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24,576 grants matching “microbiome”
Identification of the Exposome in Fatty Liver Disease in Mexican American Families Using Genetic Correction
$751,281John Blangero · University Of Texas Rio Grande Valley · R01 · FY2018 · MD
Associations of Gut Microbiome Predictors of Body Fat Amount and Distribution
$751,259Johanna W Lampe · University Of Hawaii At Manoa · P01 · FY2012 · CA
Building the foundations of commensal vaccines
$751,181Michael Andrew Fischbach · Stanford University · R01 · FY2024 · AI
A Multi-Omics Approach to the Examination of Bacterial Co-pathogens
$751,100David A Rasko · University Of Maryland Baltimore · U19 · FY2019 · AI
Toxoplasma Surface Antigens and Immunity
$751,025Michael Grigg · National Institute Of Allergy And Infectious Diseases · ZIA · FY2023 · AI
Center for Mucosal Immunobiology and Rheumatic Disease Pathogenesis
$750,550V Michael Holers · University Of Colorado Denver · P30 · FY2023 · AR
The natural history of C. trachomatis urethral infections in men who have sex with women
$750,520David Emmet Nelson · Indiana University Indianapolis · R01 · FY2023 · AI
Biostatistics, Epidemiologic, and Bioinformatic Training in Environmental Health (BEBTEH)
$750,483Elizabeth A Lianne Sheppard · University Of Washington · T32 · FY2021 · ES
Duration of Hormonal Contraceptive Use: Immune Responses & Vaginal Microbiota
$750,468Khalil G Ghanem · Johns Hopkins University · R01 · FY2012 · AI
The Role of Human Gut Microbiota in HIV-1 Rectal Acquisition, Replication, and Pathogenesis
$750,454Angela Raquel Wahl · Univ Of North Carolina Chapel Hill · R01 · FY2016 · AI
Long-term health consequences of birth by cesarean section
$750,369Jorge Eduardo Chavarro · Harvard School Of Public Health · R01 · FY2018 · HD
Clostridium difficile Over Testing (C-DOT) Improvement initiative; a Multi-Prevention Epicenter Collaborative Project
$750,271Clare Rock · Johns Hopkins University · U01 · FY2019 · CK
Understanding and Targeting the Pathophysiology of Youth-onset Type 2 Diabetes- NYU Clinical Center
$750,256Mary Patricia Gallagher · New York University School Of Medicine · U01 · FY2025 · DK
Deconvolution and Assembly of Metagenomes Using Chromatin Conformation Capture
$750,250Ivan Liachko · Phase Genomics, Inc. · R44 · FY2018 · AI
Administrative Core
$750,178Anthony Amend · University Of Hawaii At Manoa · P20 · FY2023 · GM
"Impact of Early feeding and human milk oligosaccharides on obesity and brain development".
$750,094Michael I Goran · Children'S Hospital Of Los Angeles · R01 · FY2021 · DK
Myalgic Encephalomyelitis/Chronic Fatigue Syndrome
$750,000Avindra Nath · National Institute Of Neurological Disorders And Stroke · ZIA · FY2018 · NS
**AWARDS ISSUED PRIOR TO JANUARY 20, 2025, WERE FUNDED UNDER PREVIOUS ADMINISTRATIONS AND MAY NOT REFLECT THE PRIORITIES AND POLICIES OF THE CURRENT ADMINISTRATION.** THERE ARE SOME CRITICAL KNOWLEDGE GAPS ON HOW THE INTEGRATION OF VARIOUS AGRICULTURAL PRACTICES AFFECTS THE DYNAMICS AND FUNCTIONS OF SOIL AND TOMATO-ASSOCIATED MICROBIOME, SOIL AND TOMATO HEALTH, AND PRODUCTIVITY. THEREFORE, THE PROPOSED RESEARCH PROJECT WILL PURSUE FOUR OBJECTIVES: (1) ASSESS THE EFFECTS OF THE INTEGRATION OF COVER CROP CEREAL RYE AND ARBUSCULAR MYCORRHIZAL FUNGI (AMF) PRACTICES ON TOMATO YIELD AND DISEASE CONTROL AGAINST THE SOIL-BORNE FUNGAL PATHOGEN, FUSARIUM OXYSPORUM; (2) CHARACTERIZE AND IDENTIFY FUNCTIONAL ELEMENTS OF SOIL AND TOMATO ROOT-ASSOCIATED MICROBIOME AFFECTED BY CEREAL RYE AND AMF THAT CONTRIBUTE TO TOMATO HEALTH AND YIELD; (3) IDENTIFY THE CRITICAL SOIL HEALTH INDICATORS (I.E., SOIL AGGREGATION, BULK DENSITY, SOIL ORGANIC MATTERS, AND ENZYME ACTIVITIES) ASSOCIATED WITH CEREAL RYE AND AMF PRACTICES AND ELUCIDATE THEIR ASSOCIATIONS WITH SOIL AND TOMATO ROOT-ASSOCIATED MICROBIOMES TO IMPROVE TOMATO SOIL-BORNE DISEASE CONTROL AND YIELD EFFICIENCY; (4) DEVELOP EXTENSION ACTIVITIES FOR IMPROVING TOMATO AND SOIL HEALTH MANAGEMENT. THE PROJECT WILL ADDRESS THE FOLLOWING PROGRAM PRIORITIES: 1) EVALUATE HOW MULTIPLE MANAGEMENT COMPONENTS OF AGRICULTURAL PRODUCTION SYSTEMS CAN BE INTEGRATED TO ENHANCE PLANT DISEASE CONTROL AND PRODUCTIVITY; 2) INVESTIGATE HOW PRODUCTION SYSTEMS CAN ALTER THE MICROBIOME AND DETERMINE HOW ALTERATIONS CAN AFFECT PLANT RESISTANCE TO PATHOGEN INFECTIONS AND PRODUCTIVITY, AND 3) ASSESS HOW CHANGES IN THE PRODUCTION SYSTEM AND BIODIVERSITY AFFECT SOIL AND PLANT HEALTH. THE LONG-TERM GOALS OF THE PROPOSED RESEARCH ARE TO DEVELOP SUSTAINABLE AGRONOMIC MANAGEMENT SYSTEMS FOR IMPROVING SOIL AND TOMATO HEALTH WHILE ENHANCING TOMATO PRODUCTIVITY, REDUCING INPUTS OF CHEMICALS, AND BENEFITTING THE ENVIRONMENT AND HUMAN HEALTH.
$750,000Ohio State University, The · · FY2022 · National Institute of Food and Agriculture
HIV, ART and aging: Role of Lactate in NeuroHIV
$750,000Prasun K Datta · Tulane University Of Louisiana · R56 · FY2025 · AG
Collarborative Research: A systems approach to understanding signaling networks in host-microbiome-parasite interactions
$750,000Lisa K Belden · Virginia Polytechnic Institute And State University · · FY2018 · BIO
IHVN H3 Africa Biorepository Initiative
$750,000Alash'le G. Abimiku · Institute Of Human Virology · UH3 · FY2016 · HG
IHVN H3 Africa Biorepository Initiative
$750,000Alash'le G. Abimiku · Institute Of Human Virology · UH3 · FY2018 · HG
I/UCRC: Phase I: Computing and Genomics-An Essential Partnership for Biology Breakthroughs (CCBGM)
$750,000Liewei Wang · Mayo Clinic Rochester · · FY2016 · CSE
Myalgic Encephalomyelitis/Chronic Fatigue Syndrome
$750,000Avindra Nath · National Institute Of Neurological Disorders And Stroke · ZIA · FY2019 · NS
**AWARDS ISSUED PRIOR TO JANUARY 20, 2025, WERE FUNDED UNDER PREVIOUS ADMINISTRATIONS AND MAY NOT REFLECT THE PRIORITIES AND POLICIES OF THE CURRENT ADMINISTRATION.** THE MICROBIAL COMMUNITY (OR MICROBIOME) ASSOCIATED WITH PLANTS AFFECT HOW PLANTS GROW, USE NUTRIENTS, AND RESPOND TO POLLUTION. PLANTS COMMUNICATE TO THEIR MICROBIOME THROUGH EXUDATES, OR SMALL ORGANIC CHEMICALS RELEASED BY THE PLANT. DUCKWEED IS A SMALL, FLOATING AQUATIC PLANT THAT THRIVES IN AQUATIC ECOSYSTEMS THAT ARE POLLUTED WITH AGRICULTURAL AND URBAN RUNOFF WATER. DUCKWEED HAS BEEN USED TO REMOVE EXCESS NUTRIENTS AND OTHER ORGANIC POLLUTANTS FROM THESE SYSTEMS AND IS BEING INVESTIGATED AS A SUSTAINABLE SOURCE FOR BIOFUELS AND FEED. OUR LONG-TERM GOAL IS TO OPTIMIZEDUCKWEED FOR POLLUTANT REMOVAL AND FOOD OR FUEL PRODUCTION BY MANIPULATING THE DUCKWEED MICROBIOME. TO ACHIEVE THIS GOAL, WE WILL FIRST DETERMINE THE RELATIONSHIPS BETWEEN DUCKWEED EXUDATES, ITS MICROBIOME, AND THE CHEMICAL POLLUTANTS AMMONIUM AND ANTIBIOTICS. ONCE WE ESTABLISH THESE FUNDAMENTAL RELATIONSHIPS, WE WILL DETERMINE HOW DUCKWEED MICROBIOMES AFFECT THE UPTAKE AND METABOLISM OF AMMONIUM AND ANTIBIOTICS BY DUCKWEED. SUBSEQUENTLY, WE WILL INOCULATE DUCKWEED WITH ENGINEERED MICROBIOMES TO DEVELOP DUCKWEEDS WITH ENHANCEDPOLLUTANT REMEDIATION POTENTIAL. IN DOING SO, WE WILL CHARACTERIZE WHAT HAPPENS TO AMMONIUM AND ANTIBIOTICS IN AQUATIC ECOSYSTEMS DOMINATED BY DUCKWEEDS.
$750,000Research Foundation Of The City University Of New York · · FY2020 · National Institute of Food and Agriculture