scholarly article | Q13442814 |
P2093 | author name string | John R Roth | |
Sophie Maisnier-Patin | |||
Itsugo Yamayoshi | |||
P2860 | cites work | Mutations of Bacteria from Virus Sensitivity to Virus Resistance | Q24533278 |
Evidence that selected amplification of a bacterial lac frameshift allele stimulates Lac(+) reversion (adaptive mutation) with or without general hypermutability | Q24542676 | ||
Multiple pathways for SOS-induced mutagenesis in Escherichia coli: an overexpression of dinB/dinP results in strongly enhancing mutagenesis in the absence of any exogenous treatment to damage DNA | Q24628966 | ||
Replica plating and indirect selection of bacterial mutants | Q24676225 | ||
Adaptive amplification and point mutation are independent mechanisms: evidence for various stress-inducible mutation mechanisms | Q24796250 | ||
One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products | Q27860842 | ||
The origin of mutants | Q28288915 | ||
Comparative gene expression profiles following UV exposure in wild-type and SOS-deficient Escherichia coli | Q28364148 | ||
An active site aromatic triad in Escherichia coli DNA Pol IV coordinates cell survival and mutagenesis in different DNA damaging agents | Q28478172 | ||
The Y-family of DNA polymerases | Q29615308 | ||
Duplication frequency in a population of Salmonella enterica rapidly approaches steady state with or without recombination | Q33834935 | ||
Genome-wide hypermutation in a subpopulation of stationary-phase cells underlies recombination-dependent adaptive mutation | Q33886793 | ||
The SOS response regulates adaptive mutation | Q33903483 | ||
SOS mutator DNA polymerase IV functions in adaptive mutation and not adaptive amplification | Q33953638 | ||
Adaptive reversion of a frameshift mutation in Escherichia coli | Q33958142 | ||
Amplification-mutagenesis: evidence that "directed" adaptive mutation and general hypermutability result from growth with a selected gene amplification | Q34012598 | ||
Error‐prone DNA polymerase IV is controlled by the stress‐response sigma factor, RpoS, in Escherichia coli | Q34049897 | ||
The RpoS-mediated general stress response in Escherichia coli | Q34189650 | ||
Adaptive reversion of an episomal frameshift mutation in Escherichia coli requires conjugal functions but not actual conjugation | Q34229499 | ||
Evolving responsively: adaptive mutation | Q34297067 | ||
Adaptive mutation in Escherichia coli: a role for conjugation. | Q34308488 | ||
Roles of E. coli double-strand-break-repair proteins in stress-induced mutation | Q34470485 | ||
Plasmid copy number underlies adaptive mutability in bacteria | Q34471714 | ||
General stress response regulator RpoS in adaptive mutation and amplification in Escherichia coli | Q34643555 | ||
Genetic engineering using homologous recombination | Q34995474 | ||
Multiple pathways of selected gene amplification during adaptive mutation. | Q35125285 | ||
Impact of a stress-inducible switch to mutagenic repair of DNA breaks on mutation in Escherichia coli | Q35170976 | ||
Role of Escherichia coli DNA polymerase IV in in vivo replication fidelity | Q35271644 | ||
Redundant homosexual F transfer facilitates selection-induced reversion of plasmid mutations | Q35607773 | ||
Adaptive mutation: how growth under selection stimulates Lac(+) reversion by increasing target copy number | Q35893213 | ||
Stress responses and genetic variation in bacteria. | Q35986593 | ||
Origin of mutations under selection: the adaptive mutation controversy. | Q36500577 | ||
Adaptive mutation: General mutagenesis is not a programmed response to stress but results from rare coamplification of dinB with lac | Q36689838 | ||
DinB upregulation is the sole role of the SOS response in stress-induced mutagenesis in Escherichia coli | Q37173424 | ||
What limits the efficiency of double-strand break-dependent stress-induced mutation in Escherichia coli? | Q37976150 | ||
The Origin of Mutants Under Selection: How Natural Selection Mimics Mutagenesis (Adaptive Mutation) | Q38541782 | ||
Formation of an F' plasmid by recombination between imperfectly repeated chromosomal Rep sequences: a closer look at an old friend (F'(128) pro lac). | Q39714248 | ||
Conjugation is not required for adaptive reversion of an episomal frameshift mutation in Escherichia coli | Q39839215 | ||
Mechanisms of directed mutation | Q41110210 | ||
Mutation and cancer: the antecedents to our studies of adaptive mutation. | Q41749616 | ||
Involvement of Escherichia coli DNA polymerase IV in tolerance of cytotoxic alkylating DNA lesions in vivo. | Q42126464 | ||
Roles of chromosomal and episomal dinB genes encoding DNA pol IV in targeted and untargeted mutagenesis in Escherichia coli. | Q43781879 | ||
The effect of genomic position on reversion of a lac frameshift mutation (lacIZ33) during non-lethal selection (adaptive mutation). | Q43993329 | ||
Evidence that gene amplification underlies adaptive mutability of the bacterial lac operon | Q50128814 | ||
A switch from high-fidelity to error-prone DNA double-strand break repair underlies stress-induced mutation. | Q54478818 | ||
Evidence that F plasmid transfer replication underlies apparent adaptive mutation. | Q54613748 | ||
Origin of bacterial variants. | Q55047163 | ||
PsiB polypeptide prevents activation of RecA protein in Escherichia coli | Q70240940 | ||
The dinB gene encodes a novel E. coli DNA polymerase, DNA pol IV, involved in mutagenesis | Q72994394 | ||
Recombineering: genetic engineering in bacteria using homologous recombination | Q87682799 | ||
Procedure for Identifying Nonsense Mutations | Q95780700 | ||
P407 | language of work or name | English | Q1860 |
P577 | publication date | 2018-01-04 | |
P1433 | published in | Genetics | Q3100575 |
P1476 | title | Selection-Enhanced Mutagenesis of lac Genes Is Due to Their Co-amplification with dinB Encoding an Error-Prone DNA Polymerase |
Q90433877 | Transposable element insertions in fission yeast drive adaptation to environmental stress | cites work | P2860 |
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