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Collaborations

The Animal Disease Research has a long and productive history of collaborative research involving stakeholders.

Current collaborators and projects:

CANADIAN FOOD INSPECTION AGENCY
  • Development of Strategies to Control Tick-borne Babesial Pathogens of Livestock
    • CTRE COOP INTER RECHERCHES AGRO DEVELOP, PARIS
  • Development of Strategies to Control Tick-Borne Bacterial Pathogens of Livestock
    • FUNDACAO ARTHUR BERNARDES
  • Prevalence of Antibodies to Malignant Catarrhal Fever Viruses in Cattle and Sheep in Brazil
    • GAME & FISH COMISSION, ARKANSAS, LITTLE ROCK
  • Identifying Genomic Regions Associated with Chronic Wasting Disease in Elk: A Foundation for Understanding an Endemic Disease
    • INTERNATIONAL DEVELOPMENT RESEARCH CENTRE, OTTAWA
  • Utilizing Bioinformatics and Genetic Transformation Approaches to Develop Novel Vaccines to Prevent Babesia bovis Acute Infection and Transmission
    • NATIONAL INSTITUTE OF FOOD AND AGRICULTURE, WASHINGTON DC, DC
  • Targeting Subdominant Rhoptry-associated Proteins of Babesia Bovis in a Subunit Vaccine to Protect Cattle Against Bovine Babesiosis
  • Identification of Babesia Gametocyte Chemoattractive Molecules
    • NORTHERN ARIZONA UNIVERSITY, FLAGSTAFF, AZ
  • Control Strategies for Cattle Fever Ticks and Bovine Babesiosis in the United States
    • PORTLAND VA RESEARCH FOUNDATION, INC, PORTLAND
  • Testing Drug Therapies to Control Babesia Infection and/or Severe Acute Babesiosis
    • REGENTS OF THE UNIVERSITY OF IDAHO, MOSCOW, ID
  • Advanced Host Genomics: Nasal Shedding of Mycoplasma Ovipneumoniae and Multiple Data Uses to Benefit Sheep Research
  • Collaborative Animal Research between Regents of the University of Idaho and the ARS - Animal Disease Research Unit
    • TEXAS A&M AGRILIFE RESEARCH, COLLEGE STATION, TX
  • Surveying Nilgai Antelope in South Texas for Evidence of Infection with Bovine Babesiosis
    • UNIVERSIDAD AUTONOMA DE QUERETARO
  • Understanding Genetic Variation of Parasites that cause Bovine Babesiosis to Develop Efficient Control Strategies
    • UNIVERSITY OF TECHNOLOGY SYDNEY
  • Novel Babesia Proteins and Their Roles in the Pathogenesis of Tick Fever
    • UNIVERSITY OF WYOMING, LARAMIE, WY
  • MCF Vaccine Trials in Bison
    • USDA, FOREST SERVICE ROCKY MOUNTAIN RESEARCH, FORT COLLINS, CO
  • Grand Mesa, Uncompahgre and Gunnison National Forests Plan Revision - U.S. Agricultural Research Service Cooperating Agency Agreement
    • VIRGINIA POLYTECHNIC INSTITUTE AND STATE UNIV, BLACKSBURG, VA
  • Development of Control Strategies for Theileria orientalis
    • WASHINGTON STATE UNIVERSITY, PULLMAN, WA
  • Develop Predictive Models of Potential Babesia Disease Spread in the U.S. to Assist in Mitigating Potential Future Outbreaks
  • Development of Novel Preventive, Diagnostic, and Treatment Strategies for Theileriosis in Horses and Cattle
  • Identification Of Babesia Gametocyte Chemoattractive Molecule
  • Animal Protection and Care for Cattle, Horses, Goats, and Sheep
  • Collaborative Animal Research between Washington State University and ARS-ADRU
  • A Novel Platform for Bovine Anaplasmosis Vaccine Development
  • Control strategies for Infectious Diseases of Livestock.