Next-generation sequencing reveals significant bacterial diversity of botrytized wine
about
Towards a Universal Approach Based on Omics Technologies for the Quality Control of FoodA new perspective on microbial landscapes within food productionAncient and modern environmental DNAA microfluidic DNA library preparation platform for next-generation sequencingWhole-Metagenome-Sequencing-Based Community Profiles of Vitis vinifera L. cv. Corvina Berries Withered in Two Post-harvest Conditions.Metagenomics insights into food fermentationsCharacterization of Bacterial Communities in Selected Smokeless Tobacco Products Using 16S rDNA AnalysisA common bacterial metabolite elicits prion-based bypass of glucose repressionAssociations among Wine Grape Microbiome, Metabolome, and Fermentation Behavior Suggest Microbial Contribution to Regional Wine CharacteristicsFrom Vineyard Soil to Wine Fermentation: Microbiome Approximations to Explain the "terroir" Concept.The Grapevine and Wine Microbiome: Insights from High-Throughput Amplicon SequencingImpact of next generation sequencing techniques in food microbiology.Indigenous bacteria and fungi drive traditional kimoto sake fermentations.Facility-specific "house" microbiome drives microbial landscapes of artisan cheesemaking plants.Monitoring Seasonal Changes in Winery-Resident MicrobiotaComparative genomic analysis of transgenic poplar dwarf mutant reveals numerous differentially expressed genes involved in energy flow.Routine habitat change: a source of unrecognized transient alteration of intestinal microbiota in laboratory mice.Evolution of ecological dominance of yeast species in high-sugar environments.Quality-filtering vastly improves diversity estimates from Illumina amplicon sequencing.Use of bifidobacterial specific terminal restriction fragment length polymorphisms to complement next generation sequence profiling of infant gut communities.High-throughput sequencing and metagenomics: moving forward in the culture-independent analysis of food microbial ecology.NaOH-debittering induces changes in bacterial ecology during table olives fermentation.Microbial biogeography of wine grapes is conditioned by cultivar, vintage, and climateHigh‑throughput sequencing of amplicons for monitoring yeast biodiversity in must and during alcoholic fermentation.Metagenomic analysis of the microbial community in fermented grape marc reveals that Lactobacillus fabifermentans is one of the dominant species: insights into its genome structure.Biofilm formation on the Provox ActiValve: Composition and ingrowth analyzed by Illumina paired-end RNA sequencing, fluorescence in situ hybridization, and confocal laser scanning microscopy.The soil microbiome influences grapevine-associated microbiota.Attenuation of Colitis by Lactobacillus casei BL23 Is Dependent on the Dairy Delivery Matrix.Lean rats gained more body weight than obese ones from a high-fibre diet.Diet shapes the gut microbiome of pigs during nursing and weaningA Necrotizing Enterocolitis-Associated Gut Microbiota Is Present in the Meconium: Results of a Prospective Study.Effects of Arabinoxylan and Resistant Starch on Intestinal Microbiota and Short-Chain Fatty Acids in Subjects with Metabolic Syndrome: A Randomised Crossover Study.The Core and Seasonal Microbiota of Raw Bovine Milk in Tanker Trucks and the Impact of Transfer to a Milk Processing Facility.Intestinal microbiota and anastomotic leakage of stapled colorectal anastomoses: a pilot studySurface microbes in the neonatal intensive care unit: changes with routine cleaning and over time.Microbial terroir for wine grapes.Clinical detection of human probiotics and human pathogenic bacteria by using a novel high-throughput platform based on next generation sequencing.Core Microbiota and Metabolome of Vitis vinifera L. cv. Corvina Grapes and Musts.Of contigs and quagmires: next-generation sequencing pitfalls associated with transcriptomic studies.Oenococcus oeni and the genomic era.
P2860
Q26771235-940C0AA3-56C7-4091-AC6D-75ED5FA94932Q26771658-3B01DF3B-1340-4175-99F7-3D2397D65FDDQ27005869-B8A13FB7-B124-4E3E-A31E-BFB2CB479923Q27311322-71293DB0-9E71-44E6-9F30-87455988927EQ27324451-113D7F5D-0E9C-4EE9-928A-14B2F9A302A7Q28067237-3FC16236-0157-4BB7-86D9-12644DE1B365Q28552628-6F067989-F344-4F14-99EF-A22D3D27B737Q28818181-C22A6307-BA60-43D9-A70A-2F5D6A2FFFBCQ28829007-FEB5510A-4C91-4EC7-A897-1A11C78266CDQ33646265-BD5DB090-AA43-4DE7-AA17-16EE5005E352Q33658898-5C72F752-3057-42F0-8AF6-F414B1A9EB02Q34049711-A53131D4-EAC6-4373-813D-EACD1C8EF380Q34058520-D71FD7AB-8639-4D23-99CD-6B2DE52491C8Q34352835-5BA985E2-10E1-49C5-A181-DA9D3A24B6FAQ34356508-0DE76319-57BB-49EE-AA43-1E81004A907FQ34358431-C24BFB35-40FC-4C80-8B1A-1506CEF31ED7Q34452103-4B2BF92A-EC12-4250-914D-132A43E83679Q34481264-0C620460-BCBE-4FF9-B322-9AF6BCF84870Q34497700-C63EB844-8542-49CE-8B3C-038883CD2D93Q34520774-4CD09154-009C-4CC7-91FB-7848F3F2F780Q34615755-3C0683E9-B66B-4BF0-AF79-25A79EA08BFBQ34919094-EA80875A-0440-4653-9A9F-69BD7516FE4BQ35052960-158BC362-BE23-488E-9330-F23E80280D16Q35128467-95332863-4C83-4C7B-A8A0-72CC57EB0C1EQ35169115-152E8B12-FA62-4D68-90B0-997D8FB25908Q35553160-832CB6C8-2929-4586-A516-B0BFA70A7CB6Q35585901-B8EB6CD5-191C-4FE7-97AE-370D2EFA6FEDQ35688499-B4D6A4AB-E5C6-4420-A786-F25250D6DFF9Q35758364-20AE33C7-AD30-4527-B3A9-95CD439DEF22Q35842586-6E534EF5-295B-4A99-BE75-40C6A26399DFQ35898465-A145C3DE-1752-4525-9E69-AD34ED5F8512Q36081669-D4DEAF33-D974-411B-9436-34AA701A46C9Q36111057-77A0548E-47C5-4AF5-AFF9-E921EA161B55Q36952554-986FA2FC-8F93-4313-B1AC-7F08E9B1F670Q37036280-76516630-4038-41C1-AD9D-6ECC28337823Q37475081-737B2E54-0F19-4E3E-BA9E-816986FDCC01Q37514648-193508DA-01C7-4CAE-9B55-6C876FE5A45BQ37712506-1AF17771-B1B4-4688-BBEF-305E44E78002Q38101440-34EFDE0E-94F1-4BCD-84BD-D3A15E029918Q38638726-402F9EE3-F771-4544-88A0-A74AC5C835E4
P2860
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
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
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@ast
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@en
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@nl
type
label
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@ast
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@en
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@nl
prefLabel
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@ast
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@en
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@nl
P2093
P2860
P3181
P1433
P1476
Next-generation sequencing reveals significant bacterial diversity of botrytized wine
@en
P2093
Andrew K Benson
C M Lucy Joseph
David A Mills
Greg Allen
Nicholas A Bokulich
P2860
P304
P3181
P356
10.1371/JOURNAL.PONE.0036357
P407
P577
2012-01-01T00:00:00Z