scholarly article | Q13442814 |
P50 | author | Jesus Blazquez | Q68273789 |
María Rosario Baquero Artigao | Q71264748 | ||
P2093 | author name string | Alina Ionel | |
José-María Gómez-Gómez | |||
Soledad Martín | |||
Tatiana Pérez-Capilla | |||
P2860 | cites work | Hypermutation as a Factor Contributing to the Acquisition of Antimicrobial Resistance | Q79162727 |
SOS-induced DNA polymerases enhance long-term survival and evolutionary fitness | Q24530758 | ||
cAMP-dependent SOS induction and mutagenesis in resting bacterial populations. | Q33719467 | ||
DNA polymerase II is encoded by the DNA damage-inducible dinA gene of Escherichia coli | Q33825068 | ||
The SOS response regulates adaptive mutation | Q33903483 | ||
Evolution-driving genes | Q33949870 | ||
Adaptive reversion of a frameshift mutation in Escherichia coli | Q33958142 | ||
Escherichia coli DNA polymerase IV mutator activity: genetic requirements and mutational specificity | Q33994529 | ||
Error‐prone DNA polymerase IV is controlled by the stress‐response sigma factor, RpoS, in Escherichia coli | Q34049897 | ||
The SOS response: recent insights into umuDC-dependent mutagenesis and DNA damage tolerance | Q34090796 | ||
Specialized DNA polymerases, cellular survival, and the genesis of mutations | Q34662609 | ||
The dinB operon and spontaneous mutation in Escherichia coli | Q35098519 | ||
Inhibition of FtsZ polymerization by SulA, an inhibitor of septation in Escherichia coli | Q35974127 | ||
DNA-damaging agents stimulate gene expression at specific loci in Escherichia coli | Q36389606 | ||
Escherichia coli cells exposed to streptomycin display a mutator phenotype | Q39494167 | ||
Error-prone polymerase, DNA polymerase IV, is responsible for transient hypermutation during adaptive mutation in Escherichia coli. | Q39753960 | ||
Identification of additional genes belonging to the LexA regulon in Escherichia coli | Q42486422 | ||
Phosphate starvation and low temperature as well as ultraviolet irradiation transcriptionally induce the Escherichia coli LexA-controlled gene sfiA. | Q42505805 | ||
Induction of SOS genes in Escherichia coli and mutagenesis in Salmonella typhimurium by fluoroquinolones | Q43680076 | ||
Roles of chromosomal and episomal dinB genes encoding DNA pol IV in targeted and untargeted mutagenesis in Escherichia coli. | Q43781879 | ||
sbmC, a stationary-phase induced SOS Escherichia coli gene, whose product protects cells from the DNA replication inhibitor microcin B17 | Q64389506 | ||
Induction of the SOS response by new 4-quinolones | Q68220052 | ||
P433 | issue | 4 | |
P921 | main subject | Escherichia coli | Q25419 |
ceftazidime | Q808845 | ||
cell wall | Q128700 | ||
P304 | page(s) | 1515-1518 | |
P577 | publication date | 2005-02-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | SOS-independent induction of dinB transcription by beta-lactam-mediated inhibition of cell wall synthesis in Escherichia coli | |
P478 | volume | 187 |
Q37482156 | A DinB variant reveals diverse physiological consequences of incomplete TLS extension by a Y-family DNA polymerase. |
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Q37071320 | Antiinfective agents affecting cognition: a review |
Q35884066 | Antimicrobial effect and mode of action of terpeneless cold-pressed Valencia orange essential oil on methicillin-resistant Staphylococcus aureus |
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Q37794342 | Bacterial hypermutation in cystic fibrosis, not only for antibiotic resistance |
Q90505681 | Bacterial phenotypic heterogeneity in DNA repair and mutagenesis |
Q36499774 | Bacterial stationary-state mutagenesis and Mammalian tumorigenesis as stress-induced cellular adaptations and the role of epigenetics |
Q38012391 | Bacterial stress responses as determinants of antimicrobial resistance |
Q36914997 | Combating bacteria and drug resistance by inhibiting mechanisms of persistence and adaptation. |
Q36961674 | Controlling mutation: intervening in evolution as a therapeutic strategy |
Q37291437 | Development of homogeneous expression of resistance in methicillin-resistant Staphylococcus aureus clinical strains is functionally associated with a beta-lactam-mediated SOS response |
Q37173424 | DinB upregulation is the sole role of the SOS response in stress-induced mutagenesis in Escherichia coli |
Q54372713 | Effect of recA inactivation on mutagenesis of Escherichia coli exposed to sublethal concentrations of antimicrobials. |
Q42577782 | Effect of subinhibitory concentrations of antibiotics on intrachromosomal homologous recombination in Escherichia coli |
Q36735059 | Evidence that bacteriophage λ lysogens may induce in response to the proton motive force uncoupler CCCP. |
Q38741337 | Evolution of Pseudomonas aeruginosa Antimicrobial Resistance and Fitness under Low and High Mutation Rates. |
Q50491788 | Exposure to diverse antimicrobials induces the expression of qnrB1, qnrD and smaqnr genes by SOS-dependent regulation. |
Q41912286 | Expression of canonical SOS genes is not under LexA repression in Bdellovibrio bacteriovorus |
Q42697562 | Fate of mutation rate depends on agr locus expression during oxacillin-mediated heterogeneous-homogeneous selection in methicillin-resistant Staphylococcus aureus clinical strains |
Q42421178 | Impact of recA on levofloxacin exposure-related resistance development |
Q43181792 | Induction and inhibition of ciprofloxacin resistance-conferring mutations in hypermutator bacteria |
Q36624120 | Lex marks the spot: the virulent side of SOS and a closer look at the LexA regulon |
Q33928200 | Methyl gallate from Galla rhois successfully controls clinical isolates of Salmonella infection in both in vitro and in vivo systems |
Q55003493 | Molecular mechanisms underlying heat or tetracycline treatments for citrus HLB control. |
Q36683593 | Multiple Pathways of Genome Plasticity Leading to Development of Antibiotic Resistance. |
Q35869358 | Mutation as a stress response and the regulation of evolvability |
Q92752649 | Mutation rate variability as a driving force in adaptive evolution |
Q38309969 | PBP3 inhibition elicits adaptive responses in Pseudomonas aeruginosa. |
Q30849441 | Prosecutor: parameter-free inference of gene function for prokaryotes using DNA microarray data, genomic context and multiple gene annotation sources |
Q37568922 | Role of reactive oxygen species in antibiotic action and resistance. |
Q34470485 | Roles of E. coli double-strand-break-repair proteins in stress-induced mutation |
Q34124367 | Roles of the Escherichia coli RecA protein and the global SOS response in effecting DNA polymerase selection in vivo |
Q38201509 | Selection of antibiotic resistance at very low antibiotic concentrations |
Q37406333 | Side effects of antibiotics on genetic variability. |
Q40459862 | Stress-Induced Mutagenesis. |
Q37355812 | Stress-induced beta-lactam antibiotic resistance mutation and sequences of stationary-phase mutations in the Escherichia coli chromosome. |
Q36961683 | Stress-induced mutagenesis in bacteria. |
Q36496909 | Stress-induced mutation via DNA breaks in Escherichia coli: a molecular mechanism with implications for evolution and medicine |
Q34860393 | Sub-inhibitory concentrations of some antibiotics can drive diversification of Pseudomonas aeruginosa populations in artificial sputum medium |
Q24625342 | Sublethal antibiotic treatment leads to multidrug resistance via radical-induced mutagenesis |
Q28486717 | Targeting of PBP1 by β-lactams determines recA/SOS response activation in heterogeneous MRSA clinical strains |
Q38300820 | The problems of antibiotic resistance in cystic fibrosis and solutions |
Q34509062 | Translesion DNA Synthesis |
Q35693750 | Urinary tract infection drives genome instability in uropathogenic Escherichia coli and necessitates translesion synthesis DNA polymerase IV for virulence |
Q34933315 | Vibrio cholerae triggers SOS and mutagenesis in response to a wide range of antibiotics: a route towards multiresistance |
Q43259790 | beta-lactam antibiotics induce the SOS response and horizontal transfer of virulence factors in Staphylococcus aureus |
Q36737307 | β-Lactam antibiotics promote bacterial mutagenesis via an RpoS-mediated reduction in replication fidelity |
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