Microbiota of the indoor environment: a meta-analysis
暂无分享,去创建一个
H. Bik | R. Adams | A. Bateman | J. Meadow
[1] Patrick K. H. Lee,et al. Indoor air bacterial communities in Hong Kong households assemble independently of occupant skin microbiomes. , 2016, Environmental microbiology.
[2] J. Gilbert,et al. Athletic equipment microbiota are shaped by interactions with human skin , 2015, Microbiome.
[3] James F. Meadow,et al. Evolution of the indoor biome. , 2015, Trends in ecology & evolution.
[4] A Hyvärinen,et al. Indoor fungi: companions and contaminants. , 2015, Indoor air.
[5] Noah Alexander,et al. Geospatial Resolution of Human and Bacterial Diversity with City-Scale Metagenomics , 2015, Cell systems.
[6] Brent Stephens,et al. Spatial and Temporal Variations in Indoor Environmental Conditions, Human Occupancy, and Operational Characteristics in a New Hospital Building , 2015, PloS one.
[7] Philippe Esling,et al. Accurate multiplexing and filtering for high-throughput amplicon-sequencing , 2015, Nucleic acids research.
[8] Jonathan Awerbuch,et al. Impacts of flood damage on airborne bacteria and fungi in homes after the 2013 Colorado Front Range flood. , 2015, Environmental science & technology.
[9] Jack A. Gilbert,et al. Ecological Succession and Viability of Human-Associated Microbiota on Restroom Surfaces , 2014, Applied and Environmental Microbiology.
[10] Paul Turner,et al. Reagent and laboratory contamination can critically impact sequence-based microbiome analyses , 2014, BMC Biology.
[11] H. Bik. Phinch: An interactive, exploratory data visualization framework for –Omic datasets , 2014, bioRxiv.
[12] Patrick K. H. Lee,et al. Indoor-Air Microbiome in an Urban Subway Network: Diversity and Dynamics , 2014, Applied and Environmental Microbiology.
[13] Rob Knight,et al. Longitudinal analysis of microbial interaction between humans and the indoor environment , 2014, Science.
[14] E. Robine,et al. 'Core species' in three sources of indoor air belonging to the human micro-environment to the exclusion of outdoor air. , 2014, The Science of the total environment.
[15] S. Zinder,et al. Microbial Sequencing Analyses Suggest the Presence of a Fecal Veneer on Indoor Climbing Wall Holds , 2014, Current Microbiology.
[16] Steven W Kembel,et al. Bacterial communities on classroom surfaces vary with human contact , 2014, Microbiome.
[17] Steven E. Lindow,et al. Airborne Bacterial Communities in Residences: Similarities and Differences with Fungi , 2014, PloS one.
[18] Bik Holly,et al. Phinch: An interactive, exploratory data visualization framework for metagenomic datasets , 2014 .
[19] E. Robine,et al. Stability of airborne microbes in the Louvre Museum over time. , 2014, Indoor air.
[20] Richard W. Lusk. Diverse and Widespread Contamination Evident in the Unmapped Depths of High Throughput Sequencing Data , 2014, bioRxiv.
[21] Jeff Kline,et al. Architectural Design Drives the Biogeography of Indoor Bacterial Communities , 2014, PloS one.
[22] Brian C. Thomas,et al. Microbes in the neonatal intensive care unit resemble those found in the gut of premature infants , 2014, Microbiome.
[23] Andreas Wilke,et al. MIxS-BE: a MIxS extension defining a minimum information standard for sequence data from the built environment , 2013, The ISME Journal.
[24] James F. Meadow,et al. Indoor airborne bacterial communities are influenced by ventilation, occupancy, and outdoor air source , 2013, Indoor air.
[25] Ali A. Faruqi,et al. House dust exposure mediates gut microbiome Lactobacillus enrichment and airway immune defense against allergens and virus infection , 2013, Proceedings of the National Academy of Sciences.
[26] Thomas D. Bruns,et al. The Diversity and Distribution of Fungi on Residential Surfaces , 2013, PloS one.
[27] R. Knight,et al. Meta-analyses of studies of the human microbiota , 2013, Genome research.
[28] John Hackett,et al. The Perils of Pathogen Discovery: Origin of a Novel Parvovirus-Like Hybrid Genome Traced to Nucleic Acid Extraction Spin Columns , 2013, Journal of Virology.
[29] David A. Mills,et al. Facility-Specific “House” Microbiome Drives Microbial Landscapes of Artisan Cheesemaking Plants , 2013, Applied and Environmental Microbiology.
[30] Bong-Soo Kim,et al. Identification of Household Bacterial Community and Analysis of Species Shared with Human Microbiome , 2013, Current Microbiology.
[31] Nicholas A. Bokulich,et al. Surface Microbes in the Neonatal Intensive Care Unit: Changes with Routine Cleaning and over Time , 2013, Journal of Clinical Microbiology.
[32] Noah Fierer,et al. Home Life: Factors Structuring the Bacterial Diversity Found within and between Homes , 2013, PloS one.
[33] Se Jin Song,et al. Cohabiting family members share microbiota with one another and with their dogs , 2013, eLife.
[34] R. Knight,et al. A meta-analysis of changes in bacterial and archaeal communities with time , 2013, The ISME Journal.
[35] Daniel N. Frank,et al. Culture-Independent Analysis of Aerosol Microbiology in a Metropolitan Subway System , 2013, Applied and Environmental Microbiology.
[36] Gabriele Berg,et al. The ignored diversity: complex bacterial communities in intensive care units revealed by 16S pyrosequencing , 2013, Scientific Reports.
[37] T. Bruns,et al. Dispersal in microbes: fungi in indoor air are dominated by outdoor air and show dispersal limitation at short distances , 2013, The ISME Journal.
[38] Rob Knight,et al. Diversity, distribution and sources of bacteria in residential kitchens. , 2013, Environmental microbiology.
[39] Rob Knight,et al. Bacterial Diversity in Two Neonatal Intensive Care Units (NICUs) , 2013, PloS one.
[40] D. Sinderen,et al. Gut microbiota composition correlates with diet and health in the elderly , 2012, Nature.
[41] Elaine M Faustman,et al. Utilizing pyrosequencing and quantitative PCR to characterize fungal populations among house dust samples. , 2012, Journal of environmental monitoring : JEM.
[42] S. Kelley,et al. Office Space Bacterial Abundance and Diversity in Three Metropolitan Areas , 2012, PloS one.
[43] William W. Nazaroff,et al. Human Occupancy as a Source of Indoor Airborne Bacteria , 2012, PloS one.
[44] William A. Walters,et al. Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms , 2012, The ISME Journal.
[45] Jeff Kline,et al. Architectural design influences the diversity and structure of the built environment microbiome , 2012, The ISME Journal.
[46] Ji-hye Lee,et al. A multi-laboratory profile of Mycoplasma contamination in Lawsonia intracellularis cultures , 2012, BMC Research Notes.
[47] Rob Knight,et al. Microbial Biogeography of Public Restroom Surfaces , 2011, PloS one.
[48] P. Auvinen,et al. Molecular profiling of fungal communities in moisture damaged buildings before and after remediation - a comparison of culture-dependent and culture-independent methods , 2011, BMC Microbiology.
[49] Rob Knight,et al. Bayesian community-wide culture-independent microbial source tracking , 2011, Nature Methods.
[50] R. Knight,et al. UniFrac: an effective distance metric for microbial community comparison , 2011, The ISME Journal.
[51] R. Knight,et al. Microbial community resemblance methods differ in their ability to detect biologically relevant patterns , 2010, Nature Methods.
[52] S. Massart,et al. Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rural Africa , 2010, Proceedings of the National Academy of Sciences.
[53] Robert Samson,et al. Indoor fungal composition is geographically patterned and more diverse in temperate zones than in the tropics , 2010, Proceedings of the National Academy of Sciences.
[54] William A. Walters,et al. QIIME allows analysis of high-throughput community sequencing data , 2010, Nature Methods.
[55] F. Bushman,et al. QIIME allows integration and analysis of high-throughput community sequencing data. Nat. Meth. , 2010 .
[56] R. Knight,et al. Bacterial Community Variation in Human Body Habitats Across Space and Time , 2009, Science.
[57] Martin Täubel,et al. The occupant as a source of house dust bacteria. , 2009, The Journal of allergy and clinical immunology.
[58] R. Knight,et al. Pyrosequencing-Based Assessment of Soil pH as a Predictor of Soil Bacterial Community Structure at the Continental Scale , 2009, Applied and Environmental Microbiology.
[59] Christine Wiedinmyer,et al. Characterization of Airborne Microbial Communities at a High-Elevation Site and Their Potential To Act as Atmospheric Ice Nuclei , 2009, Applied and Environmental Microbiology.
[60] R. Knight,et al. The influence of sex, handedness, and washing on the diversity of hand surface bacteria , 2008, Proceedings of the National Academy of Sciences.
[61] R. Knight,et al. Worlds within worlds: evolution of the vertebrate gut microbiota , 2008, Nature Reviews Microbiology.
[62] Eoin L. Brodie,et al. Greengenes, a Chimera-Checked 16S rRNA Gene Database and Workbench Compatible with ARB , 2006, Applied and Environmental Microbiology.
[63] Largus T. Angenent,et al. Molecular Analysis of Shower Curtain Biofilm Microbes , 2004, Applied and Environmental Microbiology.
[64] F. Kong,et al. Simultaneous Detection and Identification of Common Cell Culture Contaminant and Pathogenic Mollicutes Strains by Reverse Line Blot Hybridization , 2004, Applied and Environmental Microbiology.