MOLECULAR GENETICS, GENOMICS, AND PHYLOGENETICS OF FOODBORNE ZOONOTIC PARASITES AFFECTING FOOD SAFETY AND PUBLIC HEALTH

• Sponsoring Institution: Agricultural Research Service/USDA
• Project Status: TERMINATED
• Funding Source: USDA INHOUSE
• Reporting Frequency: Annual
• Accession No.: 0430222
• Project No.: 8042-42000-019-00D
• Project Start Date: Jan 19, 2016
• Project End Date: May 15, 2016

Project Director
ROSENTHAL B M

Recipient Organization
AGRICULTURAL RESEARCH SERVICE
RM 331, BLDG 003, BARC-W
BELTSVILLE,MD 20705-2351

Performing Department
(N/A)

Non Technical Summary
(N/A)

Animal Health Component

(N/A)

Research Effort Categories

Basic

60%

Applied

40%

Developmental

0%

Classification

Knowledge Area (KA)	Subject of Investigation (SOI)	Field of Science (FOS)	Percent
313	2210	1110	10%
611	3310	1110	15%
313	3410	1110	15%
611	3510	1110	30%
313	3729	1110	10%
611	3799	1110	10%
313	3810	1110	10%

Knowledge Area
313 - Internal Parasites in Animals; 611 - Foreign Policy and Programs;

Subject Of Investigation
3510 - Swine, live animal; 3310 - Beef cattle, live animal; 3810 - Horses, ponies, and mules; 3729 - Other cultured shellfish; 2210 - Chemurgic crops; 3410 - Dairy cattle, live animal; 3799 - Cultured aquatic animals, general/other;

Field Of Science
1110 - Parasitology;

Keywords

trichinella

spiralis

genomics

toxoplasma

gondii

genomes

trichinella

murrelli

zoonotic

swine

parasites

Goals / Objectives
1) Determine what genetic and genomic features distinguish Trichinella spiralis from Trichinella murrelli. 2) Utilize genomics to determine if microsatellite loci can be used to trace zoonotic outbreaks of Trichinella spiralis. 3) Determine the genetic features that account for the epidemic spread of certain strains of Toxoplasma gondii.

Project Methods
Investigations will be conducted to clarify how infections in wildlife influence the safety of pastured pork. Accordingly, first identify heritable differences between two related species of Trichinella, only one of which (T. spiralis) severely compromises pork safety by evading swine immunity. The other, Trichinella murrelli, predominates in North American wildlife but fails to thrive in swine. By comparing the genomes of these two parasites, the intent is to establish a basis for exploring what makes pigs so especially vulnerable to T. spiralis. Secondly, develop the means to trace chains of transmission of Trichinella spp. Using markers which have already established the long-term dispersal history of T. spiralis (to the Americas in the pigs and rats brought by European colonists), researchers will attempt to discriminate instances of persistent on-farm transmission from sporadic introductions of T. spiralis to swine herds. Finally, the genetics of T. gondii reproduction will be characterized. Both sexual and asexual reproduction can occur in T. gondii, and available data provide conflicting evidence as to the relative importance of each reproductive mode. These incongruous data leave in doubt whether this parasite evolves as an assemblage of distinct lineages, or whether it more closely resembles a coherent, interbreeding species. Additional data are needed to better resolve how T. gondii propagates and evolves. These results will help determine whether particular strains pose elevated food safety risk will help anticipate this parasite's evolutionary response to preventative interventions.

Progress 01/19/16 to 05/15/16

Outputs
Progress Report Objectives (from AD-416): 1) Determine what genetic and genomic features distinguish Trichinella spiralis from Trichinella murrelli. 2) Utilize genomics to determine if microsatellite loci can be used to trace zoonotic outbreaks of Trichinella spiralis. 3) Determine the genetic features that account for the epidemic spread of certain strains of Toxoplasma gondii. Approach (from AD-416): Investigations will be conducted to clarify how infections in wildlife influence the safety of pastured pork. Accordingly, first identify heritable differences between two related species of Trichinella, only one of which (T. spiralis) severely compromises pork safety by evading swine immunity. The other, Trichinella murrelli, predominates in North American wildlife but fails to thrive in swine. By comparing the genomes of these two parasites, the intent is to establish a basis for exploring what makes pigs so especially vulnerable to T. spiralis. Secondly, develop the means to trace chains of transmission of Trichinella spp. Using markers which have already established the long- term dispersal history of T. spiralis (to the Americas in the pigs and rats brought by European colonists), researchers will attempt to discriminate instances of persistent on-farm transmission from sporadic introductions of T. spiralis to swine herds. Finally, the genetics of T. gondii reproduction will be characterized. Both sexual and asexual reproduction can occur in T. gondii, and available data provide conflicting evidence as to the relative importance of each reproductive mode. These incongruous data leave in doubt whether this parasite evolves as an assemblage of distinct lineages, or whether it more closely resembles a coherent, interbreeding species. Additional data are needed to better resolve how T. gondii propagates and evolves. These results will help determine whether particular strains pose elevated food safety risk will help anticipate this parasite's evolutionary response to preventative interventions. This is a continuing bridge project from 8042-42000-016-00D entitled: �Molecular Genetics, Genomics, and Phylogenetics of Foodborne Zoonotic Parasites Affecting Food Safety and Public Health.

Impacts
(N/A)

Publications