Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
about
Rooting the tree of life by transition analysesThe origins of phagocytosis and eukaryogenesisAnalysis of rare genomic changes does not support the unikont-bikont phylogeny and suggests cyanobacterial symbiosis as the point of primary radiation of eukaryotesThe iron-sulfur cluster assembly genes iscS and iscU of Entamoeba histolytica were acquired by horizontal gene transferEndosymbiotic theories for eukaryote originLocalization of pyruvate:NADP+ oxidoreductase in sporozoites of Cryptosporidium parvumBiochemistry and evolution of anaerobic energy metabolism in eukaryotesEvolution of four gene families with patchy phylogenetic distributions: influx of genes into protist genomes.Cardiolipin in hydrogenosomes: evidence of symbiotic originMitochondrial steps of arginine biosynthesis are conserved in the hydrogenosomes of the chytridiomycete Neocallimastix frontalis.Compositional heterogeneity and phylogenomic inference of metazoan relationships.BMGE (Block Mapping and Gathering with Entropy): a new software for selection of phylogenetic informative regions from multiple sequence alignments.High throughput genome-wide survey of small RNAs from the parasitic protists Giardia intestinalis and Trichomonas vaginalisThe diversity of dolichol-linked precursors to Asn-linked glycans likely results from secondary loss of sets of glycosyltransferases.Informational gene phylogenies do not support a fourth domain of life for nucleocytoplasmic large DNA virusesMultiple origins of endosymbiosis within the Enterobacteriaceae (γ-Proteobacteria): convergence of complex phylogenetic approachesCurrent therapeutics, their problems, and sulfur-containing-amino-acid metabolism as a novel target against infections by "amitochondriate" protozoan parasites.Evolution of intracellular compartmentalization.Genome sequence of the stramenopile Blastocystis, a human anaerobic parasiteNiche metabolism in parasitic protozoa.Microsporidian mitosomes retain elements of the general mitochondrial targeting system.A machine learning approach to identify hydrogenosomal proteins in Trichomonas vaginalis.Energy transduction anchors genes in organelles.Degenerate mitochondria.Protein import into mitochondria: origins and functions today (review).Multiple secondary origins of the anaerobic lifestyle in eukaryotesMitochondrial-type assembly of FeS centers in the hydrogenosomes of the amitochondriate eukaryote Trichomonas vaginalis.Beyond retrograde and anterograde signalling: mitochondrial-nuclear interactions as a means for evolutionary adaptation and contemporary disease susceptibilityHydrogenosome metabolism is the key target for antiparasitic activity of resveratrol against Trichomonas vaginalis.Novel Hydrogenosomes in the Microaerophilic Jakobid Stygiella incarcerataRole of heme and heme-proteins in trypanosomatid essential metabolic pathways.Early Microbial Evolution: The Age of Anaerobes.The Physiology of Phagocytosis in the Context of Mitochondrial Origin.A nonmitochondrial hydrogen production in Naegleria gruberiBreath-giving cooperation: critical review of origin of mitochondria hypotheses : Major unanswered questions point to the importance of early ecologyAn inventory of yeast proteins associated with nucleolar and ribosomal components.Phylogenetic distributions and histories of proteins involved in anaerobic pyruvate metabolism in eukaryotes.Trichomonas vaginalis Hmp35, a putative pore-forming hydrogenosomal membrane protein, can form a complex in yeast mitochondria.Non-mitochondrial complex I proteins in a hydrogenosomal oxidoreductase complex.Acetate:succinate CoA-transferase in the hydrogenosomes of Trichomonas vaginalis: identification and characterization.
P2860
Q21030522-6C59BFFC-27A2-4A80-9AF8-41D640386984Q21203764-F3FEBD91-D78D-41F6-AC80-F5FB58949078Q24652773-D829EBF2-7602-4AF3-822E-05106CDC2FADQ24801265-22850C15-A900-4D0E-930F-6081527B726FQ26795689-FCE5A1F2-FE1D-424F-898C-B4C34924B852Q28254473-6560FE6A-B05A-45D3-9DB3-A85762FE8E04Q28728648-30B31511-06C2-4473-A02E-88E522D926D2Q33237185-AF5046C8-2B43-41E2-B61D-4B4630A66DD2Q33239548-707F0255-F802-471B-ACA4-55B1BB330CBCQ33273752-898B0AE6-4CC2-4CD3-B595-08AE7A52B7A3Q33552016-D180D05D-37BF-46DD-9D75-2BF8773B8853Q33631749-8B4C6530-7BDB-4817-B77A-B10819FF91FFQ33633510-906602CD-249F-4D81-8E67-F19CEBBE0F66Q33745350-99164D0B-2BFB-4E80-B505-2F6C4DC57C00Q33940838-63152CCF-A6CD-4069-8829-9E6CEAA7C0C7Q34112616-D38647CD-4FCE-4F02-A591-D4F1B57F1998Q34601985-E76B16A6-7D10-41D9-BBDC-11B01F2D9516Q34646440-CD961A8C-13E8-41A9-ABF0-57B0C9BA6CBDQ35086396-EE423D2D-F9A2-4306-B9C8-23D3D477B94DQ35113597-E9663D05-5506-41B2-A78F-809F5E6B3BE6Q35127548-707B527C-334D-43A4-B148-58978FA5F6DFQ35738981-3B5A64F4-CF41-46D3-B964-64F5F0223B7DQ36072163-32E804F1-C966-443C-9700-56545146EB28Q36154260-80AF695D-886F-46AC-BC60-BF2F725FC8A9Q36224510-5A7E4483-B081-4C34-B0F2-168AF1C38CB5Q36497717-ADCBF90D-52F8-4A60-9A0B-8D307A3D3129Q36671888-2DAF15A3-AED7-4727-A3FC-6A32DC532CDAQ36677229-9437E1B5-697D-4D30-B5B7-3C55F27293F3Q37026582-FDC05361-6095-4124-9BA0-09F5FBFE0161Q37184696-44DB5FEA-BBDB-4AA7-8EE5-3B219085E1B3Q37878296-E3311ACA-CED8-4219-A70E-9DE36679D6FDQ38673754-12FED755-0A04-4E7F-A337-62C724A538DAQ38725414-0D62F3FD-F959-4CA6-A154-7182478FEA8AQ39147890-6BD5471C-911B-41C7-8579-EB397D9BCE44Q41408336-808C9369-8107-43E9-B818-4860DF7205F1Q42141805-44FA0784-4169-47AD-B478-91F4CCCD7379Q43266831-AC0EAC2A-76B0-4106-99DF-058FFA243827Q44453270-5834D8A9-EF77-4D9F-8B29-FDB458F94C51Q45128159-C8C1AFF3-F103-4C28-BD74-C4D2E15C3DC3Q46892354-74A2B672-2237-4E3D-94AF-2A3B58663765
P2860
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@ast
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@en
type
label
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@ast
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@en
prefLabel
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@ast
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@en
P2093
P2860
P356
P1476
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle.
@en
P2093
David S Horner
Patricia L Dyal
Peter Foster
T Martin Embley
P2860
P304
191-201; discussion 201-2
P356
10.1098/RSTB.2002.1190
P407
P577
2003-01-01T00:00:00Z