| P50 | author | Michael Bordonaro | Q86221727 |
| | Christopher R Chiaro | Q86221728 |
| | Tobias May | Q86221730 |
| P2093 | author name string | Tobias May | |
| | Christopher R Chiaro | |
| P2860 | cites work | A quantum-theoretical approach to the phenomenon of directed mutations in bacteria (hypothesis) | Q56903124 |
| | Quantum biology at the cellular level—Elements of the research program | Q57567751 |
| | Predictive value of in vitro model systems in toxicology | Q74578154 |
| | Adaptive mutagenesis: a process that generates almost exclusively beneficial mutations | Q77161202 |
| | Erwin Schroedinger, Francis Crick and epigenetic stability | Q21203774 |
| | Importance of quantum decoherence in brain processes | Q21686224 |
| | Spontaneous point mutations that occur more often when advantageous than when neutral | Q24532456 |
| | Mutations of Bacteria from Virus Sensitivity to Virus Resistance | Q24533278 |
| | Human cancers express a mutator phenotype | Q24673022 |
| | The origin of mutants | Q28288915 |
| | Experimental evolution of Ebg enzyme provides clues about the evolution of catalysis and to evolutionary potential | Q33611454 |
| | Adaptive reversion of a frameshift mutation in Escherichia coli | Q33958142 |
| | Adaptive mutations in Escherichia coli as a model for the multiple mutational origins of tumors | Q34247386 |
| | Evolving responsively: adaptive mutation | Q34297067 |
| | Evidence for transcriptase quantum processing implies entanglement and decoherence of superposition proton states | Q34980029 |
| | Relative rates of insertion and deletion mutations in a microsatellite sequence in cultured cells | Q35062359 |
| | Multiple pathways of selected gene amplification during adaptive mutation. | Q35125285 |
| | The EBG system of E. coli: origin and evolution of a novel beta-galactosidase for the metabolism of lactose | Q35179950 |
| | Selection-induced mutations | Q35653471 |
| | Tumorigenesis: the adaptation of mammalian cells to sustained stress environment by epigenetic alterations and succeeding matched mutations | Q36085319 |
| | Bacterial stationary-state mutagenesis and Mammalian tumorigenesis as stress-induced cellular adaptations and the role of epigenetics | Q36499774 |
| | Stress-induced mutagenesis in bacteria. | Q36961683 |
| | Selection-induced mutations occur in yeast | Q37001654 |
| | Is the occurrence of some spontaneous mutations directed by environmental challenges? | Q37422698 |
| | Adaptive evolution that requires multiple spontaneous mutations: mutations involving base substitutions | Q37542723 |
| | Probing quantum coherence in a biological system by means of DNA amplification | Q38308103 |
| | Comment on Masanari Asano et al.: A model of epigenetic evolution based on theory of open quantum systems | Q39191703 |
| | Adaptive mutagenesis at ebgR is regulated by PhoPQ. | Q39566221 |
| | Transcriptional control of SV40 T-antigen expression allows a complete reversion of immortalization | Q40249879 |
| | Possible role of adaptive mutation in resistance to antiandrogen in prostate cancer cells | Q40397912 |
| | Microsatellite mutation rates are equivalent in normal and telomerase-immortalized human fibroblasts | Q40765374 |
| | Mechanisms of directed mutation | Q41110210 |
| | How variable is a spontaneous mutation rate in cultured mammalian cells? | Q41472340 |
| | On the specificity of adaptive mutations. | Q41819829 |
| | The effect of primer-template mismatches on the detection and quantification of nucleic acids using the 5' nuclease assay | Q42948105 |
| | Mutated polyadenylation signals for controlling expression levels of multiple genes in mammalian cells. | Q43883110 |
| | Model of the developing tumorigenic phenotype in mammalian cells and the roles of sustained stress and replicative senescence | Q48024535 |
| | The fluctuation test as a more sensitive system for determining induced mutation in L5178Y mouse lymphoma cells | Q51662070 |
| | The parameters for quantitative analysis of mutation rates with cultured mammalian somatic cells. | Q52713675 |
| | A deterministic approach for the estimation of mutation rates in cultured mammalian cells. | Q54453682 |
| P433 | issue | 4 | |
| P304 | page(s) | e74 | |
| P577 | publication date | 2014-12-09 | |
| P1433 | published in | JMIR research protocols | Q27724721 |
| P1476 | title | Experimental design to evaluate directed adaptive mutation in Mammalian cells | |
| P478 | volume | 3 | |