Unit PLANT BIOTECHNOLOGY
- Course
- Agricultural and environmental sciences
- Study-unit Code
- A002027
- Curriculum
- Biotecnologie
- Teacher
- Daniele Rosellini
- Teachers
-
- Daniele Rosellini
- Gianpiero Marconi (Codocenza)
- Lorenzo Raggi (Codocenza)
- Hours
- 27 ore - Daniele Rosellini
- 27 ore (Codocenza) - Gianpiero Marconi
- 27 ore (Codocenza) - Lorenzo Raggi
- CFU
- 9
- Course Regulation
- Coorte 2022
- Offered
- 2024/25
- Learning activities
- Caratterizzante
- Area
- Discipline della produzione vegetale
- Academic discipline
- AGR/07
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa monodisciplinare
- Language of instruction
- Italian
- Contents
- Knowledge of the fundamentals and methods of genetic biotechnologies applied to agricultural plants and animals. The course deals with three main topics: techniques for genomic DNA analysis and biodiversity characterization; genetic biotechnologies for plant breeding; genetics biotechnology laboratory
- Reference texts
- Lorenzetti et al. Miglioramento genetico delle piante agrarie. New Business Media/Edagricole, 2018
- Educational objectives
- The aim of this course is to provide students with knowledge of the techniques and the methods of genome analysis using molecular markers, including their application for marker-assisted selection. In addition, the biotechnologies useful for plant breeding will be discussed: mutagenesis, in vitro culture, ploidy manipulations, genetic engineering and genome editing techniques for plant breeding will be presented. Case studies on applications of genetic engineering. Safety and traceability of GMOs will be discussed.
The students will have the opportunity to apply the lab techniques for DNA purification, quantification, amplification and analysis. - Prerequisites
- The students should have passed the Agricultural genetics exam
- Teaching methods
- The course is organized as follows: lectures on all topics of the course supported by video projections, that will be timely provided to the students. In addition, students will carry out laboratory activities as detailed in the extended program. Field trips will be organized if possible.
- Other information
- The study materials will be made available through the E-learning Unistudium platform
- Learning verification modality
- A final oral exam (about 45 minutes) which will also assess the knowledge acquired during the laboratory experiences.
For information on support services for students with disabilities and / or SLD, visit the page http://www.unipg.it/disabilita-e-dsa - Extended program
- Nature and origin of genetic diversity in living beings. From morphological to molecular markers; identification of variations in the DNA sequence. Application of DNA Polymerase chain reaction. Molecular markers, different classes of markers and their classification. AFLP, SSR and SNP markers. Molecular markers for crops characterization.
Construction of genetic maps. Linkage groups attribution to chromosomes. DNA sequencing: classical and next generation sequencing technologies. Strategies for whole genome sequencing.
Genetic biotechnologies for plant breeding. Mutagenesis, in vitro culture, ploidy manipulations. Genetic engineering of plants. Genetic constructs. Indirect and direct methods. Transgenic plants in plant breeding. Case studies and applications. Genetically modified plants and safety.
Introduction to the biotechnology lab techniques. DNA extraction from tomato plant tissue, DNA quantification. Electrophoretic separation of DNA on agarose gel. PCR amplification of the locus determining resistance to Tomato Yellow Leaf Curl Virus (TYLCV). Direct amplification from eggplant tissue and analysis of related data by sequencer analysis. - Obiettivi Agenda 2030 per lo sviluppo sostenibile
- 1,2,3