scholarly article | Q13442814 |
P2093 | author name string | Fang Chen | |
Shu-Lin Liu | |||
Gui-Rong Liu | |||
Abraham Eisenstark | |||
Wei-Qiao Liu | |||
Randal N. Johnston | |||
P2860 | cites work | Molecular Biology and Evolution | Q1992656 |
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High efficiency gene replacement in Salmonella enteritidis: chimeric fimbrins containing a T-cell epitope from Leishmania major | Q50126040 | ||
Interspecies gene exchange in bacteria: the role of SOS and mismatch repair systems in evolution of species. | Q50144938 | ||
The XbaI-BlnI-CeuI genomic cleavage map of Salmonella enteritidis shows an inversion relative to Salmonella typhimurium LT2. | Q50157097 | ||
The barrier to recombination between Escherichia coli and Salmonella typhimurium is disrupted in mismatch-repair mutants | Q50192890 | ||
A switch from high-fidelity to error-prone DNA double-strand break repair underlies stress-induced mutation. | Q54478818 | ||
Role of mutator alleles in adaptive evolution. | Q54564129 | ||
Costs and Benefits of High Mutation Rates: Adaptive Evolution of Bacteria in the Mouse Gut | Q56944626 | ||
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Mechanisms and functions of DNA mismatch repair | Q28262719 | ||
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Salmonella paratyphi C: genetic divergence from Salmonella choleraesuis and pathogenic convergence with Salmonella typhi | Q33410823 | ||
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Mutator clones of Neisseria meningitidis in epidemic serogroup A disease | Q34028018 | ||
DNA mismatch repair and genetic instability | Q34090778 | ||
Frameshift mutations and the genetic code. This paper is dedicated to Professor Theodosius Dobzhansky on the occasion of his 66th birthday | Q34229913 | ||
The evolving genome of Salmonella enterica serovar Pullorum | Q34311381 | ||
Evolution of high mutation rates in experimental populations of E. coli | Q34429727 | ||
High frequency of hypermutable Pseudomonas aeruginosa in cystic fibrosis lung infection. | Q34508854 | ||
Fitness evolution and the rise of mutator alleles in experimental Escherichia coli populations. | Q34616140 | ||
Rearrangements in the genome of the bacterium Salmonella typhi | Q34675351 | ||
DNA mismatch repair: from structure to mechanism. | Q35132526 | ||
DNA mismatch repair: molecular mechanisms and biological function | Q35550610 | ||
Mutation as a stress response and the regulation of evolvability | Q35869358 | ||
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Identification and characterization of the mutL and mutS gene products of Salmonella typhimurium LT2. | Q36423731 | ||
Spontaneously Arising mutL Mutators in Evolving Escherichia coli Populations Are the Result of Changes in Repeat Length | Q36474342 | ||
The microbiology of mutability | Q36917147 | ||
Mechanisms and biological effects of mismatch repair | Q37041860 | ||
Long-term effects of inducible mutagenic DNA repair on relative fitness and phenotypic diversification in Pseudomonas cichorii 302959. | Q37052306 | ||
DinB upregulation is the sole role of the SOS response in stress-induced mutagenesis in Escherichia coli | Q37173424 | ||
DNA repeats identify novel virulence genes in Haemophilus influenzae | Q37312114 | ||
MutS and MutL activate DNA helicase II in a mismatch-dependent manner | Q38337755 | ||
Over-representation of repeats in stress response genes: a strategy to increase versatility under stressful conditions? | Q39600777 | ||
High frequency of mutator strains among human uropathogenic Escherichia coli isolates. | Q39694657 | ||
Methods for determining spontaneous mutation rates | Q42620101 | ||
Physical mapping of Salmonella genomes | Q44424428 | ||
Stress-induced mutagenesis in bacteria | Q44459277 | ||
Mutators in Escherichia coli | Q46057951 | ||
High mutation frequencies among Escherichia coli and Salmonella pathogens | Q48057867 | ||
mutL as a genetic switch of bacterial mutability: turned on or off through repeat copy number changes | Q50046037 | ||
Spontaneous conversion between mutL and 6 bpDeltamutL in Salmonella typhimurium LT7: association with genome diversification and possible roles in bacterial adaptation | Q50069592 | ||
Genome plasticity and ori-ter rebalancing in Salmonella typhi | Q50086243 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 277 | |
P577 | publication date | 2010-09-13 | |
P1433 | published in | BMC Evolutionary Biology | Q13418959 |
P1476 | title | Multiple genetic switches spontaneously modulating bacterial mutability | |
P478 | volume | 10 |
Q35752715 | Campylobacter group II phage CP21 is the prototype of a new subgroup revealing a distinct modular genome organization and host specificity. |
Q37988552 | Circulating nucleic acids and evolution |
Q26825267 | Culture history and population heterogeneity as determinants of bacterial adaptation: the adaptomics of a single environmental transition |
Q35433303 | Databases and bioinformatics tools for the study of DNA repair |
Q34832845 | Defining natural species of bacteria: clear-cut genomic boundaries revealed by a turning point in nucleotide sequence divergence |
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Q38187928 | Spontaneous modulation of a dynamic balance between bacterial genomic stability and mutability: roles and molecular mechanisms of the genetic switch |
Q37960390 | The 3Cs provide a novel concept of bacterial species: messages from the genome as illustrated by Salmonella |
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