| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/44738 |
| P698 | PubMed publication ID | 10553899 |
| P50 | author | Miroslav Radman | Q2749478 |
| P2860 | cites work | Deoxycytidyl transferase activity of yeast REV1 protein | Q27931173 |
| Efficient bypass of a thymine-thymine dimer by yeast DNA polymerase, Poleta | Q27935465 | ||
| Thymine-thymine dimer bypass by yeast DNA polymerase zeta | Q27938043 | ||
| Novel human and mouse homologs of Saccharomyces cerevisiae DNA polymerase eta | Q28116380 | ||
| The mutagenesis protein UmuC is a DNA polymerase activated by UmuD', RecA, and SSB and is specialized for translesion replication | Q31422789 | ||
| UmuD'(2)C is an error-prone DNA polymerase, Escherichia coli pol V. | Q35588920 | ||
| Role of RecA protein in untargeted UV mutagenesis of bacteriophage lambda: evidence for the requirement for the dinB gene | Q35608675 | ||
| Genetic control of the UV-induced SOS mutator effect in single- and double-stranded DNA phages | Q41200730 | ||
| DNA microsatellites: agents of evolution? | Q52844840 | ||
| Mutagenic DNA repair in Escherichia coli. XVIII. Involvement of DNA polymerase III alpha-subunit (DnaE protein) in mutagenesis after exposure to UV light. | Q54335591 | ||
| Role of mutator alleles in adaptive evolution. | Q54564129 | ||
| The dinB gene encodes a novel E. coli DNA polymerase, DNA pol IV, involved in mutagenesis | Q72994394 | ||
| P433 | issue | 6756 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | evolutionary change | Q113460570 |
| P304 | page(s) | 866-869 | |
| 866-7, 869 | |||
| P577 | publication date | 1999-10-01 | |
| 1999-10-28 | |||
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Enzymes of evolutionary change | |
| P478 | volume | 401 |
| Q42948978 | A DNA polymerase V homologue encoded by TOL plasmid pWW0 confers evolutionary fitness on Pseudomonas putida under conditions of environmental stress |
| Q37799102 | Aberrant expression of alternative DNA polymerases: A source of mutator phenotype as well as replicative stress in cancer |
| Q34088211 | Adaptive mutation in Escherichia coli |
| Q24623723 | Adaptive mutation: implications for evolution |
| Q53933032 | Antimicrobial peptides from hylid and ranin frogs originated from a 150‐million‐year‐old ancestral precursor with a conserved signal peptide but a hypermutable antimicrobial domain |
| Q28487130 | Are the PE-PGRS proteins of Mycobacterium tuberculosis variable surface antigens? |
| Q34172124 | DNA metabolism in mycobacterium tuberculosis: implications for drug resistance and strain variability |
| Q44555215 | DNA polymerase beta can incorporate ribonucleotides during DNA synthesis of undamaged and CPD-damaged DNA. |
| Q34132140 | DNA polymerase theta purified from human cells is a high-fidelity enzyme |
| Q33490644 | Deciphering Evolutionary Mechanisms Between Mutualistic and Pathogenic Symbioses |
| Q36178618 | Diversify or die: generation of diversity in response to stress. |
| Q78482138 | Error-free recombinational repair predominates over mutagenic translesion replication in E. coli |
| Q33850056 | Eukaryotic DNA polymerases, a growing family |
| Q33967135 | Evidence for the adaptive evolution of mutation rates |
| Q33949870 | Evolution-driving genes |
| Q34094904 | Evolutionary changes in mutation rates and spectra and their influence on the adaptation of pathogens |
| Q39538622 | Genetic antagonism and hypermutability in Mycobacterium smegmatis |
| Q34870071 | Genomovar assignment of Pseudomonas stutzeri populations inhabiting produced oil reservoirs |
| Q73810802 | Great leaps forward: translesion synthesis gets unstalled |
| Q35046890 | HIV mutagenesis and the evolution of antiretroviral drug resistance |
| Q34700410 | Ig gene hypermutation: a mechanism is due. |
| Q56900299 | Increase in error threshold for quasispecies by heterogeneous replication accuracy |
| Q34102811 | Interactions among strategies associated with bacterial infection: pathogenicity, epidemicity, and antibiotic resistance |
| Q34085649 | Limits to natural selection |
| Q37596302 | Long-term effect of mutagenic DNA repair on accumulation of mutations in Pseudomonas syringae B86-17. |
| Q40613584 | Maintenance of aphid clonal lineages: images of immortality? |
| Q42623706 | Mutagenic DNA repair potential in Pseudomonas spp., and characterization of the rulABPc operon from the highly mutable strain Pseudomonas cichorii 302959. |
| Q33945503 | Mutation frequencies and antibiotic resistance |
| Q43639973 | Mutator effects of overproducing DNA polymerase eta (Rad30) and its catalytically inactive variant in yeast |
| Q55193696 | Non-equilibrium repressor binding kinetics link DNA damage dose to transcriptional timing within the SOS gene network. |
| Q57796668 | Ordering up gene expression by slowing down transcription factor binding kinetics |
| Q92684423 | P450 Monooxygenases Enable Rapid Late-Stage Diversification of Natural Products via C-H Bond Activation |
| Q36139867 | Perspective on mutagenesis and repair: the standard model and alternate modes of mutagenesis |
| Q73700295 | RecA-mediated, targeted mutagenesis in zebrafish |
| Q36687824 | Roles of DNA polymerases in replication, repair, and recombination in eukaryotes. |
| Q41734679 | Roles of E. coli DNA polymerases IV and V in lesion-targeted and untargeted SOS mutagenesis |
| Q34203956 | Second-order selection in bacterial evolution: selection acting on mutation and recombination rates in the course of adaptation |
| Q24630493 | Separate roles of structured and unstructured regions of Y-family DNA polymerases |
| Q33676605 | Simplification, Innateness, and the Absorption of Meaning from Context: How Novelty Arises from Gradual Network Evolution |
| Q35544150 | Stationary phase mutagenesis: mechanisms that accelerate adaptation of microbial populations under environmental stress |
| Q34490504 | Subunit-specific degradation of the UmuD/D' heterodimer by the ClpXP protease: the role of trans recognition in UmuD' stability |
| Q35754447 | Targets for Combating the Evolution of Acquired Antibiotic Resistance |
| Q33957289 | The "tale" of UmuD and its role in SOS mutagenesis |
| Q98930175 | The efficient Lamarckian spread of life in the cosmos |
| Q34186298 | The expanding polymerase universe |
| Q36099918 | The many faces of DNA polymerases: strategies for mutagenesis and for mutational avoidance |
| Q34187179 | The simple sequence contingency loci of Haemophilus influenzae and Neisseria meningitidis |
| Q34218124 | Theoretical analysis of mutation hotspots and their DNA sequence context specificity |
| Q33770295 | Transcription, beta-like DNA polymerases and hypermutation |
| Q24290234 | Two novel human and mouse DNA polymerases of the polX family |
| Q33279151 | UV-induced mutagenesis in Escherichia coli SOS response: a quantitative model |
| Q42730426 | Use of mutator strains for characterization of novel antimicrobial agents |
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