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24,576 grants matching microbiome

AWI-Gen Phase 2: Genomic and environmental risk factors for cardiometabolic disease in Africans

$938,911
Michele Michele Ramsay · Wits Health Consortium (Pty), Ltd · U54 · FY2020 · HG

CAREER: Experimental manipulation of host-microbe associations to reveal key features promoting symbiosis

$938,630
Kevin J Vogel · University Of Georgia Research Foundation Inc · · FY2023 · BIO

A rapid, culture-free whole genome approach for characterizing complex metagenomics samples

$938,049
Nicholas Helms Putnam · Dovetail Genomics, Llc · R44 · FY2017 · GM

The EcoCyc Model Organism Database for Escherichia coli [SRI Proposal ECU 14-631]

$937,119
Peter D Karp · Sri International · U24 · FY2015 · GM

The EcoCyc Model Organism Database for Escherichia coli [SRI Proposal ECU 14-631]

$937,119
Peter D Karp · Sri International · U24 · FY2017 · GM

The EcoCyc Model Organism Database for Escherichia coli [SRI Proposal ECU 14-631]

$937,119
Peter D Karp · Sri International · U24 · FY2016 · GM

Clinical Core

$936,892
Daniel W Fitzgerald · Weill Medical Coll Of Cornell Univ · U19 · FY2015 · AI

Sialic acid analogs against multidrug-resistant gonorrhea

$936,377
Sanjay Ram · Univ Of Massachusetts Med Sch Worcester · R01 · FY2024 · AI

Mega-scale Identification tools for xenobiotic metabolism

$936,000
Dean P. Jones · Emory University · U2C · FY2018 · ES

Sialic acid analogs against multidrug-resistant gonorrhea

$935,587
Sanjay Ram · Univ Of Massachusetts Med Sch Worcester · R01 · FY2025 · AI

WEED MANAGEMENT IS ONE OF, IF NOT THE, GREATEST CHALLENGE FOR ORGANIC CROP PRODUCTION. ORGANIC FARMERS RELY ON TILLAGE FOR WEED CONTROL; HOWEVER, TILLAGE IS OFTEN LESS EFFECTIVE THAN CONVENTIONAL FORMS OF WEED MANAGEMENT (E.G. HERBICIDES) AND THEREFORE WEEDS CAN REDUCE YIELDS IN ORGANIC SYSTEMS. ADDITIONALLY, INTEREST IN ECOLOGICALLY PRODUCED FOOD IS INCREASING AMONG THE PUBLIC. SOIL MICROBES CAN INFECT AND KILL WEED SEEDS, THEREBY REDUCING POPULATIONS OF PROBLEMATIC WEED SPECIES. DETERMINING WHAT CROP MANAGEMENT APPROACHES CAN INCREASE MICROBIALLY-MEDIATED MORTALITY OF WEED SEEDS IN THE SOIL COULD GREATLY IMPROVE THE ABILITY OR ORGANIC FARMERS TO CONTROL WEEDS. HOWEVER, RESEARCH HAS BEEN LIMITED ON WHICH MICROBIAL TAXA CAN INCREASE WEED SEED MORTALITY, AND WHAT MANAGEMENT FACTORS PROMOTE THOSE MICROBIAL POPULATIONS.TO ADDRESS THIS KNOWLEDGE GAP, WE WILL CONDUCT COMPLEMENTARY FIELD EXPERIMENTS. FIRST (OBJ. 1), WE WILL CONDUCT TWO COMPLEMENTARY EXPERIMENTS (ONE IN FIELD CROPS AND ONE IN VEGETABLES) EXAMINING HOW ORGANIC SOIL AMENDMENTS INFLUENCE BOTH WEED SEED MORTALITY AND MICROBIOME, AS WELL AS THE SOIL MICROBIOME. TO DO THIS, WE WILL COMPARE ORGANIC SOIL FERTILITY AMENDMENTS THAT VARY IN CHEMICAL AND NUTRIENT QUANTITIES. SECOND (OBJ. 2), WE WILL LEVERAGE A LONG-TERM ORGANIC EXPERIMENT AT PSU TO EVALUATE HOW DISTINCT PERENNIAL FORAGE CROPS (COMPARED TO A STANDARD ORGANIC ANNUAL CROP ROTATION) INFLUENCE WEED SEED MORTALITY AND MICROBIOMES, AS WELL AS THE SOIL MICROBIOME. FOR BOTH EXPERIMENTS, WE WILL USE AMPLICON SEQUENCING TO CHARACTERIZE THE BACTERIAL AND FUNAL COMMUNITIES WITHIN WEED SEEDS, AND TETRAZOLIUM TESTS TO ASSESS SEED VIABILITY. ADDITIONALLY (ONJ. 3), USING A SERIES OF ON-FARM TRIALS AS WELL AS OUR ON-STATION TRIALS, WE WILL DETERMINE THE DRIVERS (E.G. SOIL ABIOTIC FACTORS AND SOIL MICROBIOME) OF WEED SEED MORTALITY AND MICROBIOMES. FINALLY IN COLLABORATION WITH ORGANIC FARMERS, (OBJ. 4) WE WILL USE OUR FARMER ADVISORY PANEL, ON-FARM TRIALS, AND OTHER EXTENSION EVENTS TO DEVELOP A MUTUAL UNDERSTANDING OF HOW SOIL FERTILITY AND CROP ROTATIONS CAN BE LEVERAGED WITHIN ORGANIC SYSTEMS TO ENHANCE WEED SEED MORTALITY IN THE SOIL SEEDBANK.WE EXPECT THE PROPOSED RESEARCH TO IDENTIFY SPECIFIC MICROBIAL TAXA THAT ARE ASSOCIATED WITH GREATER MORTALITY OF WEED SEEDS. THE INTEGRATED RESEARCH AND EXTENSION PUBLICATIONS AND EVENTS (SUCH AS FIELD DAYS AT ON-FARM SITES, STUDY CIRCLES, AND PRESENTATIONS AT GROWER MEETINGS) WILL PROVIDE VALUABLE INFORMATION TO ORGANIC FARMERS IN HOW TO MANAGE THE SOIL IN WAYS THAT PROMOTE MICROBIALLY MEDIATED WEED SEED MORTALITY. ULTIMATELY, OUR PROPOSED RESEARCH WILL RESULT IN A GREATER UNDERSTANDING OF HOW TO USE ECOLOGICAL APPROACHES TO MANAGE WEEDS IN ORGANIC SYSTEMS. THIS PROPOSED PROJECT ALIGNS WITH THE PRIORITIES IN THE ORGANIC TRANSITIONS PROGRAM BY FOCUSING ON UNDERSTANDING THE EFFECTS OF ORGANIC MANAGEMENT ON POPULATIONS OF PROBLEMATIC WEEDS.

$935,000
The Pennsylvania State University · · FY2025 · National Institute of Food and Agriculture

Quorum Sensing Control of Bacterial Biofilm Formation and Dispersal

$934,613
Bonnie Bassler · Princeton University · · FY2021 · BIO

Comparative genomic analysis of bacteria species

$934,466
Xiaofang Jiang · National Library Of Medicine · ZIA · FY2022 · LM

ODF: Support infrastructure for NextGen sequence storage analysis and mgt

$934,188
Owen R White · University Of Maryland Baltimore · U01 · FY2012 · HG

A Multi-Omics Approach to the Examination of Bacterial Co-pathogens

$934,088
David A Rasko · University Of Maryland Baltimore · U19 · FY2023 · AI

Leadership Group for the Infectious Diseases Clinical Research Consortium (IDCRCLG)

$933,971
David S Stephens · Emory University · UM1 · FY2021 · AI

Gel-based Optical-isolation Single-Cell 3D Spatial Multiomics

$933,009
Xiaoyu Shi · University Of California-Irvine · DP2 · FY2025 · GM

Defining Drivers of HPV-associated Carcinogenesis

$933,000
Paul F Lambert · University Of Wisconsin-Madison · R35 · FY2024 · CA

Analysis and Modulation of Virus-Host Interaction in Infections of the Liver

$932,924
Barbara Rehermann · National Institute Of Diabetes And Digestive And Kidney Diseases · ZIA · FY2017 · DK

University of Rochester Vaccine and Treatment Evaluation Unit (VTEU)

$932,430
Ann R Falsey · University Of Rochester · UM1 · FY2024 · AI

Genomic Analyses for Elucidating Novel Targets for Symptoms Management

$932,306
Ann Cashion · National Institute Of Nursing Research · ZIA · FY2014 · NR

Collaborative Research: BoCP-Implementation: Ancient DNA approaches to reconstruct environmental impacts on coral reefs

$932,086
Julia E Cole · Regents Of The University Of Michigan - Ann Arbor · · FY2025 · BIO

Discovery, Structural Studies and Biosynthesis of Biologically Active Natural Products and Natural Product-Like Inhibitors

$931,691
Carole Bewley · National Institute Of Diabetes And Digestive And Kidney Diseases · ZIA · FY2023 · DK

Environmental Chemical Impact on the Host-Microbiome Interaction

$931,487
Andrew Patterson · Pennsylvania State University, The · R35 · FY2023 · ES

Defining Drivers of HPV-associated Carcinogenesis

$930,851
Paul F Lambert · University Of Wisconsin-Madison · R35 · FY2025 · CA