Ethiopathogenesis of Hereditary and Parasitic Diseases
A.Y. 2018/2019
Learning objectives
The educational objective of the course is to introduce the students to the comprehension of the analytical genomic tools and to the mechanisms and machineries of inherited and parasitic diseases. Some host-parasite molecular mechanisms of interaction will also been considered. The course will also illustrate the spontaneous and experimental animal models for the understanding of the genetic and pathogenetic basis of parasitic diseases
Expected learning outcomes
Undefined
Lesson period: Second semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
Second semester
ATTENDING STUDENTS
NON-ATTENDING STUDENTS
Unit: Genomic analysis of inherited diseases
Course syllabus
LECTURES:
- Genetic and physical maps of domestic animals.
- Genome Wide Sequencing High-throughput systems, DNA and RNA sequencing
- Whole genome amplification, SNP array and Genome Wide Association Studies for genome mapping of inherited diseases
- Genomic variability and host-parasite interaction: Leishmaniosis and Varroatosis
PRACTICALS:
- On-line practice on Genomic databases.
- Journal clubs on genome sequencing project in domestic animals, genome mapping (Homozigosity mapping, case / control studies, trios) and gene identification in inherited
diseases and in parasitic diseases, the latter limited to those addressed in the lectures.
- Visits to research and service centers equipped with high-throughput platforms.
- Genetic and physical maps of domestic animals.
- Genome Wide Sequencing High-throughput systems, DNA and RNA sequencing
- Whole genome amplification, SNP array and Genome Wide Association Studies for genome mapping of inherited diseases
- Genomic variability and host-parasite interaction: Leishmaniosis and Varroatosis
PRACTICALS:
- On-line practice on Genomic databases.
- Journal clubs on genome sequencing project in domestic animals, genome mapping (Homozigosity mapping, case / control studies, trios) and gene identification in inherited
diseases and in parasitic diseases, the latter limited to those addressed in the lectures.
- Visits to research and service centers equipped with high-throughput platforms.
Unit: Molecular pathology of parasitic diseases
Course syllabus
LECTURES:
1. Advanced diagnostic techniques for the study of the molecular mechanisms of parasitic diseases (2 hs)
2. Immunopathology of parasitic diseases and parasitic strategies od immune response evasion: leishmaniosis and filariosis (4 hs)
3. Animal models for the understanding of the genetic and pathogenetic basis of parasitic diseases (2 hs)
4. Molecular mechanisms of resistance and sensitivity to animal parasitic diseases: varroatosis, toxoplasmosis and neosporosis (4 hs)
PRACTICALS:
The practical part of the course will teach the student the application of methods described in the lectures and specifically, genetic expression and molecular diagnostic techniques applied to the study of parasitic diseases and related animal models (12 hs)
1. Advanced diagnostic techniques for the study of the molecular mechanisms of parasitic diseases (2 hs)
2. Immunopathology of parasitic diseases and parasitic strategies od immune response evasion: leishmaniosis and filariosis (4 hs)
3. Animal models for the understanding of the genetic and pathogenetic basis of parasitic diseases (2 hs)
4. Molecular mechanisms of resistance and sensitivity to animal parasitic diseases: varroatosis, toxoplasmosis and neosporosis (4 hs)
PRACTICALS:
The practical part of the course will teach the student the application of methods described in the lectures and specifically, genetic expression and molecular diagnostic techniques applied to the study of parasitic diseases and related animal models (12 hs)
Unit: Genomic analysis of inherited diseases
Course syllabus
LECTURES:
- Genetic and physical maps of domestic animals.
- Genome Wide Sequencing High-throughput systems, DNA and RNA sequencing
- Whole genome amplification, SNP array and Genome Wide Association Studies for genome mapping of inherited diseases
- Genomic variability and host-parasite interaction: Leishmaniosis and Varroatosis
PRACTICALS:
- On-line practice on Genomic databases.
- Journal clubs on genome sequencing project in domestic animals, genome mapping (Homozigosity mapping, case / control studies, trios) and gene identification in inherited
diseases and in parasitic diseases, the latter limited to those addressed in the lectures.
- Visits to research and service centers equipped with high-throughput platforms.
- Genetic and physical maps of domestic animals.
- Genome Wide Sequencing High-throughput systems, DNA and RNA sequencing
- Whole genome amplification, SNP array and Genome Wide Association Studies for genome mapping of inherited diseases
- Genomic variability and host-parasite interaction: Leishmaniosis and Varroatosis
PRACTICALS:
- On-line practice on Genomic databases.
- Journal clubs on genome sequencing project in domestic animals, genome mapping (Homozigosity mapping, case / control studies, trios) and gene identification in inherited
diseases and in parasitic diseases, the latter limited to those addressed in the lectures.
- Visits to research and service centers equipped with high-throughput platforms.
Unit: Molecular pathology of parasitic diseases
Course syllabus
1. Advanced diagnostic techniques for the study of the molecular mechanisms of parasitic diseases
2. Immunopathology of parasitic diseases and parasitic strategies od immune response evasion: leishmaniosis and filariosis
3. Animal models for the understanding of the genetic and pathogenetic basis of parasitic diseases
4. Molecular mechanisms of resistance and sensitivity to animal parasitic diseases: varroatosis, toxoplasmosis and neosporosis
SUPPLEMENTARY:
The supplementary part of the programme will deal with the application of genetic expression and molecular diagnostic techniques applied to the study of parasitic diseases and related animal models.
2. Immunopathology of parasitic diseases and parasitic strategies od immune response evasion: leishmaniosis and filariosis
3. Animal models for the understanding of the genetic and pathogenetic basis of parasitic diseases
4. Molecular mechanisms of resistance and sensitivity to animal parasitic diseases: varroatosis, toxoplasmosis and neosporosis
SUPPLEMENTARY:
The supplementary part of the programme will deal with the application of genetic expression and molecular diagnostic techniques applied to the study of parasitic diseases and related animal models.
Unit: Genomic analysis of inherited diseases
AGR/17 - LIVESTOCK SYSTEMS, ANIMAL BREEDING AND GENETICS
VET/06 - PARASITOLOGY AND ANIMAL PARASITIC DISEASES
VET/06 - PARASITOLOGY AND ANIMAL PARASITIC DISEASES
Practicals: 12 hours
Lessons: 12 hours
Lessons: 12 hours
Professor:
Longeri Maria Lina Emilia
Unit: Molecular pathology of parasitic diseases
AGR/17 - LIVESTOCK SYSTEMS, ANIMAL BREEDING AND GENETICS
VET/06 - PARASITOLOGY AND ANIMAL PARASITIC DISEASES
VET/06 - PARASITOLOGY AND ANIMAL PARASITIC DISEASES
Practicals: 12 hours
Lessons: 12 hours
Lessons: 12 hours
Professor:
Mortarino Michele
Professor(s)
Reception:
By appointment to be requested via e-mail
Lodi Dipartimento di Medicina Veterinaria e Scienze Animali - floor III, room 3090
Reception:
Wednesday 11.00-12.00
DIVAS - - Lodi Via Dell'Università 6