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Inferring horizontal gene transferHow the microbial world saved evolution from the scylla of molecular biology and the charybdis of the modern synthesisUse of Salmonella phage P22 for transduction in Escherichia coliBacteriophage lambda: Early pioneer and still relevantHorizontal Gene Transfer among Bacteria and Its Role in Biological Evolution.Gene Therapy: A Paradigm Shift in DentistryResistance and tolerance to foreign elements by prokaryotic immune systems - curating the genomeThe molecular genetics of bacteriophage: the work of Norton ZinderBacteriophage protein-protein interactionsNon coding RNAs and viruses in the framework of the phylogeny of the genes, epigenesis and heredityGenetic transfer and bacterial taxonomyTechnological Microbiology: Development and ApplicationsNot So Simple After All: Bacteria, Their Population Genetics, and Recombination.Intracontinental spread of human invasive Salmonella Typhimurium pathovariants in sub-Saharan Africa.Detection of simple mutations and polymorphisms in large genomic regionsEscherichia coli has two homologous glutamate decarboxylase genes that map to distinct loci.Systematic approach to optimizing specifically targeted antimicrobial peptides against Streptococcus mutansShort-term signatures of evolutionary change in the Salmonella enterica serovar typhimurium 14028 genome.Molecular genetics of bacteriophage P22.Genetic Exchange in Escherichia Coli K(12): Evidence for Three Linkage Groups.Induction of alered globin synthesis in human immature erythrocytes incubated with ribonucleoprotein.Bacteriophages Contribute to the Spread of Antibiotic Resistance Genes among Foodborne Pathogens of the Enterobacteriaceae Family - A Review.Lysogeny at mid-twentieth century: P1, P2, and other experimental systems.Linkage map of Salmonella typhimurium, edition IVDifferences in lateral gene transfer in hypersaline versus thermal environments.The induction of thymine synthesis by T2 infection of a thymine requiring mutant of Escherichia coli.A Genetic Analysis of the Mate-Killer Trait in Paramecium Aurelia, Variety 8.Transduction in Escherichia Coli K-12.Protoplasts and L-type growth of Escherichia coli.Genetic fine structure of the C region and the linkage map of phage P22.Patterns of sexual recombination in enteric bacteria.Cysteine Mutants of Salmonella TyphimuriumISOLEUCINE-VALINE REQUIRING MUTANTS OF SALMONELLA TYPHIMURIUMThe tryptophan operon of Salmonella typhimurium. Fine structure analysis by deletion mapping and abortive transduction.A model for three-point analysis of random general transduction.Bacterial phylogenetic clusters revealed by genome structureSequence of the genome of Salmonella bacteriophage P22The polysaccharide portion of lipopolysaccharide regulates antigen-specific T-cell activation via effects on macrophage-mediated antigen processing.Mutation to L-rhamnose resistance and transduction to L-rhamnose utilization in Salmonella typhosa.Linear Inheritance in Transductional Clones
P2860
Q21045419-BDDC72EC-15D0-4B96-AAF4-4405CB9321CEQ24645197-7E7CBF9B-B5B8-4343-945E-E0CC45964348Q24681749-A9532659-630E-4D8D-8619-1A5F0125955CQ26830795-0F6C10A7-B279-45D7-AD83-265CA9BCB025Q27693227-3B632887-E07E-47D8-BC46-01BC971B1F5DQ28076033-D48A5995-B3CF-417A-ABCE-AE1599E9D05FQ28081298-4CC9840D-5202-4FF0-BA9B-3A642EBF66DCQ28245250-9E5023A6-6C84-4FC9-9051-545D3DA6B743Q28269950-6B4F85DB-85A2-4F40-BE0B-E4DFBBED1718Q28732315-C552024C-BB8C-4A00-9A12-A1F7C33C80FBQ28776107-5DC48ADC-A79D-486A-A139-812BDCF944D8Q30250972-DD0D9628-A2E7-4AC1-B526-C95A80EE64CEQ30251563-C4DD270E-D94D-46D3-9C37-35333528D242Q30421768-3410BD08-C68F-4941-A48B-F3760A5C26AAQ30715152-D2E29D7D-BB6F-4A70-908B-5D2C4F9206F4Q33204261-0B326F49-EC54-4ED6-B637-F2DC545E5CA3Q33538452-070BD965-E947-4B92-A9F2-12ECFB00EDE4Q33586060-CE6A05A1-0628-40FD-AF81-33E38C202AD3Q33622562-33F51740-401E-4FDA-8218-A9E855A24990Q33713527-FD226398-0F0C-4F5E-AC39-FEF4F664FB91Q33791212-129D3D16-7228-40D8-BA4C-90E2B07828E0Q33813037-1BE0F7A7-1576-46F5-9923-FAAF62E65E06Q33844394-ED7900AD-E23B-4F23-A96E-9E3FA469EBDBQ33851274-362353FE-3A74-417F-9DBA-DE9A3AE6E9E0Q33955926-24C0D9F2-8ED9-4A66-912F-BA627F8A6D76Q33968864-C15C8B9D-E8E5-4757-8506-7EB741E6B22FQ33975712-981433A0-F8D4-409A-B7FD-DC8A75D15331Q33976253-C6710C65-81B9-4855-BA6F-883B83D68DF9Q33976856-DD8F77FC-55C9-4B77-8F88-3F4F52B8CDCEQ33978332-5316914B-4B80-4605-9EB1-2F472B8FF668Q33979075-923A2078-F2C4-4B64-B80B-BA6F94411B77Q33979174-6ECD20EE-F829-49AC-95BD-A2C3F98C3A1FQ33981588-69C1B880-8FD9-43E9-8F38-50C4F83AAA04Q33982916-91C1F3C2-9961-4A5C-A438-7DC1B37499BFQ33983304-139F7047-39D1-42BC-BC8B-F2FFE7C84518Q33993104-ECCADC1C-105E-4DC1-A6CB-DCDE2FDD877AQ33994952-844A3D93-9B23-4DC8-A535-B40417FDA286Q34000037-0F9ACA83-8B4B-47D4-99B6-5A8A6771FB04Q34003204-CB5E359E-03BF-4F6C-99C5-284A30BCFDE4Q34014746-D837AED5-3D9E-4BCF-BA84-253521F95C08
P2860
description
1952 nî lūn-bûn
@nan
1952 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1952 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1952年の論文
@ja
1952年論文
@yue
1952年論文
@zh-hant
1952年論文
@zh-hk
1952年論文
@zh-mo
1952年論文
@zh-tw
1952年论文
@wuu
name
Genetic exchange in Salmonella
@ast
Genetic exchange in Salmonella
@en
Genetic exchange in Salmonella
@nl
type
label
Genetic exchange in Salmonella
@ast
Genetic exchange in Salmonella
@en
Genetic exchange in Salmonella
@nl
prefLabel
Genetic exchange in Salmonella
@ast
Genetic exchange in Salmonella
@en
Genetic exchange in Salmonella
@nl
P2860
P3181
P1476
Genetic exchange in Salmonella
@en
P2093
J LEDERBERG
N D ZINDER
P2860
P304
P3181
P407
P577
1952-11-01T00:00:00Z