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Human Nutrition
(NP #107)
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|
Developing Accurate and Efficient Laboratory Methods for Testing End-use Qualities of Pulse Crops, Identify Factors Associated with End-use Quality, and Develop Processes to Add Value to Pulses
(In-House Appropriated)
|
|
Pulse Crop Health Initiative
(In-House Appropriated)
|
|
An Innovative Supercritical Carbon Dioxide-based Drying Approach to Enhancing Functionality and Sensory Properties of Pea and Lentil Proteins
(Non-Assistance Cooperative Agreement)
|
|
Harnessing Fermentation Technology to Overcome Functionality, Nutritional, and Sensory Challenges in Pulse Protein Ingredients for Food Applications
(Non-Assistance Cooperative Agreement)
|
|
Improving Texture and Nutritive Value of Pulse-based Protein-rich Ingredients with Fiber Adducts Formed with High Pressure Homogenization and Heat
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Effect of a Pulse-based USDA-diet on Gut Microbial Metabolites and Biomarkers of Healthspan: A Crossover Feeding Study in Older Adults
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Enzymatic Modification of Pulse Proteins to Improve Technical and Health Functionalities for Diversified Food Applications
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Improving Environmental and Economic Sustainability Outcomes Through Incorporation of Pulses into Irrigated and Dryland Crop Rotations
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Leveraging plant-microbe Interactions to Optimize Symbiotic Nitrogen Fixation of Dry Bean
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Minimizing Water and Nutrient Footprint for Sustainable Pulses-wheat Cropping Systems and Enhanced Soil Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Pea Protein Consumption to Promote Gut Health in Humans
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Targeted Messaging Highlighting Human Health and Sustainability Benefits to Promote Pulse Consumption
(Non-Assistance Cooperative Agreement)
|
|
PCHI – Improving Functional & Nutritional Properties of Pulse Flours by Heat-moisture Treatment & Developing Pasta with Improved Health Benefits
(Non-Assistance Cooperative Agreement)
|
|
PCHI – Isolating and Characterizing Protein Fractions from Black Beans and Lentils for use as Novel Oil Structuring Agents
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Assessing the Impacts of Dryland Wheat-pea Rotations and Compost Application on Soil Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Assessment of Soil Health and Nitrogen Economy in Lentil and Pea Cropping Systems
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Chickpea Genetic Improvement for Drought and Heat Stress Resilient Grain Yield
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Comparative Analysis of the Impact of Type of Pulse Consumed in Human Subjects and Pre-Clinical Models
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Controlling Pulse Fermentation to Improve Gut Microbiome Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Customizing Interventions to Promote Pulse Consumption among Heterogeneous Consumer Segments
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Develop Efficient, Genotype-independent, Gene-editing Systems for Common Bean and Chickpea
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Developing and Evaluating Chickpea Ingredients as Natural Wheat Dough Improvers for Enhanced Baking Quality and Functional Properties
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Developing Chickpea Cultivars with Radically Improved Nitrogen Fixation Rates
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Daily Consumption of Polyphenol-rich Pulses on Skin Health in Women
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Pulse Consumption on Child Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Pulse Consumption on Maternal and Child Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Dietary Perception/Acceptance of Pulses in Children through a Nutritional Intervention Program: Bringing Pulses to the Dining Table
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Pea Protein Functionality through Glycation Following a Novel and Efficient Upcycling Approach
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Winter Pea Production in the Annually Cropped, Rainfed Region of the Inland Pacific Northwest
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Exploring Impact of Pulse Diet on Cardiometabolic Health Outcomes in Overweight/Obesity Older Adults: Role of Inflammation and Gut Microbiome
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Field Experiments to Incorporate Pulse Crops in Cropping Systems and Assess Soil Health and Plant Water Use Efficiency - Phase 2
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Human Pulse Consumption, the Microbiome, and Meal Satiety
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of a Feasible Protein Co-extranction From Three Pulse Crops on Protein and Co-products Properties
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of Storage on Functionality and Shelf Life of Chickpea Flour
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of Structural Modification Techniques on Pea (Pisum sativum L.) Protein’s Ability to Modulate Human Gut Microbiota
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impacts of Pulse Consumption on Human Health, Diet Cost, and Environmental Sustainability
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Improving Extraction Yield, Purity, and Functionality of Proteins from Pulse Grains using Enzyme-Assisted Green Extraction
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Improving Protein Digestibility in Pulses with Higher-throughput Assays and Sequence-based Prediction
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Maternal Supplementation of Pea Fiber to Protect Against Obesity and Hypertension in Offspring
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Next-Gen Nitrogen Fixation: Tailoring Rhizobial Inoculants to Winter and Spring Field Pea Systems
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Processing Effects on the Composition of Pulses (Beans/Peas/Chickpea/Lentils) and Resulting Benefits in the Prevention of Type-2 Diabetes
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Protective Mechanisms of Pulse Consumption in the Development of Non-alcoholic Fatty Liver Disease in Mothers and Offspring Across Life Stages
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Pulse-fruit Aggregate Ingredients with Enhanced Taste, Functionality and Health Attributes for Diversified Food Applications
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Quantifying, Predicting, and Parallelizing the Examination of Post-digestive Properties of Common Beans
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Rapid and in situ Screening for Key Quality Traits in Pulse Crops
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Re-structuring Pulse Proteins into Valuable Fibrils via Biocatalysis
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Reinventing Nitrogen Fixation in Cultivated Chickpea with Wild-derived Traits
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Screening of Field Pea Accessions for Combined and Superior Drought-tolerance and Enhanced Nitrogen Fixation in Semi Arid Climates
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Tempeh Fermentation of Dry Chickpeas and Dry Peas for Enhanced Protection against Western Diet-Induced Health Risks
(Non-Assistance Cooperative Agreement)
|
|
PCHI: The Effect of Regular Lentil and Chickpea Intake on Gut Microbiome and Metabolic Health in Healthy Young Adults: Randomized Clinical Trial
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Understanding Environmental Controls on Pea Protein
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Understanding Environmental Controls on Pea Protein
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Using Pulse Resistant Starch to Ameliorate Aging-Associated Dysbiosis of the Gut-Microbiome-Brain Axis
(Non-Assistance Cooperative Agreement)
|
|
Pulse Quality Characteristics for Product Development That Consider Adverse Effects on Human Health
(Non-Assistance Cooperative Agreement)
|
|
Replacing Fallow & Cover Crops with Field Pea and Chickpea in the Semi-arid Northern High Plains: Impacts on Production and Sustainability-Un of NE
(Non-Assistance Cooperative Agreement)
|
|
Plant Genetic Resources, Genomics and Genetic Improvement
(NP #301)
|
|
Developing Accurate and Efficient Laboratory Methods for Testing End-use Qualities of Pulse Crops, Identify Factors Associated with End-use Quality, and Develop Processes to Add Value to Pulses
(In-House Appropriated)
|
|
Pulse Crop Health Initiative
(In-House Appropriated)
|
|
Research on Quality Factors for Enhancing Post-Harvest Processing, Utilization, and Nutritional Value in Hard Spring Wheat, Durum, and Oats
(In-House Appropriated)
|
|
An Innovative Supercritical Carbon Dioxide-based Drying Approach to Enhancing Functionality and Sensory Properties of Pea and Lentil Proteins
(Non-Assistance Cooperative Agreement)
|
|
Harnessing Fermentation Technology to Overcome Functionality, Nutritional, and Sensory Challenges in Pulse Protein Ingredients for Food Applications
(Non-Assistance Cooperative Agreement)
|
|
Improving Texture and Nutritive Value of Pulse-based Protein-rich Ingredients with Fiber Adducts Formed with High Pressure Homogenization and Heat
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Effect of a Pulse-based USDA-diet on Gut Microbial Metabolites and Biomarkers of Healthspan: A Crossover Feeding Study in Older Adults
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Enzymatic Modification of Pulse Proteins to Improve Technical and Health Functionalities for Diversified Food Applications
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Improving Environmental and Economic Sustainability Outcomes Through Incorporation of Pulses into Irrigated and Dryland Crop Rotations
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Leveraging plant-microbe Interactions to Optimize Symbiotic Nitrogen Fixation of Dry Bean
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Minimizing Water and Nutrient Footprint for Sustainable Pulses-wheat Cropping Systems and Enhanced Soil Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Pea Protein Consumption to Promote Gut Health in Humans
(Non-Assistance Cooperative Agreement)
|
|
PCHI - Targeted Messaging Highlighting Human Health and Sustainability Benefits to Promote Pulse Consumption
(Non-Assistance Cooperative Agreement)
|
|
PCHI – Improving Functional & Nutritional Properties of Pulse Flours by Heat-moisture Treatment & Developing Pasta with Improved Health Benefits
(Non-Assistance Cooperative Agreement)
|
|
PCHI – Isolating and Characterizing Protein Fractions from Black Beans and Lentils for use as Novel Oil Structuring Agents
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Assessing the Impacts of Dryland Wheat-pea Rotations and Compost Application on Soil Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Assessment of Soil Health and Nitrogen Economy in Lentil and Pea Cropping Systems
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Chickpea Genetic Improvement for Drought and Heat Stress Resilient Grain Yield
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Comparative Analysis of the Impact of Type of Pulse Consumed in Human Subjects and Pre-Clinical Models
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Controlling Pulse Fermentation to Improve Gut Microbiome Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Customizing Interventions to Promote Pulse Consumption among Heterogeneous Consumer Segments
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Develop Efficient, Genotype-independent, Gene-editing Systems for Common Bean and Chickpea
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Developing and Evaluating Chickpea Ingredients as Natural Wheat Dough Improvers for Enhanced Baking Quality and Functional Properties
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Developing Chickpea Cultivars with Radically Improved Nitrogen Fixation Rates
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Daily Consumption of Polyphenol-rich Pulses on Skin Health in Women
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Pulse Consumption on Child Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Effects of Pulse Consumption on Maternal and Child Health
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Dietary Perception/Acceptance of Pulses in Children through a Nutritional Intervention Program: Bringing Pulses to the Dining Table
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Pea Protein Functionality through Glycation Following a Novel and Efficient Upcycling Approach
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Enhancing Winter Pea Production in the Annually Cropped, Rainfed Region of the Inland Pacific Northwest
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Exploring Impact of Pulse Diet on Cardiometabolic Health Outcomes in Overweight/Obesity Older Adults: Role of Inflammation and Gut Microbiome
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Field Experiments to Incorporate Pulse Crops in Cropping Systems and Assess Soil Health and Plant Water Use Efficiency - Phase 2
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Human Pulse Consumption, the Microbiome, and Meal Satiety
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of a Feasible Protein Co-extranction From Three Pulse Crops on Protein and Co-products Properties
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of Storage on Functionality and Shelf Life of Chickpea Flour
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impact of Structural Modification Techniques on Pea (Pisum sativum L.) Protein’s Ability to Modulate Human Gut Microbiota
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Impacts of Pulse Consumption on Human Health, Diet Cost, and Environmental Sustainability
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Improving Extraction Yield, Purity, and Functionality of Proteins from Pulse Grains using Enzyme-Assisted Green Extraction
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Improving Protein Digestibility in Pulses with Higher-throughput Assays and Sequence-based Prediction
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Maternal Supplementation of Pea Fiber to Protect Against Obesity and Hypertension in Offspring
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Next-Gen Nitrogen Fixation: Tailoring Rhizobial Inoculants to Winter and Spring Field Pea Systems
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Processing Effects on the Composition of Pulses (Beans/Peas/Chickpea/Lentils) and Resulting Benefits in the Prevention of Type-2 Diabetes
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Protective Mechanisms of Pulse Consumption in the Development of Non-alcoholic Fatty Liver Disease in Mothers and Offspring Across Life Stages
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Pulse-fruit Aggregate Ingredients with Enhanced Taste, Functionality and Health Attributes for Diversified Food Applications
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Quantifying, Predicting, and Parallelizing the Examination of Post-digestive Properties of Common Beans
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Rapid and in situ Screening for Key Quality Traits in Pulse Crops
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Re-structuring Pulse Proteins into Valuable Fibrils via Biocatalysis
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Reinventing Nitrogen Fixation in Cultivated Chickpea with Wild-derived Traits
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Screening of Field Pea Accessions for Combined and Superior Drought-tolerance and Enhanced Nitrogen Fixation in Semi Arid Climates
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Tempeh Fermentation of Dry Chickpeas and Dry Peas for Enhanced Protection against Western Diet-Induced Health Risks
(Non-Assistance Cooperative Agreement)
|
|
PCHI: The Effect of Regular Lentil and Chickpea Intake on Gut Microbiome and Metabolic Health in Healthy Young Adults: Randomized Clinical Trial
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Understanding Environmental Controls on Pea Protein
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Understanding Environmental Controls on Pea Protein
(Non-Assistance Cooperative Agreement)
|
|
PCHI: Using Pulse Resistant Starch to Ameliorate Aging-Associated Dysbiosis of the Gut-Microbiome-Brain Axis
(Non-Assistance Cooperative Agreement)
|
|
Pulse Quality Characteristics for Product Development That Consider Adverse Effects on Human Health
(Non-Assistance Cooperative Agreement)
|
|
Replacing Fallow & Cover Crops with Field Pea and Chickpea in the Semi-arid Northern High Plains: Impacts on Production and Sustainability-Un of NE
(Non-Assistance Cooperative Agreement)
|
|
Product Quality and New Uses
(NP #306)
|
|
Developing Accurate and Efficient Laboratory Methods for Testing End-use Qualities of Pulse Crops, Identify Factors Associated with End-use Quality, and Develop Processes to Add Value to Pulses
(In-House Appropriated)
|
|
Improving Potato Postharvest Quality by Identifying and Manipulating Molecular Processes Regulating Tuber Dormancy and Wound-Healing
(In-House Appropriated)
|
|
Research on Quality Factors for Enhancing Post-Harvest Processing, Utilization, and Nutritional Value in Hard Spring Wheat, Durum, and Oats
(In-House Appropriated)
|
|
Mitigating Potato Seed Decay and Associated Economic Losses Using Enhanced Suberization Strategy
(Reimbursable Cooperative Agreement)
|
|
Optimizing Nitric Oxide Based Treatment Strategy to Improve Suberization of Wounded and Cut Seed Tubers
(Reimbursable Cooperative Agreement)
|
|
Genomics, Phenomics, Bioinformatics for Understanding Postharvest Physiology of Potato
(Non-Assistance Cooperative Agreement)
|
|
Identifying the Molecular Mechanisms Controlling Wound-Healing Processes to Improve Postharvest Quality of Potato
(Non-Assistance Cooperative Agreement)
|
|
Impact of Agronomic and Post-harvest Management Practices on Potato Quality
(Non-Assistance Cooperative Agreement)
|
|
Impact of Crop Growth Environment and Postharvest Storage Conditions on Physiological Age of Seed Tubers and Their Yield Performance
(Non-Assistance Cooperative Agreement)
|
|
Inhibiting Tuber Sprouting with Thermal Fog Application of Emulsions Containing Zinc Nanoparticles
(Non-Assistance Cooperative Agreement)
|
|
Integrating Advanced Monitoring Techniques to Mitigate Environmental Factors in Storage Systems to Reduce Postharvest Losses
(Non-Assistance Cooperative Agreement)
|
|
Integrating Metabolome and Phytohormone Analyses to Investigate Postharvest Physiology of Potato
(Non-Assistance Cooperative Agreement)
|
|
Integration of Advanced Technologies for Documenting the Impact of Climate-Induced Stress on Whole Potato Plant Growth and Development
(Non-Assistance Cooperative Agreement)
|
|
Monitoring Potato Plant, Root and Tuber Growth via Non-Destructive Means to Identify Key Factors Impacting Climate Adaptability of Cultivars
(Non-Assistance Cooperative Agreement)
|
|
Pulse Quality Characteristics for Product Development That Consider Adverse Effects on Human Health
(Non-Assistance Cooperative Agreement)
|
|
Towards Understanding the Effects of Structural and Metabolic Resistance on Black Dot Tuber Blemish
(Non-Assistance Cooperative Agreement)
|
|
Understanding Postharvest Physiology of Potato by Genomics, Phenomics, Bioinformatics
(Non-Assistance Cooperative Agreement)
|
|
Understanding Pressure Bruise Susceptibility of Russet Potato Cultivars Using X-ray Ct and Cell Wall Analyses
(Non-Assistance Cooperative Agreement)
|
|
Using Image Analysis to Quantify Potato Storage Defects
(Non-Assistance Cooperative Agreement)
|
|
Using Image Analysis to Quantify Potato Storage Defects
(Non-Assistance Cooperative Agreement)
|
|
Utilizing Inbred Potato Clones to Determine Key Molecular Mechanisms Regulating Tuber Dormancy
(Non-Assistance Cooperative Agreement)
|
