Molecular plant breeding and genetics
A.A. 2024/2025
Obiettivi formativi
The main goal of the course is to supply the students with knowledge about tools and strategies used in breeding programs, combining quantitative genetics and biotechnology to identify the genomic regions containing genes of interest. The effects of domestication and breeding on the genome of crops will be presented to have a wider overview about the challenges that modern breeding has to face.
Risultati apprendimento attesi
After completing this course students will acquire a basic knowledge of the latest molecular breeding approaches. They will become familiar with the technologies available to produce molecular markers and how these are used to construct linkage maps, useful for mapping QTL and plant breeding in general. They will know the pros and cons of alternative strategies available to identify genetic determinants controlling agronomic traits. Students will be able to evaluate the advantages and limitations of different breeding strategies and select the most appropriate one for specific objectives.
Periodo: Secondo semestre
Modalità di valutazione: Esame
Giudizio di valutazione: voto verbalizzato in trentesimi
Corso singolo
Questo insegnamento può essere seguito come corso singolo.
Programma e organizzazione didattica
Edizione unica
Responsabile
Periodo
Secondo semestre
Programma
The course is composed of 2 integrated modules: 5 ECTS taught by prof. Luca Gianfranceschi and 1 ECTS from by Veronica Gregis.
The following topics will be presented and discussed:
- Challenges of modern plant breeding and how the molecular tools could be used to improve and speed up breeding (Gianfranceschi L.)
- Overview of Plant Reproduction Systems and practical lesson on breeding using available plant material (Gregis V.)
- Genome Editing Approaches for Plant Improvement (Gregis V.)
- Epigenetics Concepts for Plant Improvement (Gregis V.)
- Epigenetics concepts for plant improvement (Gregis V.)
- Principles of population genetics selection, inbreeding and genetic drift (Gianfranceschi L.)
- Modern breeder's molecular tools: the evolution of molecular markers in the light of new high-throughput sequencing technologies (Gianfranceschi L.)
- New tools and approaches derived from genomics advancement: pangenome and whole-genome sequencing. (Gianfranceschi L.)
- Strategies and methods to construct high density linkage maps (Gianfranceschi L.)
- Modern approaches to QTL mapping (Gianfranceschi L.)
- Crossing schemes to obtain breeding populations and discussion of their characteristics (Gianfranceschi L.)
- Experimental design used in breeding programs for the improvement and selection of crop species (Gianfranceschi L.)
- Genome-Wide Association Studies and Genomic selection approaches (Gianfranceschi L.)
The following topics will be presented and discussed:
- Challenges of modern plant breeding and how the molecular tools could be used to improve and speed up breeding (Gianfranceschi L.)
- Overview of Plant Reproduction Systems and practical lesson on breeding using available plant material (Gregis V.)
- Genome Editing Approaches for Plant Improvement (Gregis V.)
- Epigenetics Concepts for Plant Improvement (Gregis V.)
- Epigenetics concepts for plant improvement (Gregis V.)
- Principles of population genetics selection, inbreeding and genetic drift (Gianfranceschi L.)
- Modern breeder's molecular tools: the evolution of molecular markers in the light of new high-throughput sequencing technologies (Gianfranceschi L.)
- New tools and approaches derived from genomics advancement: pangenome and whole-genome sequencing. (Gianfranceschi L.)
- Strategies and methods to construct high density linkage maps (Gianfranceschi L.)
- Modern approaches to QTL mapping (Gianfranceschi L.)
- Crossing schemes to obtain breeding populations and discussion of their characteristics (Gianfranceschi L.)
- Experimental design used in breeding programs for the improvement and selection of crop species (Gianfranceschi L.)
- Genome-Wide Association Studies and Genomic selection approaches (Gianfranceschi L.)
Prerequisiti
A basic knowledge of genetics, molecular biology, botany and statistics is highly recommended.
Metodi didattici
Teaching mode: Traditional lectures with powerpoint presentations, available to the students after the lecture through Ariel platform. Seminars from scientists working in plant breeding.
Attendance: highly recommended.
Attendance: highly recommended.
Materiale di riferimento
Copies of the slides projected in the classroom, references to scientific papers and reviews indicated during the course and other study material will be made available through the course website on the MyARIEL platform of the University of Milano
By no means this material replaces the lectures or a textbook. The material is made available only to registered students of the Degree Course in Molecular Biotechnology and Bioinformatics and should not be distributed to others.
By no means this material replaces the lectures or a textbook. The material is made available only to registered students of the Degree Course in Molecular Biotechnology and Bioinformatics and should not be distributed to others.
By no means this material replaces the lectures or a textbook. The material is made available only to registered students of the Degree Course in Molecular Biotechnology and Bioinformatics and should not be distributed to others.
By no means this material replaces the lectures or a textbook. The material is made available only to registered students of the Degree Course in Molecular Biotechnology and Bioinformatics and should not be distributed to others.
Modalità di verifica dell’apprendimento e criteri di valutazione
There is a single final exam consisting of an oral discussion on topics presented during the course. The discussion begins with a short PowerPoint presentation by the student (max 15 minutes) of a research article on topics covered in the course. Sample exam papers will be discussed during lectures and a list of suitable articles will be made available to the students via the Ariel website. The selected scientific article must be sent to the teachers for approval at least 10 days before the examination date. Either through the indicated online form or via email. The final grade will be expressed in thirtieths.
BIO/18 - GENETICA - CFU: 6
Lectures: 48 ore