Anaerobic fungi (phylum Neocallimastigomycota): advances in understanding their taxonomy, life cycle, ecology, role and biotechnological potential
about
Buwchfawromyces eastonii gen. nov., sp. nov.: a new anaerobic fungus (Neocallimastigomycota) isolated from buffalo faecesOral Samples as Non-Invasive Proxies for Assessing the Composition of the Rumen Microbial CommunityAnaerobic Fungi: A Potential Source of Biological H2 in the Oceanic CrustPhylogeny of anaerobic fungi (phylum Neocallimastigomycota), with contributions from yak in ChinaRUMINANT NUTRITION SYMPOSIUM: How to use data on the rumen microbiome to improve our understanding of ruminant nutrition.RUMINANT NUTRITION SYMPOSIUM: Use of genomics and transcriptomics to identify strategies to lower ruminal methanogenesis.Fungal biodiversity to biotechnology.Associative patterns among anaerobic fungi, methanogenic archaea, and bacterial communities in response to changes in diet and age in the rumen of dairy cows.Exploring the bioprospecting and biotechnological potential of white-rot and anaerobic Neocallimastigomycota fungi: peptidases, esterases, and lignocellulolytic enzymes.Pecoramyces ruminantium, gen. nov., sp. nov., an anaerobic gut fungus from the feces of cattle and sheep.Defined enzyme cocktail from the anaerobic fungus Orpinomyces sp. strain C1A effectively releases sugars from pretreated corn stover and switchgrass.Mapping the membrane proteome of anaerobic gut fungi identifies a wealth of carbohydrate binding proteins and transportersThe ruminal microbiome associated with methane emissions from ruminant livestock.A genome Tree of Life for the Fungi kingdom.Characterization of natural co-cultures of Piromyces with Methanobrevibacter ruminantium from yaks grazing on the Qinghai-Tibetan Plateau: a microbial consortium with high potential in plant biomass degradation.Taxon abundance, diversity, co-occurrence and network analysis of the ruminal microbiota in response to dietary changes in dairy cows.Identification of Genes Involved in the Degradation of Lignocellulose Using Comparative Transcriptomics.Biogas Production: Microbiology and Technology.Total rRNA-Seq Analysis Gives Insight into Bacterial, Fungal, Protozoal and Archaeal Communities in the Rumen Using an Optimized RNA Isolation Method.Utilizing Anaerobic Fungi for Two-stage Sugar Extraction and Biofuel Production from Lignocellulosic Biomass.Transcriptomic analysis of lignocellulosic biomass degradation by the anaerobic fungal isolate Orpinomyces sp. strain C1A.PCR and Omics Based Techniques to Study the Diversity, Ecology and Biology of Anaerobic Fungi: Insights, Challenges and Opportunities.An Investigation into Rumen Fungal and Protozoal Diversity in Three Rumen Fractions, during High-Fiber or Grain-Induced Sub-Acute Ruminal Acidosis Conditions, with or without Active Dry Yeast Supplementation.Bacterial and fungal communities respond differently to varying tillage depth in agricultural soils.Changes in the rumen microbiome and metabolites reveal the effect of host genetics on hybrid crosses.Effect of Dietary Forage to Concentrate Ratios on Dynamic Profile Changes and Interactions of Ruminal Microbiota and Metabolites in Holstein Heifers.Development of an RNA interference (RNAi) gene knockdown protocol in the anaerobic gut fungus Pecoramyces ruminantium strain C1A.The Effect of DNA Extraction Methods on Observed Microbial Communities from Fibrous and Liquid Rumen Fractions of Dairy Cows.Discovery and characterization of family 39 glycoside hydrolases from rumen anaerobic fungi with polyspecific activity on rare arabinosyl substrates.Isolation and Preparation of Extracellular Proteins from Lignocellulose Degrading Fungi for Comparative Proteomic Studies Using Mass Spectrometry.ChytridiomycotaGenome Wide Analysis Reveals the Extrinsic Cellulolytic and Biohydrogen Generating Abilities of Neocallimastigomycota Fungi.Fungal diversity notes 253–366: taxonomic and phylogenetic contributions to fungal taxaAddressing Global Ruminant Agricultural Challenges Through Understanding the Rumen Microbiome: Past, Present, and Futuregen. et sp. nov., a new anaerobic fungus (Neocallimastigomycota) isolated from the rumen of a goatHydrolysis of untreated lignocellulosic feedstock is independent of S-lignin composition in newly classified anaerobic fungal isolate, sp. UH3-1
P2860
Q22002984-720C6368-AB58-4C54-B0FA-C18701C79324Q27318164-29C04A77-8BD8-4A54-BF1D-6E50A3B4EC1FQ28597232-8DB92F1A-D11D-490C-B979-48FF517768F5Q28817703-08EE903F-FBAB-4FD8-830B-644EB3157C95Q30960461-2C934B26-AD03-4FCD-8E57-425281C0482FQ35644439-AFEE4D65-1475-4519-B9C5-670768D3E7ACQ35904319-F59574CF-8C28-405D-8B55-E1C504DEBB6BQ35906964-FE4E791E-6192-4D23-BAAF-7D9B246DE0F1Q36313487-B7946ADC-A40D-4704-8932-88546FAD9AFEQ36369304-A5A82530-C318-497E-8A4C-4181DB86A099Q37067635-EEF68F98-3517-4FDC-9F25-26BA0C8325AAQ37517591-7C1F8A76-7896-4DA9-A745-79079386AE84Q37593793-C5A7D316-AE19-488F-B488-06658CE8A7D9Q38372208-0629B6B6-F907-48F8-B7D1-E1393A040840Q38633632-3445038C-D89B-45D9-A741-E975EAC253C2Q38680871-C2178356-F436-4FF3-A5FE-286B3C5436A4Q38833272-82CFE12A-18E6-456B-8ABA-4A8AD3172DE2Q38901720-E995E796-FE0F-4249-8C6F-04BBC6DE62BEQ41815381-B7B8E072-ECE6-473E-B7D4-8219A2A10C44Q41845951-07E5EE35-29F4-4449-899F-CE3CFDD509C2Q42067421-1F883DCC-DC09-4F58-93CD-2F33F5F795B2Q42101044-4D1195BA-4982-4D4D-ABFE-C1610E3A5412Q42654177-2E393187-3B3D-40BC-A05D-15E72E9B0D6CQ46276562-C3B32CCC-E974-46CE-AC25-7056FDF82147Q46480467-D2BB25A4-3A31-4E1D-BD3A-B886015EC9E7Q47318772-C2525CED-E455-4BDD-87C6-DF8567080900Q49184538-0FA89518-4E75-4E18-A0CF-4F53BA6E7A2BQ50316230-8BA0D912-9D2D-4B1D-92BD-56B9A657882DQ50956289-D536BBC8-7825-4E0C-A04C-7B31A8B6FCB5Q51052536-8304ECA9-8B3D-4383-8FB3-3F6DB2C81DA7Q54515151-5BE741B6-37CE-457F-965A-74F8B30F449CQ55287441-1CD58563-7EC8-4F1F-B12F-51F3D5988044Q56396531-B00493CD-430B-4ADE-8551-60CD5EC3C18CQ57492086-62EDD061-DEA8-4166-A34F-52BA9253BEAEQ58577292-029E93FD-0139-4228-86D6-A0FFE1A2CDCDQ58602486-2494B632-1870-4140-B869-4E3BCF573837
P2860
Anaerobic fungi (phylum Neocallimastigomycota): advances in understanding their taxonomy, life cycle, ecology, role and biotechnological potential
description
2014 nî lūn-bûn
@nan
2014 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@ast
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@en
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@nl
type
label
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@ast
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@en
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@nl
prefLabel
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@ast
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@en
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@nl
P2093
P2860
P50
P3181
P356
P1476
Anaerobic fungi (phylum Neocal ...... and biotechnological potential
@en
P2093
Adrian Tsang
Anil K Puniya
Joan E Edwards
Katerina Fliegerova
Mostafa S Elshahed
Robert Forster
Robert J Gruninger
Tony M Callaghan
P2860
P3181
P356
10.1111/1574-6941.12383
P407
P577
2014-08-11T00:00:00Z