The genome of the obligate intracellular parasite Trachipleistophora hominis: new insights into microsporidian genome dynamics and reductive evolution
about
Evolution of parasitism along convergent lines: from ecology to genomicsGenome analysis and polar tube firing dynamics of mosquito-infecting microsporidiaMicrosporidia: Why Make Nucleotides if You Can Steal Them?Evolution of a morphological novelty occurred before genome compaction in a lineage of extreme parasites.The genome of Spraguea lophii and the basis of host-microsporidian interactions.Insight into the evolution of microbial metabolism from the deep-branching bacterium, Thermovibrio ammonificans.Latest progress in microsporidian genome research.Microsporidian genomes harbor a diverse array of transposable elements that demonstrate an ancestry of horizontal exchange with metazoans.The Ordospora colligata genome: Evolution of extreme reduction in microsporidia and host-to-parasite horizontal gene transfer.Genome sequencing and comparative genomics of honey bee microsporidia, Nosema apis reveal novel insights into host-parasite interactionsIdentification and functional characterization of a novel bacterial type asparagine synthetase A: a tRNA synthetase paralog from Leishmania donovaniSecretion of Antonospora (Paranosema) locustae proteins into infected cells suggests an active role of microsporidia in the control of host programs and metabolic processes.Exploiting the architecture and the features of the microsporidian genomes to investigate diversity and impact of these parasites on ecosystems.Identification, Diversity and Evolution of MITEs in the Genomes of Microsporidian Nosema Parasites.Contrasting host-pathogen interactions and genome evolution in two generalist and specialist microsporidian pathogens of mosquitoes.Niches of two polysaccharide-degrading Polaribacter isolates from the North Sea during a spring diatom bloom.Comparative Analysis of Codon Usage Bias Patterns in Microsporidian Genomes.The Prediction and Validation of Small CDSs Expand the Gene Repertoire of the Smallest Known Eukaryotic Genomes.Transcriptomic profiling of host-parasite interactions in the microsporidian Trachipleistophora hominisDiversity and origins of anaerobic metabolism in mitochondria and related organelles.On the reversibility of parasitism: adaptation to a free-living lifestyle via gene acquisitions in the diplomonad Trepomonas sp. PC1.Nitrogen fixation in a chemoautotrophic lucinid symbiosis.Abundant toxin-related genes in the genomes of beneficial symbionts from deep-sea hydrothermal vent mussels.Horizontally acquired genes in early-diverging pathogenic fungi enable the use of host nucleosides and nucleotidesA Recent Whole-Genome Duplication Divides Populations of a Globally Distributed Microsporidian.In Vitro Gene Silencing of the Fish Microsporidian Heterosporis saurida by RNA Interference.Reduction and expansion in microsporidian genome evolution: new insights from comparative genomics.Transport proteins of parasitic protists and their role in nutrient salvage.Effects of the vertically transmitted microsporidian Facilispora margolisi and the parasiticide emamectin benzoate on salmon lice (Lepeophtheirus salmonis).Genome Analysis of Pseudoloma neurophilia: A Microsporidian Parasite of Zebrafish (Danio rerio).Strategies for maximizing ATP supply in the microsporidian Encephalitozoon cuniculi: direct binding of mitochondria to the parasitophorous vacuole and clustering of the mitochondrial porin VDAC.Genomic Survey of a Hyperparasitic Microsporidian Amphiamblys sp. (Metchnikovellidae).From all to (nearly) none: Tracing adaptin evolution in FungiDecay of the glycolytic pathway and adaptation to intranuclear parasitism within Enterocytozoonidae microsporidia.Bacterium-Expressed dsRNA Downregulates Microsporidia Nosema bombycis Gene Expression.Evolutionary conservation and in vitro reconstitution of microsporidian iron-sulfur cluster biosynthesis.Plasma membrane-located purine nucleotide transport proteins are key components for host exploitation by microsporidian intracellular parasites.Exploiting fine-scale genetic and physiological variation of closely related microbes to reveal unknown enzyme functions.Emerging Intestinal Microsporidia Infection in General Population in Jiroft District, Southeastern Iran: A Cross-sectional Study in 2013-2014.Microsporidiosis in Vertebrate Companion Exotic Animals.
P2860
Q27011115-F68BE2BF-A91E-49EB-8212-1E993B8E86E5Q27311304-1AAC09E0-5723-4A30-AD8D-8D5354B503D7Q28080342-ABFC7024-DA61-4CE9-965F-55B4D4FAFE41Q30860103-6ECC3240-1ED2-4DE6-87AF-B6F8A971ACB4Q31129897-CD20EBAB-E5A9-403A-807B-AD404226C7ECQ33719603-22FF893D-1DAF-4675-88B6-710298D45E10Q34330090-D41053A8-0466-47EA-A6CB-A3E9DC660F5FQ34366711-FF353F16-7801-462B-837C-D6F99D03C2D4Q34458135-9432E6FF-3581-473E-82CD-6AFAFFCB369CQ34800040-20BA6D0D-B3D0-40F5-A669-A7C3101E4DEEQ35115121-12F8252D-6490-4C79-8A6A-DE0598222F22Q35140311-D2B5C69D-8C1C-45FB-BD84-932FD1EDA29FQ35237080-E3F9E73C-9FA0-4B41-AA08-4841784A21DEQ35610790-E322F627-EE84-4238-9C5C-72CA11991127Q35619514-0DA03F05-694D-4FA7-BD08-80F51AB86967Q35626361-BADC0105-BDF7-4341-A7E4-7BC7F82CF6B3Q35658061-03067EE5-4F10-4EAF-BF08-5E5530811D7BQ35793424-3F59058C-1AC6-4A1F-AA5D-E7CE7B9C60F0Q35847484-A6F94012-3500-4FD9-9CC5-9EABF0B6AFC6Q36064312-375130A4-C9B5-4676-8BEE-E353873F6ADDQ36091901-5F382641-7093-4299-893E-ED211FDD45D3Q36172925-71A165F9-70CA-4B5A-BAD9-D6E85C355935Q36180764-9BDBA0DF-F9C2-4F62-BC2F-12C4BDBAD91CQ36821457-AADB47DB-3EB8-454D-A9E1-6A39A593C0D4Q37103425-21E3B6BE-6C1A-411E-ABB3-5582B6D12720Q37171281-5CA1E30C-1658-43E4-9C26-85D5BC62FA6DQ37430057-6CD3428D-5FA9-4AD2-8763-AB2953A55918Q38210207-C87D5C79-C106-495D-814B-68F0EEF8A08DQ38619654-07082401-5C8B-4D18-AA8C-69A612D5285BQ38861879-8E8391E8-BE00-400E-8CED-A59B8AFCF8ACQ39061857-B56B705D-3D07-4E40-A80E-45E82C61A5E7Q39330739-813F8517-D38E-41BB-AE4D-1BF1A1C5D99CQ39655685-F77E41E0-A495-48A7-A91A-AC2FF30B9188Q40272783-6610F6E5-86D7-4221-8C62-BF84F5031091Q40619077-0FBD5B24-F664-4EB5-A056-327F0D44D17EQ40832998-C9AD0D40-EB6D-4CB8-9D15-05A07A7D702DQ41618356-0DAB80FA-659E-43A5-8B24-245C9C747374Q46354559-F2877DDE-8FC9-491D-8E87-F53F838A84F8Q47136285-3D676800-FAC5-43A6-98E4-AE7B0D40EF12Q49239364-20D8289C-FE7F-4DCB-AF2F-9881E272D4F9
P2860
The genome of the obligate intracellular parasite Trachipleistophora hominis: new insights into microsporidian genome dynamics and reductive evolution
description
2012 nî lūn-bûn
@nan
2012 թուականին հրատարակուած գիտական յօդուած
@hyw
2012 թվականին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
The genome of the obligate int ...... namics and reductive evolution
@ast
The genome of the obligate int ...... namics and reductive evolution
@en
The genome of the obligate int ...... namics and reductive evolution
@en-gb
The genome of the obligate int ...... namics and reductive evolution
@nl
type
label
The genome of the obligate int ...... namics and reductive evolution
@ast
The genome of the obligate int ...... namics and reductive evolution
@en
The genome of the obligate int ...... namics and reductive evolution
@en-gb
The genome of the obligate int ...... namics and reductive evolution
@nl
altLabel
The Genome of the Obligate Int ...... namics and Reductive Evolution
@en
prefLabel
The genome of the obligate int ...... namics and reductive evolution
@ast
The genome of the obligate int ...... namics and reductive evolution
@en
The genome of the obligate int ...... namics and reductive evolution
@en-gb
The genome of the obligate int ...... namics and reductive evolution
@nl
P2093
P2860
P50
P3181
P1433
P1476
The genome of the obligate int ...... namics and reductive evolution
@en
P2093
Alina V Goldberg
Christian Hacker
Christophe J Noël
Dörte Becher
Jörg Bernhardt
Sirintra Nakjang
Stephanie Markert
P2860
P304
P3181
P356
10.1371/JOURNAL.PPAT.1002979
P407
P50
P577
2012-10-25T00:00:00Z