Collaborations
The Plant Genetics Research has a long and productive history of collaborative research involving stakeholders.
Current collaborators and projects:
BOARD OF REGENTS OF THE UNIVERSITY OF NEBRASK, LINCOLN, NE
Increasing Genetic Diversity, Yield, and Protein of US Commercial Soybean Germplasm
DONALD DANFORTH PLANT SCIENCE CENTER, SAINT LOUIS, MO
Molecular Characterization of Soybean for Seed Quality Improvement
Generation and Characterization of Soybean Containing Edited Genes for Seed Quality Improvement
Discovering New Metabolic Constraints and Regulatory Nodes in Oilseeds Engineered for Enhanced Fatty Acid Synthesis and Seed Oil
Inter-Institutional Collaboration with the Donald Danforth Plant Science Center
Measurement of Acyl-ACPs and Lipid Precursors in Soybeans Over Development
Characterization of Lipid Turnover in Soybeans Over Development
Institutional Biological Safety Committee (IBC) Agreement - Donald Danforth Plant Science Center
Development of Integrative and Big-Data Driven Technologies for Soybean Product Development
MISSOURI SOYBEAN MERCHANDISING COUNCIL, JEFFERSON CITY, MO
HOLL Plus Soybean Variety Development
Accelerating Value-Added Soybean Germplasm Development and High-Level Soybean Genetic Studies Through High-Throughput Seed Analysis Technology
OHIO STATE UNIVERSITY, THE, COLUMBUS, OH
Genetic Regulation of Ovarian Follicular Progression in Japanese Quail
UNITED SOYBEAN BOARD, CHESTERFIELD, MO
Evaluating The Benefits of Soybean with High Protein and High Sulfur Amino Acid Content on Gain and Feed Efficiency of Poultry
Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
Refinement of Trypsin Inhibitor Measurement Procedure to Improve the Assay Consistency Leading to Industry Adoption
Development of Soybean Lines Without Both Trypsin and Chymotrypsin Inhibitors
Development of Integrative Big-Data Driven Technologies for Soybean Product Development
UNIVERSITY OF ARKANSAS SYSTEM, FAYETTEVILLE, AR
Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress
Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
UNIVERSITY OF CALIFORNIA, DAVIS, DAVIS, CA
Mapping the Genetic Loci Controlling Highland Adaptation in Maize
UNIVERSITY OF ILLINOIS, URBANA, IL
Evaluating the Benefits of Soybean with High Protein and High Sulfur Amino Acid Content on Gain and Feed Efficiency of Poultry
UNIVERSITY OF MISSOURI SYSTEM, COLUMBIA, MO
Plant Genetics Resources Unit Federal Building Utility Agreement
Institutional Biological Safety Committee (IBC) Agreement - University of Missouri
Leveraging Genomics to Enhance the U.S. Soybean Quality Reputation
Institutional Biological Safety Committee
Development of Gene-editing Technologies in Livestock to Address Agriculturally Relevant Problems
Discovery, Improvement, and Testing of Genetics that are Socially Acceptable for Genome Editing in Animal Agriculture
Characterize Rootworm Larvae For BT Tolerance and Artificial Diets for Improved Understanding of Rootworm Biology and Management
Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
Development of Gene-Editing Technologies in Poultry and Other Livestock
Refinement of Trypsin Inhibitor Measurement Procedure to Improve the Assay Consistency Leading to Industry Adoption
TET3-CXXC Domain is Essential for Orchestrating
Epigenetic Status during Early Embryogenesis in Pigs - NFCA
Validate Causative Mutations in Agriculturally-Important Vertebrates
Evaluating the Benefits of Soybean with High Protein and High Sulfur Amino Acid Content on Gain and Feed Efficiency of Poultry
Utilize the University of Missouri Institutional Animal Care and Use Committee
Missouri Maize Center - Joint Administration of the Genetics Farm
HOLL Plus Soybean Variety Development
Establishing Baselines for Soybean Compositions for Plant-based Protein
Genomics for Improved Soybean Seed Composition
Increasing Genetic Diversity, Yield, and Protein of US Commercial Soybean Germplasm