Collaborations

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

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Current collaborators and projects:

BIOMEDICAL RESEARCH AND TRAINING INSTITUTE

Ticks and Tick-Borne Pathogens Affecting Livestock in Zimbabwe

KANSAS STATE UNIVERSITY, MANHATTAN, KS

Understanding the Impact of Bovine Anaplasmosis in Beef Cattle for Livestock Resiliency

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

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

Characterizing the Major Histocompatibility Complexes of U.S. Based Domestic Goats

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 AUTA NOMA DE QUERATARO

Understanding Genetic Variation of Parasites that cause Bovine Babesiosis to Develop Efficient Control Strategies

UNIVERSITY OF MARYLAND, BALTIMORE, BALTIMORE, MD

Babesia Caballi Genome Sequences and Annotation

UNIVERSITY OF WYOMING, LARAMIE, WY

MCF Vaccine Trials in Bison

USDA, APHIS, VS, CEAH, FORT COLLINS, CO

Characterizing the Major Histocompatibility Complexes of U.S. Based Domestic Goats

VIRGINIA POLYTECHNIC INSTITUTE & STATE UNIVER, BLACKSBURG, VA

Development of Control Strategies for Theileria orientalis

VST LLC, SIOUX FALLS, SD

Assessing Efficacy of Tick Vaccine

WASHINGTON STATE UNIVERSITY, PULLMAN, WA

Identification Of Babesia Gametocyte Chemoattractive Molecule

Collaborative Animal Research between Washington State University and ARS-ADRU

Defining Protection Correlates, Vaccines, and Diagnostic Tools for Babesiosis, Theleriosis, Anaplasmosis, Prion and Other Chronic Diseases

Data Driven Nanovaccine Design

Characterization of Antibodies for Improvement of Vaccine Development and Diagnostic Assays

Methods to control bovine anaplasmosis and resilient livestock

Quantitatively Assessing Key Risk Factors that Drive Potential Tick and Babesia Outbreaks in the United States

Diagnostic Testing for Resilient Livestock

Harnessing Extracellular Soluble Factors as Immuno-adjuvant for Controlling Diseases in Cattle

Enhancing Diagnostic Solutions for Persistent Animal Infectious Diseases Using Novel antigens and Diagnostic Platforms

Control strategies for Infectious Diseases of Livestock.

Development of Medium to Support Cell-free Growth of Anaplasma Marginale

Functional Genomics for Livestock Resiliency

Enhancing Detection of CWD in Tissue Samples from Cervids

Cost Benefit Analysis of Cattle Fever Tick and Bovine Babesiosis Control

Developing Immunological Reagents for Tick-borne Disease Research