF5-A06B-4680-9E3C-B4D65C6D558DQ36459361-EA3D592F-A061-418F-BCBF-15B1B4E2E3DBQ36579782-E9D89855-E7DE-4BF5-8120-7FE39E5D7848Q36758332-B786E702-819B-4807-9FA2-747F4E0F7079Q36759641-3E9B2D6F-3A9A-4468-8916-2051941D5D78Q36827347-347E51B1-8243-4ED6-BF8B-184C08DAB45BQ36896480-28EB844A-86C7-49BF-B01B-98EB247C5810Q36897466-E06A6E55-2C18-457A-9338-22CCAC79D385Q37399577-3C0DABD9-3945-422D-84B5-7331E47E0853Q37507811-C1368E31-84D6-4654-94BB-D351AD6DA5F7Q39209522-F2F4F208-C796-41C7-B6DA-22F3A027EE13Q40503072-900B32CB-74CC-46E3-ABFE-AD7C8AA4D100Q41771135-EA6507C6-B1A9-4605-A516-C2BDE7837EEAQ42131624-7577C470-4357-4002-A0C1-84D546A6BA53Q42138005-27507542-1C1B-4524-8998-7D922FBA50D8Q42415388-27A3CF72-1D50-4A86-A708-F90508A33455Q51636880-F509447E-FBD0-4B8B-85F8-D5D1FF4B30F9Q53532889-BA521204-E187-4CFB-AA55-6BD734392A59
P2860
description
1959 nî lūn-bûn
@nan
1959 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1959 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1959年の論文
@ja
1959年論文
@yue
1959年論文
@zh-hant
1959年論文
@zh-hk
1959年論文
@zh-mo
1959年論文
@zh-tw
1959年论文
@wuu
name
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@ast
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@en
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@nl
type
label
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@ast
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@en
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@nl
prefLabel
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@ast
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@en
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@nl
P356
P1476
ON THE TOPOLOGY OF THE GENETIC FINE STRUCTURE
@en
P2860
P304
P356
10.1073/PNAS.45.11.1607
P407
P577
1959-11-01T00:00:00Z