| YIELD |
| North Carolina State | Membership in the Center for Integrated Pest Management |
| University of Georgia | Soybean Tissue Culture and Genetic Engineering Center |
| USDA/ARS | Single Nucleotide Polymorphism Discovery and Mapping |
| USDA/ARS | Drought Stress Tolerance for the Midwest and South |
| Iowa State | Application of Biotechnology to Control of the Soybean Cyst Nematode: SCN Parasitism Genes |
| Clemson | Development of Long-juvenile Cultivars to Enhance Profitability |
| USDA/ARS | Identification and Utilization of Exotic Germplasm to Improve Productivity |
| University of Illinois | Identification and Utilization of Resistance to Soybean Rust |
| Iowa Soybean Association | Toward Cloning Rps3 and Rps8, Effective Resistance Genes for Phytophthora sojae for the New Millenium |
| University of Illinois | Inheritance of Resistance, Map Location, and Genetic Relationships of Multiple Sources of Resistance to the Soybean Aphid |
| University of Georgia | Confirmation, Fine Mapping and Commercialization of Yield Enhancing Alleles from a Japanese Germplasm |
| University of Nebraska | Functional Analysis of Soybean Genes Through Transposon Mutagenesis |
| University of Illinois | Application of Biotechnology to Control of the Soybean Cyst Nematode - Genomic analysis of soybean cyst nematode virulence |
| Southern Illinois University | Application of Biotechnology to Control of the Soybean Cyst Nematode - Soybean Resistant Genes |
| USDA/ARS | Application of Biotechnology to Control of the Soybean Cyst Nematode - Soybean and SCN candidate gene identification and testing |
| USDA/ARS | Developing soybean resistance to soybean rust using biotechnology |
| University of Missouri | Confirmation of Quantitative Trait Loci and Gene-Based Molecular Marker Development for Broad Spectrum Resistance to SCN |
| Tx Ag Exp | Screening Soybean Accessions for Tolerance to Stink Bugs in Southern USA |
| North Dakota State University | Reducing the Impact of Fusarium Root Rot on Soybean Productivity in the U.S. |
| University of Illinois | Coordination of Regional SCN Tests |
| University of Missouri | Screening Soybean Germplasm (MG III and IV) for Drought Avoidance Traits: Root Characteristics and Transpiration |
| COMPOSITION |
| Integrative Nutrition | Meal Trait Discovery and Evaluation of the Role of Environment |
| USDA/ARS | Development of High Protein Soybean Meal with Low Phytate, Enhanced Functionality, and Feeding Efficiency |
| University of Nebraska | Quality Traits Regional Test |
| USDA/ARS | Development of Mid-Oleic, Low-Linolenic, Low-Saturated Substitutes for Partially Hydrogenated Soybean Oil |
| Iowa State | Development of MG I-IV Varieties for the Better Bean Initiative |
| University of Ilinois | Development of Cultivars with Increased Protein Content or Altered Fatty Acid Content |
| American Oil Chemists Society | AOCS-USB Soybean Quality Traits Analytical Standards Program |
| University of Kentucky | Novel Approaches for Development of Soybeans with Improved Oil, Higher Oil Contents and Enhanced Fungal Resistance |
| Virginia Tech | Use of Genomics to Improve Soybean Meal Digestibility |
| Edible Oil | Functionality Testing |
| Virginia Tech | Development of Low Phytate Soybeans Using Genomic Tools |
| USDA/ARS | Winter Nursery Support in Puerto Rico |
| USDA/Grain Inspection Packers and Stockyards Administration | U.S. Soybean Composition Chemical Analysis |
| Iowa State University | Seed Production of Soybean Varieties with Mid-Oleic and 1% Linolenic Acids |
| Iowa State University | Oil Production of Soybean Varieties with Mid-Oleic and 1% Linolenic Acids for Industry Testing (Midwest) |
| USDA/ARS | Whole Genome Analysis of the Soybean Core Germplasm Collection and Applications for New Gene Discovery |
