The transposon Galileo generates natural chromosomal inversions in Drosophila by ectopic recombination.
about
A divergent P element and its associated MITE, BuT5, generate chromosomal inversions and are widespread within the Drosophila repleta species groupMolecular cytogenetic and genomic insights into chromosomal evolutionAssessing the role of tandem repeats in shaping the genomic architecture of great apesTetris is a foldback transposon that provided the building blocks for an emerging satellite DNA of Drosophila virilisUnraveling the effect of genomic structural changes in the rhesus macaque - implications for the adaptive role of inversions.Gene alterations at Drosophila inversion breakpoints provide prima facie evidence for natural selection as an explanation for rapid chromosomal evolutionStructural and sequence diversity of the transposon Galileo in the Drosophila willistoni genomeTransposable element-assisted evolution and adaptation to host plant within the Leptosphaeria maculans-Leptosphaeria biglobosa species complex of fungal pathogens.The struggle for life of the genome's selfish architectsIdentification and characterization of expressed retrotransposons in the genome of the Paracoccidioides species complexExploration of the Drosophila buzzatii transposable element content suggests underestimation of repeats in Drosophila genomesSegmental duplication, microinversion, and gene loss associated with a complex inversion breakpoint region in Drosophila.Striking structural dynamism and nucleotide sequence variation of the transposon Galileo in the genome of Drosophila mojavensisRecombination rates and genomic shuffling in human and chimpanzee--a new twist in the chromosomal speciation theory.Identification of multiple binding sites for the THAP domain of the Galileo transposase in the long terminal inverted-repeatsStructural and functional liaisons between transposable elements and satellite DNAs.A high resolution map of mammalian X chromosome fragile regions assessed by large-scale comparative genomics.A molecular perspective on a complex polymorphic inversion system with cytological evidence of multiply reused breakpoints.Multiple and diverse structural changes affect the breakpoint regions of polymorphic inversions across the Drosophila genus.The origin of chromosomal inversions as a source of segmental duplications in the Sophophora subgenus of Drosophila.Reassignment of Drosophila willistoni Genome Scaffolds to Chromosome II Arms.Differential occurrence of chromosome inversion polymorphisms among Muller's elements in three species of the tripunctata group of Drosophila, including a species with fast chromosomal evolution.Transposon variation by order during allopolyploidisation between Brassica oleracea and Brassica rapa.Structure and population genetics of the breakpoints of a polymorphic inversion in Drosophila subobscura.Coevolution between transposable elements and recombination.Characterization of the breakpoints of a polymorphic inversion complex detects strict and broad breakpoint reuse at the molecular level.Testing chromosomal phylogenies and inversion breakpoint reuse in Drosophila. The martensis cluster revisited.The DAIBAM MITE element is involved in the origin of one fixed and two polymorphic Drosophila virilis phylad inversions.General survey of hAT transposon superfamily with highlight on hobo element in Drosophila.A less selfish view of genome size evolution in maize.Muller "Elements" in : How the Search for the Genetic Basis for Speciation Led to the Birth of Comparative Genomics
P2860
Q28680731-6B1C8842-4399-4398-A97B-4E05C2D49EE8Q28741422-703D9438-1DE7-45F0-94E4-131CA41C548BQ28743132-5CA0E8A6-DA0B-4252-A1FE-F9D008D98391Q33836706-E03819D0-4D6D-4386-B8E9-19AEE73A3E3BQ33848834-466F5EE0-15C5-48B0-9E7C-B2CCE44E741CQ34148263-F91193F0-7747-4199-AF9C-A89539B7E5EAQ34207726-BEE58206-F1B3-4A09-B75E-2C2AC146D7CCQ34410000-69CA4305-9CBD-41C3-9437-2AB68BFDF437Q34770063-7450294F-2466-43FE-9BB0-561F4185FFA8Q35595059-8EB99528-203B-4922-BCF1-0EEA13E28BD2Q36013605-31C7E1EF-A285-448F-AF8F-37258DEA4415Q36032967-7EBC105D-C37F-4594-8679-8CC7B954A3FCQ36614355-5986780D-8051-4231-8D34-895FBD3C2634Q36701985-A6E3A264-53E3-4352-BA5B-E2061C05A4B4Q36944134-F7BD5B34-9B48-4A9C-9C95-ABF41165D8D5Q38570606-E9C64099-2A48-4FA9-8796-8600F472CDDFQ39149580-139FBB93-4CB4-4052-B57B-7457A2E872C3Q40746857-EFFE0D4A-0745-4A90-84EF-2ECA20B76A60Q41581809-7AD90A25-610E-4455-BCB0-DBC66F5D42BBQ42066879-ABA9EAD0-7E02-488B-AE0D-CA3E70CCB568Q42158007-2DA5916B-7DC7-4F3B-924A-8BF468EFE729Q44314155-D89317B5-AD0B-4E8D-9C56-76D3139850CCQ45400516-2080B0AD-2C59-44E2-BA4C-5D719D9CB9F9Q45978243-0147D0D8-0EDE-4895-B62A-522D03BBB2F0Q46267517-53D52260-CE15-4496-A8F5-05F9C8C8ECF0Q46886286-1BECE26E-27D6-432D-B8A5-EBFA2D791D2EQ52716964-D5B2FCDD-0FB8-40D7-9887-B9F9C6D681CAQ52737244-08C13823-862D-4AE8-8BA2-0F9B2FBDAC71Q52745440-D2465F1A-86A6-4C85-A254-379B31F8A753Q54975252-7F697938-0911-4BDE-9A78-5AC52394EA47Q58698735-933497A0-BBD9-451F-8074-2C3487BFD4B6
P2860
The transposon Galileo generates natural chromosomal inversions in Drosophila by ectopic recombination.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The transposon Galileo generat ...... hila by ectopic recombination.
@ast
The transposon Galileo generat ...... hila by ectopic recombination.
@en
type
label
The transposon Galileo generat ...... hila by ectopic recombination.
@ast
The transposon Galileo generat ...... hila by ectopic recombination.
@en
prefLabel
The transposon Galileo generat ...... hila by ectopic recombination.
@ast
The transposon Galileo generat ...... hila by ectopic recombination.
@en
P2860
P50
P1433
P1476
The transposon Galileo generat ...... phila by ectopic recombination
@en
P2093
Alfredo Ruiz
P2860
P356
10.1371/JOURNAL.PONE.0007883
P407
P577
2009-11-18T00:00:00Z