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24,576 grants matching microbiome

Translational Studies of Age-Associated Arterial Dysfunction, Western Diet and Aerobic Exercise: Role of the Gut Microbiome

$765,515
Douglas R Seals · University Of Colorado · R01 · FY2017 · HL

Population Genomic Analysis of Gut Microbial Colonization in Premature Infants

$765,106
Jillian Banfield · University Of California Berkeley · R01 · FY2022 · AI

Oral microbiome and periodontal diseases in oral HPV infection among people living with HIV

$764,824
Canhua Xiao · Emory University · R01 · FY2024 · DE

Determinants of S. aureus Colonization in Atopic Dermatitis

$764,791
Donald Ym Leung · National Jewish Health · U19 · FY2019 · AI

The National Center for Metabolic Phenotyping of Mouse Models of Obesity and Diabetes (MPMOD) at UC Davis

$764,750
Kc Kent Lloyd · University Of California At Davis · U2C · FY2025 · DK

Identification of Biomarkers of CNS injury and resilience related to HIV-1 and Methamphetamine

$764,642
Jennifer E Iudicello · University Of California, San Diego · R01 · FY2018 · DA

The Role of the Gut Microbiome and Short Chain Fatty Acids in the Regulation of Inflammation and Neuropsychological Symptoms in Patients with Head and Neck Cancer

$764,598
Canhua Xiao · Emory University · R01 · FY2023 · NR

The Lung DNA Virome in Health and Disease

$764,563
Ronald G Collman · University Of Pennsylvania · R33 · FY2019 · HL

Sinusitis in Children and the Nasopharyngeal Microbiome

$764,517
Ellen R. Wald · University Of Wisconsin-Madison · R01 · FY2012 · AI

Epidemiology of the gut microbiome, prediabetes and diabetes in Latinos

$764,306
Robert C Kaplan · Albert Einstein College Of Medicine, Inc · R01 · FY2017 · MD

** AWARDS ISSUED PRIOR TO JANUARY 20, 2025, WERE FUNDED UNDER PREVIOUS ADMINISTRATIONS AND MAY NOT REFLECT THE PRIORITIES AND POLICIES OF THE CURRENT ADMINISTRATION.** PHOSPHOROUS IS ESSENTIAL FOR PLANT GROWTH AND IN MANY AGRICULTURAL SOILS PHOSPHORUS AVAILABILITY LIMITS CROP PRODUCTION. PHOSPHATE-RICH FERTILIZERS CAN TEMPORARILY OFFSETS THESE DEFICIENCIES, BUT HIGH FERTILIZER USEAGE COMES WITH BOTH ECONOMIC AND ENVIRONMENTAL COSTS; LEACHING OF EXCESS PI POLLUTES AQUATIC ECOSYSTEMS, AND ROCK PHOSPHATE RESERVES, FROM WHICH PI-FERTILIZERS ARE DERIVED, ARE BEING DEPLETED. CONSEQUENTLY, INCREASING THE EFFICIENCY OF PHOSPHATE CAPTURE BY CROPS IS IMPORTANT FOR THE ENVIRONMENT AND FOR AGRICULTURAL SUSTAINABILITY. ONE APPROACH IS TO HARNESS THE PLANTS MICROBIAL PARTNERS. MOST PLANT SPECIES, INCLUDING ALL THE MAJOR FOOD CROPS, CAN INCREASE THEIR ACCESS TO PHOSPHATE THROUGH SYMBIOTIC ASSOCIATIONS WITH ARBUSCULAR MYCORRHIZAL (AM) FUNGI. AM FUNGI GROW WITHIN AND AROUND PLANT ROOTS WHERE THEIR HYPHAE CAPTURE AND TRANSFER PHOSPHATE DIRECTLY TO ROOTS. AM FUNGI HAVE CONSERVED MICROBIAL COMMUNITIES ASSOCIATED WITH THEIR HYPHAL SURFACES AND THESE COMMUNITIES HAVE THEPOTENTIAL TO INFLUENCE FUNGAL BIOLOGY AND SUBSEQUENTLY PLANT PERFORMANCE DURING AM SYMBIOSIS. IN THIS PROJECT, WE WILL EXTEND KNOWLEDGE OF HYPHAE-ASSOCIATED MICROBIAL COMMUNITY COMPOSITION IN A RANGE OF SOIL PHOSPHORUS CONDITIONS THROUGH SEQUENCE-BASED PROFILING APPROACHES. USING HIPR-FISH, A RECENTLY DEVELOPED IMAGING APPROACH THAT HAS BEEN DEPLOYED SUCCESSFULLY IN HUMAN MICROBIOME RESEARCH, THE SPATIAL ORGANIZATION OF THE MICROBIAL COMMUNITIES ON THE HYPHAE WILL BE MAPPED. SPATIAL DATA ARE VALUABLE BECAUSE HIGHER LEVEL FUNCTIONS OF A MICROBIAL COMMUNITY MAY ARISE AS THE RESULT OF MICROBIAL INTERACTIONS. COMMUNITY COMPOSITION, GENOME SEQUENCES AND SPATIAL MAPPING DATA WILL INFORM THE ASSEMBLY OF SYNTHETIC MICROBIAL COMMUNITIES. THESE WILL BE EVALUATED FOR THEIR ABILITY TO ENHANCE PLANT PHOSPHORUS NUTRITION DURING AM SYMBIOSIS, WITH A FOCUS ON ACCESSING RESIDUAL SOIL ORGANIC PHOSPHATE POOLS. THE DATA GENERATED WILL CONTRIBUTE TO A HOLISTIC UNDERSTANDING OF AM SYMBIOSES AND GUIDE PRACTICES TO IMPROVE PHOSPHATE CAPTURE AND ULTIMATELY REDUCE HIGH FERTILIZER INPUTS IN AGRICULTURE.

$764,145
Boyce Thompson Institute For Plant Research Inc · · FY2022 · National Institute of Food and Agriculture

MOM2CHild Study: Leveraging systems biology toward discoveries in Maternal Obesity, Milk, and Translation To Child Health

$764,094
Ardythe L. Morrow · University Of Cincinnati · R01 · FY2023 · HD

Caries resistance mechanisms in high-risk Indigenous children

$764,032
Felicitas B Bidlack · Ada Forsyth Institute, Inc. · R01 · FY2025 · DE

Developmental Funds

$763,983
Robert L Ferris · University Of Pittsburgh At Pittsburgh · P30 · FY2020 · CA

Metal Impacts on miRNAs in Human Milk and Contributions to Early Childhood Growth

$763,965
Caitlin Grace Howe · Dartmouth College · R01 · FY2025 · ES

Symbiotic-based discovery of turbinmicin, a safe and selective antifungal against resistant fungi

$763,891
David R Andes · University Of Wisconsin-Madison · R01 · FY2024 · AI

Symbiotic-based discovery of turbinmicin, a safe and selective antifungal against resistant fungi

$763,891
David R Andes · University Of Wisconsin-Madison · R01 · FY2025 · AI

Oral Microbiome and Periodontitis: A Prospective Study in Postmenopausal Women

$763,617
Jean Wactawski-Wende · State University Of New York At Buffalo · R01 · FY2016 · DE

CAREER: Mechanisms of functional robustness in soil microbiomes

$763,538
Seppe Kuehn · University Of Chicago · · FY2024 · BIO

Immunologic changes associated with three progestin-based contraceptives: characterizing immune profiles over one year and identifying factors that may alter HIV risk

$763,516
Alicia K Smith · Emory University · R01 · FY2020 · HD

Reference standards for quality control and data validation in microbiome studies

$763,468
Raul J Cano · Biocollective, Llc · R44 · FY2020 · GM

Role of the Gut Microbiota in Shaping Severity of Malaria

$763,382
Nathan Schmidt · Indiana University Indianapolis · R01 · FY2025 · AI

Mechanisms of multi-species bacterial interactions

$763,237
Anupama Khare · Division Of Basic Sciences - Nci · ZIA · FY2021 · CA

Molecular Pathogenesis and Phenotype of Acquired CFTR Dysfunction in COPD

$763,219
Steven Mark Rowe · University Of Alabama At Birmingham · R01 · FY2016 · HL

Developing second generation SCID pig models: filling the gaps to improve translation of therapeutics in regenerative medicine

$763,121
Christopher Tuggle · Iowa State University · R24 · FY2025 · OD