Surviving the bottleneck: transmission mutants and the evolution of microbial populations.
about
Crossing the scale from within-host infection dynamics to between-host transmission fitness: a discussion of current assumptions and knowledgeThe impact of population size on the evolution of asexual microbes on smooth versus rugged fitness landscapes.A multi-scale analysis of influenza A virus fitness trade-offs due to temperature-dependent virus persistenceLotka-Volterra dynamics kills the Red Queen: population size fluctuations and associated stochasticity dramatically change host-parasite coevolution.Modeling the potential impact of host population survival on the evolution of M. tuberculosis latency.Payoffs, not tradeoffs, in the adaptation of a virus to ostensibly conflicting selective pressures.An additional step in the transmission of Yersinia pestis?Synergistic Pleiotropy Overrides the Costs of Complexity in Viral Adaptation.Understanding barriers to Borrelia burgdorferi dissemination during infection using massively parallel sequencingPredation and selection for antibiotic resistance in natural environments.Nonselective Bottlenecks Control the Divergence and Diversification of Phase-Variable Bacterial Populations.Benefits of a Recombination-Proficient Escherichia coli System for Adaptive Laboratory Evolution.Survival probability of beneficial mutations in bacterial batch culture.The impact of bottlenecks on microbial survival, adaptation and phenotypic switching in host-pathogen interactions.Suppression of Beneficial Mutations in Dynamic Microbial Populations.Trade-offs between and within scales: environmental persistence and within-host fitness of avian influenza viruses.Intraguild predation provides a selection mechanism for bacterial antagonistic compounds.
P2860
Q26824525-5D6DB698-040F-4FCA-B7F3-9F0CEF69143CQ33504886-F3678D1D-F384-423F-A2FD-74AF61537B67Q34649496-04E83E2E-C987-47F4-8EAC-F2EA00F64F70Q35046833-1E405FA0-10FE-4C5A-81D7-FE5626E7C1F7Q35232078-2E15A892-EE3D-4CF8-8580-BBE303679B6EQ35294643-74252AA1-57C7-414B-BC57-6AE90713E603Q35678600-4D65FB3E-1EE3-463D-BC18-5F48238821F5Q36429821-300A3193-5C35-4FDB-A377-374F4DAC38F9Q36970890-31662E2A-9468-43AE-9767-C21DF132B14FQ38775279-91FC5C62-DB3F-44AE-8FB4-1F9426B440B4Q38854554-32137627-3DB5-47A2-9F65-AE61BD54FA8FQ39404926-642DDE0A-5AD2-4D87-9472-C86599077CB5Q40393216-ED00FDE0-5BF2-4527-A3E4-3BF759229E3AQ41923111-9DB26B90-78BF-4EDF-B8EF-C3F649634D85Q49309280-4510C9FD-3A8C-4299-BFF1-AB3DEF6B51B8Q51081383-5B786C1C-EDFF-4BD8-83B9-B526D6A27501Q51551330-F760C682-9620-4A7C-A087-BBAB4A15223B
P2860
Surviving the bottleneck: transmission mutants and the evolution of microbial populations.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 14 October 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Surviving the bottleneck: tran ...... tion of microbial populations.
@en
Surviving the bottleneck: tran ...... tion of microbial populations.
@nl
type
label
Surviving the bottleneck: tran ...... tion of microbial populations.
@en
Surviving the bottleneck: tran ...... tion of microbial populations.
@nl
prefLabel
Surviving the bottleneck: tran ...... tion of microbial populations.
@en
Surviving the bottleneck: tran ...... tion of microbial populations.
@nl
P2860
P1433
P1476
Surviving the bottleneck: transmission mutants and the evolution of microbial populations
@en
P2093
Andreas Handel
Matthew R Bennett
P2860
P304
P356
10.1534/GENETICS.108.093013
P407
P577
2008-10-14T00:00:00Z