Advanced Plant Cell Biotechnology

A.Y. 2024/2025
6
Max ECTS
48
Overall hours
SSD
BIO/04 BIO/18
Language
English
Learning objectives
The aim of the course is to discuss the criteria and the methods to design or improve a biotechnological process exploiting plant cells or whole plants to produce biomass or substances of industrial or environmental relevance (e.g. biofuels, oils, detergents, vitamins, starch, sugars, biodegradable polymers). An 'on-site' visit to at least one company or research centre is envisaged to make the students aware about plant biotechnology outside the academic environment.
The course is ideally linked to those dealing with functional genomics and other "-omic" technologies, plant breeding, molecular enzymology, bioinformatics and data analysis.
Expected learning outcomes
Upon completing this course, students will acquire substantial knowledge on metabolic fluxes, on strategies that can be used to modify yield and on the tools available in plant biotechnology to achieve the objectives.
Single course

This course can be attended as a single course.

Course syllabus and organization

Single session

Responsible
Lesson period
Second semester
Course syllabus
The course begins with the lectures given by prof. Morandini (covering 3 ECTS points) deals with two fundamental questions of metabolic engineering: 1) which factors control metabolic fluxes and intermediate concentrations and 2) which strategies /targets work better to modify yields or quality of a certain product, particularly those of industrial relevance. In order to tackle the questions, we shall make use of the tools provided by the Metabolic Control Analysis theory (elasticity, flux and concentration control coefficients). We shall discuss the interplay of supply and demand of metabolic intermediates, as well as the evidence in favour of the so-called 'parallel activation' to increase fluxes and the implications for manipulation strategies. Several case studies (and the relative successes and failures) of plant biotechnology will be discussed, among which the manipulation of starches, sugars, lipids, vitamins, natural pesticides, amino acids, and the inactivation of allergens and toxins.

The part taught by Paolo Pesaresi (covering 3 ECTS points) comes next and will first focus on the technical tools and theoretical basis of plant biotechnological improvements for food and biomass production. Crop genetic improvement strategies adopted during plant domestication and the "Green Revolution" will be described. The different constructs for plant engineering together with the molecular basis of Agrobacterium-mediated transformation are discussed. The different elements of expression vectors, including constitutive and inducible promoters, enhancers, reporter genes, replication origin and marker genes are described. Then we will examine plant traits modified by transgenesis or mutagenesis which are already on the market, or which are likely to be commercially available in the near future: herbicide tolerance, pest resistance, improved nutritional content. Moreover, biotech strategies adopted to obtain novel and sustainable pesticides that meet the requirements of the European "Green deal" and the "Farm-to-Fork" pillar are taken into consideration. Finally, the organisms and the strategies used to produce biofuels of the first, second and third generation will be described.
Prerequisites for admission
A substantial background in basic biochemistry, genetics, and functional genomics, as normally gained in a bachelor curriculum of Biology and Biotechnology, is highly recommended. Good mastering of plant biochemistry is helpful but not an absolute requirement.
Teaching methods
The lectures are delivered in traditional format supported by projected material (ppt or pdf). Strong emphasis is given to challenge students on all aspects: background informations, theory, experimental design, data analysis and specific case studies.
Attendance is highly recommended.
Teaching Resources
A major reference book about metabolic control theory is the following: Fell, Understanding the control of Metabolism, Portland Press (1997). Power-point presentations, lecture notes and articles on which lectures are based will be uploaded and made available on the dedicated ARIEL web-page (https://ppesaresibvia.ariel.ctu.unimi.it/v3/home/Default.aspx). The material is made available only to registered students and should not be distributed to others.
Assessment methods and Criteria
The exam is oral and consists of questions on each section of the program. In addition regarding Prof. Pesaresi's part, students are offered the possibility to present and discuss a research article selected from a list provided by the teacher on topics relevant to the syllabus. The power-point presentation of about 10 min will have a weight of 20% on the final grade. Examples of the examination questions are discussed during classes and provided at the end of the course. The two parts of the exam can be sustained separately, but the grade will result from the joint evaluation of each candidate by the two instructors.
BIO/04 - PLANT PHYSIOLOGY - University credits: 3
BIO/18 - GENETICS - University credits: 3
Lectures: 48 hours
Professor(s)
Reception:
Please, contact me by email to fix an appointment
via Celoria 10, building 22120, floor -1
Reception:
Upon appointment
V floor Tower B, Via Celoria 26