| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1016/S0960-9822(01)00168-3 |
| P698 | PubMed publication ID | 11369217 |
| P2093 | author name string | Wright S | |
| Finnegan D | |||
| P2860 | cites work | Initial sequencing and analysis of the human genome | Q21045365 |
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| The evolution of virulence: a unifying link between parasitology and ecology | Q34288239 | ||
| Retroviruses in invertebrates: the gypsy retrotransposon is apparently an infectious retrovirus of Drosophila melanogaster | Q35039232 | ||
| Population genetics of microbial organisms | Q35237523 | ||
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| The population genetics of Drosophila transposable elements | Q38321781 | ||
| Evidence for mating of the "asexual" yeast Candida albicans in a mammalian host | Q41747334 | ||
| Multiple LTR-retrotransposon families in the asexual yeast Candida albicans | Q42619054 | ||
| An env-like protein encoded by a Drosophila retroelement: evidence that gypsy is an infectious retrovirus | Q42695163 | ||
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| The Ty1-copia group of retrotransposons in plants: genomic organisation, evolution, and use as molecular markers | Q74081134 | ||
| Symbiotic DNA in eukaryotic genomes | Q83212373 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | R296-9 | |
| P577 | publication date | 2001-04-01 | |
| P1433 | published in | Current Biology | Q1144851 |
| P1476 | title | Genome evolution: sex and the transposable element | |
| P478 | volume | 11 |
| Q88885480 | A parental tug-of-war |
| Q28755532 | Active miniature transposons from a plant genome and its nonrecombining Y chromosome |
| Q42020243 | Alpha3, a transposable element that promotes host sexual reproduction |
| Q56992563 | An introduction to the vast world of transposable elements – what about the diatoms? |
| Q83228043 | Asexual reproduction reduces transposable element load in experimental yeast populations |
| Q34420801 | Breeding systems and genome evolution |
| Q37919383 | Co-evolution between transposable elements and their hosts: a major factor in genome size evolution? |
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| Q54434333 | DNA transposon dynamics in populations of Daphnia pulex with and without sex. |
| Q33682824 | Effects of recombination rate and gene density on transposable element distributions in Arabidopsis thaliana |
| Q38638222 | Evolution and genome architecture in fungal plant pathogens |
| Q34124873 | Evolution of sex: The costs and benefits of sex: new insights from old asexual lineages |
| Q55273863 | Evolutionary divergence of 3' UTRs in cichlid fishes. |
| Q38547564 | Evolutionary dynamics of R2 retroelement and insertion inheritance in the genome of bisexual and parthenogenetic Bacillus rossius populations (Insecta Phasmida). |
| Q34609885 | Experimental tests of the adaptive significance of sexual recombination |
| Q37672042 | Fungal sex and pathogenesis |
| Q42239689 | Genetic Drift, Not Life History or RNAi, Determine Long-Term Evolution of Transposable Elements |
| Q36365088 | Genetic variability and adaptive evolution in parthenogenetic root-knot nematodes |
| Q38861879 | Genome Analysis of Pseudoloma neurophilia: A Microsporidian Parasite of Zebrafish (Danio rerio). |
| Q36282101 | Genome-wide analysis of transposable elements in the coffee berry borer Hypothenemus hampei (Coleoptera: Curculionidae): description of novel families. |
| Q35949968 | Heritable gene expression differences between apomictic clone members in Taraxacum officinale: Insights into early stages of evolutionary divergence in asexual plants. |
| Q41854579 | Impact of ploidy level on the distribution of Pokey element insertions in the Daphnia pulex complex. |
| Q37738649 | Insertion Polymorphisms of Mobile Genetic Elements in Sexual and Asexual Populations of Daphnia pulex |
| Q33629446 | LTR retroelements in the genome of Daphnia pulex |
| Q42682463 | Letting Escherichia coli teach me about genome engineering |
| Q64056415 | MGERT: a pipeline to retrieve coding sequences of mobile genetic elements from genome assemblies |
| Q36225341 | Mobile genetic elements and sexual reproduction |
| Q37520974 | Nested insertions and accumulation of indels are negatively correlated with abundance of mutator-like transposable elements in maize and rice |
| Q40058183 | Obligatory parthenogenesis and TE load: Bacillus stick insects and the R2 non-LTR retrotransposon |
| Q31028212 | Radiation in sexual and parthenogenetic oribatid mites (Oribatida, Acari) as indicated by genetic divergence of closely related species |
| Q35085347 | Random DNA libraries from three species of the stick insect genus Bacillus (Insecta: Phasmida): repetitive DNA characterization and first observation of polyneopteran MITEs |
| Q82880698 | Retrotransposon sequence variation in four asexual plant species |
| Q79224478 | Selfish DNA is maladaptive: evidence from the plant Red List |
| Q59508983 | Selfish genetic elements |
| Q28253241 | Sexual development and cryptic sexuality in fungi: insights from Aspergillus species |
| Q39708501 | Symbiotic and genetic diversity of Rhizobium galegae isolates collected from the Galega orientalis gene center in the Caucasus. |
| Q46009946 | The Tnt1 family member Retrosol copy number and structure disclose retrotransposon diversification in different Solanum species. |
| Q35241993 | The evolution of tyrosine-recombinase elements in Nematoda |
| Q33485535 | The evolutionary dynamics of the Helena retrotransposon revealed by sequenced Drosophila genomes |
| Q35082947 | The fate of transposable elements in asexual populations |
| Q35757863 | The mode and tempo of genome size evolution in eukaryotes. |
| Q28731585 | The predominantly selfing plant Arabidopsis thaliana experienced a recent reduction in transposable element abundance compared to its outcrossing relative Arabidopsis lyrata |
| Q34023612 | Tm1: a mutator/foldback transposable element family in root-knot nematodes |
| Q33532637 | Transcriptional rewiring of the sex determining dmrt1 gene duplicate by transposable elements |
| Q36618594 | Transposable element proliferation as a possible side effect of endosymbiont manipulations |
| Q34020170 | Transposases are the most abundant, most ubiquitous genes in nature. |
| Q43442651 | Transposon proliferation in an asexual parasitoid |
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