Keyword search (4,163 papers available)

"Zhou J" Authored Publications:

Title Authors PubMed ID
1 Biomarkers Zhou J; Wearn A; Huck J; Hughes CS; Baracchini G; Sylvain E; Tremblay-Mercier J; Poirier J; Breitner JCSCS; Villeneuve S; Chakravarty MM; Tardif CL; Gauthier CJ; Daugherty AM; Turner GR; Spreng RN; 41499788
ENCS
2 Hippocampal output suppresses orbitofrontal cortex schema cell formation Zong W; Zhou J; Gardner MPH; Zhang Z; Costa KM; Schoenbaum G; 40229506
CONCORDIA
3 Iron Deposition and Distribution Across the Hippocampus Is Associated with Pattern Separation and Pattern Completion in Older Adults at Risk for Alzheimer's Disease Zhou J; Wearn A; Huck J; Hughes C; Baracchini G; Tremblay-Mercier J; Poirier J; Villeneuve S; Tardif CL; Chakravarty MM; Daugherty AM; Gauthier CJ; Turner GR; Spreng RN; 38388425
PSYCHOLOGY
4 Data and Tools Integration in the Canadian Open Neuroscience Platform Poline JB; Das S; Glatard T; Madjar C; Dickie EW; Lecours X; Beaudry T; Beck N; Behan B; Brown ST; Bujold D; Beauvais M; Caron B; Czech C; Dharsee M; Dugré M; Evans K; Gee T; Ippoliti G; Kiar G; Knoppers BM; Kuehn T; Le D; Lo D; Mazaheri M; MacFarlane D; Muja N; O' Brien EA; O' Callaghan L; Paiva S; Park P; Quesnel D; Rabelais H; Rioux P; Legault M; Tremblay-Mercier J; Rotenberg D; Stone J; Strauss T; Zaytseva K; Zhou J; Duchesne S; Khan AR; Hill S; Evans AC; 37024500
ENCS
5 Diversity, evolution, and classification of virophages uncovered through global metagenomics. Paez-Espino D, Zhou J, Roux S, Nayfach S, Pavlopoulos GA, Schulz F, McMahon KD, Walsh D, Woyke T, Ivanova NN, Eloe-Fadrosh EA, Tringe SG, Kyrpides NC 31823797
BIOLOGY

 

Title:Diversity, evolution, and classification of virophages uncovered through global metagenomics.
Authors:Paez-Espino DZhou JRoux SNayfach SPavlopoulos GASchulz FMcMahon KDWalsh DWoyke TIvanova NNEloe-Fadrosh EATringe SGKyrpides NC
Link:https://www.ncbi.nlm.nih.gov/pubmed/31823797?dopt=Abstract
DOI:10.1186/s40168-019-0768-5
Publication:Microbiome
Keywords:Global distributionMajor capsid protein (MCP)MetagenomicsVirophageVirophage classificationVirophage-NCLDV interactions
PMID:31823797 Category:Microbiome Date Added:2019-12-12
Dept Affiliation: BIOLOGY
1 Department of Energy, Joint Genome Institute, 2800 Mitchell Dr., Walnut Creek, 94598, USA. adpaezespino@lbl.gov.
2 Department of Energy, Joint Genome Institute, 2800 Mitchell Dr., Walnut Creek, 94598, USA.
3 BSRC "Alexander Fleming", 34 Fleming Street, Vari, 16672, Athens, Greece.
4 Departments of Civil and Environmental Engineering and Bacteriology, University of Wisconsin Madison, 1550 Linden Drive, Madison, WI, 53726, USA.
5 Department of Biology, Concordia University, 7141 Sherbrooke St. West, Montreal, QC, H4B 1R6, Canada.
6 Department of Energy, Joint Genome Institute, 2800 Mitchell Dr., Walnut Creek, 94598, USA. sgtringe@lbl.gov.
7 Department of Energy, Joint Genome Institute, 2800 Mitchell Dr., Walnut Creek, 94598, USA. nckyrpides@lbl.gov.

Description:

Diversity, evolution, and classification of virophages uncovered through global metagenomics.

Microbiome. 2019 Dec 10;7(1):157

Authors: Paez-Espino D, Zhou J, Roux S, Nayfach S, Pavlopoulos GA, Schulz F, McMahon KD, Walsh D, Woyke T, Ivanova NN, Eloe-Fadrosh EA, Tringe SG, Kyrpides NC

Abstract

BACKGROUND: Virophages are small viruses with double-stranded DNA genomes that replicate along with giant viruses and co-infect eukaryotic cells. Due to the paucity of virophage reference genomes, a collective understanding of the global virophage diversity, distribution, and evolution is lacking.

RESULTS: Here we screened a public collection of over 14,000 metagenomes using the virophage-specific major capsid protein (MCP) as "bait." We identified 44,221 assembled virophage sequences, of which 328 represent high-quality (complete or near-complete) genomes from diverse habitats including the human gut, plant rhizosphere, and terrestrial subsurface. Comparative genomic analysis confirmed the presence of four core genes in a conserved block. We used these genes to establish a revised virophage classification including 27 clades with consistent genome length, gene content, and habitat distribution. Moreover, for eight high-quality virophage genomes, we computationally predicted putative eukaryotic virus hosts.

CONCLUSION: Overall, our approach has increased the number of known virophage genomes by 10-fold and revealed patterns of genome evolution and global virophage distribution. We anticipate that the expanded diversity presented here will provide the backbone for further virophage studies.

PMID: 31823797 [PubMed - in process]




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