Toward the functional analysis of uncultivable, symbiotic microorganisms in the termite gut.
about
A bacterial filter protects and structures the gut microbiome of an insect.Structural and Biochemical Analyses of Glycoside Hydrolase Family 26 -Mannanase from a Symbiotic Protist of the Termite Reticulitermes speratusThe Origin of Mucosal Immunity: Lessons from the Holobiont HydraThe cockroach origin of the termite gut microbiota: patterns in bacterial community structure reflect major evolutionary eventsBacterial Community Diversity Harboured by Interacting SpeciesA molecular survey of Australian and North American termite genera indicates that vertical inheritance is the primary force shaping termite gut microbiomesThe Role of Mass Spectrometry in the "Omics" EraHeterologous expression in Pichia pastoris and characterization of an endogenous thermostable and high-glucose-tolerant β-glucosidase from the termite Nasutitermes takasagoensisAcetogenesis from H2 plus CO2 and nitrogen fixation by an endosymbiotic spirochete of a termite-gut cellulolytic protistEndomicrobium proavitum, the first isolate of Endomicrobia class. nov. (phylum Elusimicrobia)--an ultramicrobacterium with an unusual cell cycle that fixes nitrogen with a Group IV nitrogenase.Comprehensive phylogenetic diversity of [FeFe]-hydrogenase genes in termite gut microbiota.Discovery and Complete Genome Sequence of a Bacteriophage from an Obligate Intracellular Symbiont of a Cellulolytic Protist in the Termite GutBehind every great ant, there is a great gut.Functional equivalence and evolutionary convergence in complex communities of microbial sponge symbionts.Functional metagenomics unveils a multifunctional glycosyl hydrolase from the family 43 catalysing the breakdown of plant polymers in the calf rumen.What we can learn from sushi: a review on seaweed-bacterial associations.Microbial community diversity in the gut of the South American termite Cornitermes cumulans (Isoptera: Termitidae).The gut microbiota of insects - diversity in structure and function.Population structure of Endomicrobia in single host cells of termite gut flagellates (Trichonympha spp.).Acromyrmex Leaf-Cutting Ants Have Simple Gut Microbiota with Nitrogen-Fixing Potential.Genome economization in the endosymbiont of the wood roach Cryptocercus punctulatus due to drastic loss of amino acid synthesis capabilities.Bacterial communities in termite fungus combs are comprised of consistent gut deposits and contributions from the environment.Gut Bacterial Community of the Xylophagous Cockroaches Cryptocercus punctulatus and Parasphaeria boleirianaAct together-implications of symbioses in aquatic ciliates.Taxonomy, Physiology, and Natural Products of Actinobacteria.Metaproteomics: harnessing the power of high performance mass spectrometry to identify the suite of proteins that control metabolic activities in microbial communitiesExpanding the Knowledge on Lignocellulolytic and Redox Enzymes of Worker and Soldier Castes from the Lower Termite Coptotermes gestroi.Genome of 'Ca. Desulfovibrio trichonymphae', an H2-oxidizing bacterium in a tripartite symbiotic system within a protist cell in the termite gut.Cooperation, communication, and co-evolution: grand challenges in microbial symbiosis researchExclusive Gut Flagellates of Serritermitidae Suggest a Major Transfaunation Event in Lower Termites: Description of Heliconympha glossotermitis gen. nov. spec. nov.Intranuclear verrucomicrobial symbionts and evidence of lateral gene transfer to the host protist in the termite gut.Isolation and assessment of gut bacteria from the Formosan subterranean termite, Coptotermes formosanus (Isoptera: Rhinotermitidae), for paratransgenesis research and application.Defining host-symbiont collaboration in termite lignocellulose digestion: "The view from the tip of the iceberg"Experimental tests of host-virus coevolution in natural killer yeast strains.Draft Genome Sequence of Lactococcus sp. Strain Rs-Y01, Isolated from the Gut of the Lower Termite Reticulitermes speratus.Comparison of Intracellular "Ca. Endomicrobium Trichonymphae" Genomovars Illuminates the Requirement and Decay of Defense Systems against Foreign DNA.Pycnoscelus surinamensis cockroach gut microbiota respond consistently to a fungal diet without mirroring those of fungus-farming termites.Cellulomonas macrotermitis sp. nov., a chitinolytic and cellulolytic bacterium isolated from the hindgut of a fungus-growing termite.Genome analysis of 'Candidatus Ancillula trichonymphae', first representative of a deep-branching clade of Bifidobacteriales, strengthens evidence for convergent evolution in flagellate endosymbionts.Age polyethism drives community structure of the bacterial gut microbiota in the fungus-cultivating termite Odontotermes formosanus.
P2860
Q27322363-A13ABA70-231C-4FC9-A749-C0E32A633FFEQ27681915-4E4B7854-B0C6-4147-A458-FF32F61B1CEFQ28076367-AB1FF30C-56ED-428F-84B9-9DF28A490493Q28307117-EAF98CF9-4496-4F4F-9610-8DCC6666C6E2Q28601734-519824C2-BBB9-44C8-BD3D-575DC3295F7AQ28650895-9A232274-D33B-478C-9C73-32837D4EA083Q28660980-E0966E34-FA9A-4809-9AF1-4C15FBD63C69Q28728700-635C1609-6E24-4663-84F9-735F94909765Q30662199-F07C6098-5263-4E83-A24C-8260648743C6Q30977257-99A16BB5-3232-4D02-9809-56D89CE06976Q33805806-9EC493CD-ED5F-4F3A-9B3A-72E4369534DFQ33818575-B6EB4D2D-F789-4E22-864C-60EF7194AA84Q34268731-7F88E11E-57F8-4C9D-859F-0E70133F209FQ34281598-BEB82E86-4BC7-48E5-8140-10B39AEDE9CAQ34325656-D981B08A-888C-470C-8FE2-7A910EBBBAFBQ34331011-CD36AFC1-9764-4D2A-AE4F-C70A52C5FAB7Q34402268-701E3E42-4E2A-4FD7-B60E-01C1546ED9D2Q34732651-17775B21-F7FF-45CE-BFE1-C07931B00D66Q35168039-59D19CD1-A850-4BB3-9C34-7CA4520E8DDAQ35655248-37754BF4-6A80-44F8-8149-52B791DA36BDQ35811491-4A9FDF07-2D3B-4DFF-A282-9CFA108C9BD7Q35827775-1FA20FD3-DA9F-4FD4-B119-C5740257CEEFQ35982163-2B4BC0AC-15BD-4E0C-A30F-CC89F11E74B3Q36145139-D0482ADC-9A3A-4C46-86E0-8E4364CA3212Q36457919-3DE1A33B-6564-43B9-B806-601AA1F51E68Q36966339-9B25E928-050A-4954-BDA1-8AC4F5C7FBEFQ37335048-9B75597F-1EE7-4DBB-8B03-EFBF2F85CA65Q37660948-816743D9-74C9-462D-9541-5C06BDCD37A6Q37707576-0F3BE22C-3527-4E71-801F-2EEB200567D1Q38691242-08F164AA-3C94-4D41-9A21-0C04DBA01A9AQ38915623-23B08F3B-112B-49F4-B8F5-03C222E27DB0Q38952333-E9D0B4DD-BEF8-4C0C-864A-2FD4D2B18695Q39636921-64D36D2D-0E41-426A-8E18-49C9EF84A81DQ40366807-9709E592-F461-4FA8-A999-4A4E68C81167Q41688696-7DB6BA82-18D0-4B99-A391-9C4E64B8D8E0Q42345747-5B7F6171-9A2B-41A4-90E7-CE6EBBE0A0F3Q42369616-15F47A4E-C730-4037-86CC-BBCACCF879DAQ46271135-C13EBB75-68B2-4AF7-A49E-444FE641D123Q46502540-2D4CB9EE-4AA3-44CE-9E2D-B4696C434812Q46673155-E72C214A-4F29-4C8C-8480-A7250A5AFD17
P2860
Toward the functional analysis of uncultivable, symbiotic microorganisms in the termite gut.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 02 March 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Toward the functional analysis ...... oorganisms in the termite gut.
@en
Toward the functional analysis ...... oorganisms in the termite gut.
@nl
type
label
Toward the functional analysis ...... oorganisms in the termite gut.
@en
Toward the functional analysis ...... oorganisms in the termite gut.
@nl
prefLabel
Toward the functional analysis ...... oorganisms in the termite gut.
@en
Toward the functional analysis ...... oorganisms in the termite gut.
@nl
P2860
P1476
Toward the functional analysis ...... oorganisms in the termite gut.
@en
P2093
Yuichi Hongoh
P2860
P2888
P304
P356
10.1007/S00018-011-0648-Z
P577
2011-03-02T00:00:00Z