| P50 | author | Yue Wu | Q86949923 |
| P2093 | author name string | Mark M Tanaka | |
| | Richard Z Aandahl | |
| P2860 | cites work | The frailty of adaptive hypotheses for the origins of organismal complexity | Q22066346 |
| | Selfish DNA: the ultimate parasite | Q22122417 |
| | Selfish genes, the phenotype paradigm and genome evolution | Q22122418 |
| | Distribution of fitness effects caused by random insertion mutations in Escherichia coli | Q22122455 |
| | On the probability of fixation of mutant genes in a population | Q24533316 |
| | The origins of genome complexity | Q29547507 |
| | Insertion sequences | Q29617579 |
| | Insertion sequence content reflects genome plasticity in strains of the root nodule actinobacterium Frankia | Q33509899 |
| | The evolution of self-regulated transposition of transposable elements | Q33951655 |
| | Distribution and abundance of insertion sequences among natural isolates of Escherichia coli. | Q33952758 |
| | Stress and transposable elements: co-evolution or useful parasites? | Q34049943 |
| | Perspective: transposable elements, parasitic DNA, and genome evolution | Q34192362 |
| | Evolutionary dynamics of transposable elements in prokaryotes and eukaryotes | Q34239483 |
| | The first steps of transposable elements invasion: parasitic strategy vs. genetic drift | Q34570688 |
| | The struggle for life of the genome's selfish architects | Q34770063 |
| | The fate of transposable elements in asexual populations | Q35082947 |
| | The dynamics of repeated elements: applications to the epidemiology of tuberculosis. | Q35115441 |
| | Large-scale genomic analysis suggests a neutral punctuated dynamics of transposable elements in bacterial genomes. | Q35195382 |
| | Insertion sequence ISEcp1B is involved in expression and mobilization of a bla(CTX-M) beta-lactamase gene | Q35685430 |
| | Evolutionary significance of stress-induced mutagenesis in bacteria | Q35785631 |
| | Dynamics of insertion sequence elements during experimental evolution of bacteria | Q35811200 |
| | Regulation of transposition in bacteria. | Q35811231 |
| | The ecology of the genome - mobile DNA elements and their hosts | Q36004587 |
| | Long-term evolution of transposable elements | Q36288596 |
| | Insertion sequences in prokaryotic genomes | Q36578722 |
| | A family of insertion sequences that impacts integrons by specific targeting of gene cassette recombination sites, the IS1111-attC Group | Q36747859 |
| | The role of IS6110 in the evolution of Mycobacterium tuberculosis | Q36879772 |
| | Stress-induced mutagenesis in bacteria. | Q36961683 |
| | Comparative genomics reveal extensive transposon-mediated genomic plasticity and diversity among potential effector proteins within the genus Coxiella | Q37075501 |
| | The role of horizontal gene transfer in the evolution of selected foodborne bacterial pathogens | Q37141593 |
| | Transposable elements as genomic diseases | Q37350548 |
| | Chlorobenzoate catabolic transposon Tn5271 is a composite class I element with flanking class II insertion sequences | Q37596438 |
| | The impact of transposable elements in environmental adaptation. | Q38072072 |
| | Transposable elements in prokaryotes | Q40128634 |
| | Transposition burst of the ISH27 insertion element family in Halobacterium halobium | Q40526904 |
| | Transposable elements and adaptation of host bacteria | Q40564752 |
| | Drosophila P element: transposition, regulation and evolution | Q40564758 |
| | Transposable element-host interactions: regulation of insertion and excision | Q41689480 |
| | Sure facts, speculations, and open questions about the evolution of transposable element copy number | Q41756995 |
| | Rates of transposition in Escherichia coli. | Q41946979 |
| | Insertion-sequence-mediated mutations isolated during adaptation to growth and starvation in Lactococcus lactis | Q41992183 |
| | The effect of mobile element IS10 on experimental regulatory evolution in Escherichia coli | Q42533037 |
| | UV light induces IS10 transposition in Escherichia coli. | Q42571999 |
| | Antibiotic-induced autoactivation of IS256 in Staphylococcus aureus | Q42872183 |
| | Influence of ciprofloxacin and vancomycin on mutation rate and transposition of IS256 in Staphylococcus aureus | Q43422435 |
| | Estimating the fitness effect of an insertion sequence | Q44016264 |
| | Detection of an IS21 insertion sequence in the mexR gene of Pseudomonas aeruginosa increasing beta-lactam resistance | Q44735539 |
| | Transposition is modulated by a diverse set of host factors in Escherichia coli and is stimulated by nutritional stress | Q46680790 |
| | Causes of insertion sequences abundance in prokaryotic genomes | Q48082049 |
| | Mobile DNA can drive lineage extinction in prokaryotic populations. | Q51619085 |
| | TESD: a transposable element dynamics simulation environment. | Q51934708 |
| | Insertion sequence-driven evolution of Escherichia coli in chemostats. | Q54365525 |
| | Evolution of transposable elements: an IS10 insertion increases fitness in Escherichia coli. | Q54445687 |
| | A Mathematical Theory of Natural and Artificial Selection, Part V: Selection and Mutation | Q56169900 |
| | Transiently Beneficial Insertions Could Maintain Mobile DNA Sequences in Variable Environments | Q58416317 |
| | Transposable elements as mutator genes in evolution | Q59084250 |
| | Deleterious transposable elements and the extinction of asexuals | Q60147002 |
| | Insertion sequence IS256 in canine pyoderma isolates of Staphylococcus pseudintermedius associated with antibiotic resistance | Q61792033 |
| | Transposable elements as activators of cryptic genes in E. coli | Q74203345 |
| | Transposable elements and fitness of bacteria | Q74588023 |
| | The interaction between mobile DNAs and their hosts in a fluctuating environment | Q79961401 |
| | Models of the population genetics of transposable elements | Q81240283 |
| | Mutagenesis via IS transposition in Deinococcus radiodurans | Q81635734 |
| | Periodic extinctions of transposable elements in bacterial lineages: evidence from intragenomic variation in multiple genomes | Q82062766 |
| | Insertion sequence elements in Cupriavidus metallidurans CH34: distribution and role in adaptation | Q83032500 |
| | IS30 elements are mediators of genetic diversity in Oenococcus oeni | Q84585691 |
| | The early phase of a bacterial insertion sequence infection | Q84979818 |
| | COMPETITION BETWEEN HIGH AND LOW MUTATING STRAINS OF ESCHERICHIA COLI | Q88206326 |
| P304 | page(s) | 288 | |
| P577 | publication date | 2015-12-21 | |
| P1433 | published in | BMC Evolutionary Biology | Q13418959 |
| P1476 | title | Dynamics of bacterial insertion sequences: can transposition bursts help the elements persist? | |
| P478 | volume | 15 | |