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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:

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, ST. LOUIS, MO
  • Biosafety Control
  • Inter-Institutional Collaboration with the Donald Danforth Plant Science Center
  • Engineering C4 Photosynthesis in Maize to Enhance Nitrogen Utilization
  • Discovering New Metabolic Constraints and Regulatory Nodes in Oilseeds Engineered for Enhanced Fatty Acid Synthesis and Seed Oil
  • Enhancing Stable Protein Levels in Developing Soybean Seeds
  • Measurement of Acyl-ACPs and Lipid Precursors in Soybeans Over Development
  • Discovery of Trait Genes, Alleles, Germplasm and Functional Markers for Soybean Seed Quality Improvement
  • Enhancing Protein Quality While Maintaining Protein Amount with Insights Generated from Soybean Mutants - (Donald Danforth Plant Science Center)
  • KANSAS STATE UNIVERSITY, MANHATTAN, KS
  • Enhancing Stable Protein Levels in Developing Soybean Seeds
  • Enhancing Protein Quality While Maintaining Protein Amount with Insights Generated from Soybean Mutants - (Kansas State University)
  • PURDUE UNIVERSITY, WEST LAFAYETTE, IN
  • Modifying Soluble Carbohydrates in Soybean Seed for Enhanced Nutritional Energy Meal
  • REGENTS OF THE UNIVERSITY OF MINNESOTA, MINNEAPOLIS, MN
  • High Oleic/Low Linolenic Acid Soybean Deployment - Minnesota
  • UNITED SOYBEAN BOARD, CHESTERFIELD, MO
  • Improving on Perfection; Gene Editing to Reduce or Eliminate Anti-Nutritional Factors in Soybean Seeds That Have Been Shown to Reduce Economic Value
  • High Oleic/Low Linolenic Acid Soybean Deployment
  • Enhancing Protein Quality While Maintaining Protein Amount with Insights Generated from Soybean Mutants
  • Discovery of Trait Genes, Alleles, Germplasm and Functional Markers for Soybean Seed Quality Using a Big-Data Driven Technology Platform
  • Enhancing Stable Protein Levels in Developing Soybean Seeds
  • UNIVERSITY OF ARKANSAS SYSTEM, Fayetteville, AR
  • Utilizing Genes from the Soybean Germplasm Collection to Mitigate Drought Stress
  • High Oleic/Low Linolenic Acid Soybean Deployment - Arkansas
  • UNIVERSITY OF CALIFORNIA DAVIS, DAVIS, CA
  • RESEARCH-PGR: The Genetics of Highland Adaptation in Maize
  • UNIVERSITY OF GEORGIA, Athens, GA
  • High Oleic/Low Linolenic Acid Soybean Deployment - Georgia
  • UNIVERSITY OF ILLINOIS, URBANA, IL
  • High Oleic/Low Linolenic Acid Soybean Deployment - Illinois
  • UNIVERSITY OF MISSOURI SYSTEM, Columbia, MO
  • Improving on Perfection; Gene Editing to Reduce or Eliminate Anti-Nutritional Factors in Soybean Seeds that have been Shown to Reduce Economic Value
  • Institutional Biological Safety Committee
  • HOLL plus
  • Development of Gene-editing Technologies in Livestock to Address Agriculturally Relevant Problems
  • Optimization of Artificial Diet for Rearing and Toxicity Assays with Western Corn Rootworm
  • Evaluating Potential Cross-Resistance between Bacterial Proteins for Western Corn Rootworm and Baseline Toxicity Assays for Northern Corn Rootworm
  • Increasing Genetic Diversity, Yield, and Protein of US Commercial Soybean Germplasm
  • High Oleic/Low Linolenic Acid Soybean Deployment - Missouri
  • Gene-editing Technologies in Livestock
  • Modifying Soluble Carbohydrates in Soybean Seed for Enhanced Nutritional Energy Meal
  • UNIVERSITY OF TENNESSEE, KNOXVILLE, TN
  • High Oleic/Low Linolenic Acid Soybean Deployment - Tennessee