Skip to main content
ARS Home » Midwest Area » Columbia, Missouri » Plant Genetics Research » Research » Collaborations

Collaborations

The Plant Genetics Research has a long and productive history of collaborative research involving stakeholders.


Current collaborators and projects:

DIVISION OF AGRICULTURE OF THE UNIVERSITY OF, FAYETTEVILLE, AR
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
  • DONALD DANFORTH PLANT SCIENCE CENTER, SAINT LOUIS, MO
  • Development of Integrative and Big-Data Driven Technologies for Soybean Product Development
  • Measurement of Acyl-ACPs and Lipid Precursors in Soybeans Over Development
  • Characterization of Lipid Turnover in Soybeans Over Development
  • Molecular Characterization of Soybean for Seed Quality Improvement
  • Inter-Institutional Collaboration with the Donald Danforth Plant Science Center
  • Institutional Biological Safety Committee (IBC) Agreement - Donald Danforth Plant Science Center
  • Beyond Static Metabolic Maps - Understanding the Cellular Organization and Dynamics of Lipid Flux For Enhanced Seed Oil Production
  • Generation and Characterization of Soybean Containing Edited Genes for Seed Quality Improvement
  • 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
  • NATIONAL INSTITUTE OF FOOD AND AGRICULTURE, U, KANSAS CITY
  • Environmentally Aware Deep Learning Based Genomic Selection And Management Optimization For Maize Yield
  • The Landrace Heirlooms of Maize of the United States (Columbia, MO)
  • OHIO STATE UNIVERSITY, THE, COLUMBUS, OH
  • Genetic Regulation of Ovarian Follicular Progression in Japanese Quail
  • TEXAS A&M AGRILIFE RESEARCH, COLLEGE STATION, TX
  • Establishment and Characterization of Liver Organoids from Layer Chickens
  • 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
  • Development of Soybean Lines Without Both Trypsin and Chymotrypsin Inhibitors
  • Development of Integrative Big-Data Driven Technologies for Soybean Product Development
  • Development of Integrative and Big-Data Driven Technologies for Soybean Product Development
  • Refinement of Trypsin Inhibitor Measurement Procedure to Improve the Assay Consistency Leading to Industry Adoption
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II (Columbia, MO)
  • Negative Effects of Protease Inhibitors On Monogastric Animal Growth Performance: Truth or Myth?
  • 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
  • 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
  • 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
  • Characterize Rootworm Larvae For BT Tolerance and Artificial Diets for Improved Understanding of Rootworm Biology and Management
  • Development of Gene-Editing Technologies in Poultry and Other Livestock
  • Development of Strategies for Coordinated Expression of Pathway Genes
  • Heirlooms of the United States, Midwest Evaluation
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
  • Genomics for Improved Soybean Seed Composition
  • Reducing Maize Grain Nitrogen In Support of CERCA, The Circular Economy That Re-imagines Corn Agriculture
  • HOLL Plus Soybean Variety Development
  • Establishing Baselines for Soybean Compositions for Plant-based Protein
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress – Phase II
  • Utilize the University of Missouri Institutional Animal Care and Use Committee
  • Negative Effects of Protease Inhibitors on Monogastric Animal Growth Performance: Truth or Myth?
  • Missouri Maize Center - Joint Administration of the Genetics Farm
  • 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
  • TET3-CXXC Domain is Essential for Orchestrating Epigenetic Status during Early Embryogenesis in Pigs - NFCA