Plant biotechnology

Molecular plant biotechnology

• Genetic modification of plants : methods, techniques and applications
• Tools to study gene expression

Exercise of plant biotechnology

This course aims at illustrating the plant biotechnology use in a realistic experimental context. To do so, several steps will be performed by the students in order to answer a scientific question presented at the beginning of the teaching process:
- selection of ad-hoc biotechnological tools; - experimental set-up development based on the state of the art; - experimental lab work; - data collection and analysis; - oral presentaton of the results.
This course is therefore based on a practical approach and the coordinated work of the group of students. It will provide the students with a clear insight of an experiment while inviting them to make decisions during each of these steps.

Biology applied to pest prevention

Application of « omics » approches in the plant-pest relations Biotechnological applications to control pests by using microbiological agents (entomopathogen bacteria, virus and fungi): theorical basis of action modes complemented by the production methods of these bio-insecticides
Application of transgenesis and diversity of GMO in order to control pests

Biology applied to phytopathology

To be completed

Molecular plant biotechnology

• To understand the achievable objectives of the genetic modification technology
• To learn how to use important tools for plant biotechnology
• To learn how to elaborate a research project related to plant biotechnology
• To learn how to report scientifically on topics related to plant biotechnology

Exercise of plant biotechnology

- To use specific plant biotechnology tools to address a scientific question;
- To integrate a scientific approach into an experimental set-up;
- To design a laboratory experiment and carry it out;
- Coordonated team work;
- To analyze the obtained biological dataset;
- To transmit this information to the whole student class to ensure a thorough understanding of the results.

Biology applied to pest prevention

In order to control pests and to develop alternative ways to be more sustainable, it is proposed here to describe the diversity of organisms and approaches to be potentially applied using biotechnological strategies to a diversity of targetted pests.

Biology applied to phytopathology

to be completed

Molecular plant biotechnology

Basic courses of Genetics and Molecular Biology

Exercise of plant biotechnology

VEGE0032-A-a

Biology applied to phytopathology

Basic knowledge in molecular biology, genetics and plant pathology
 

Molecular plant biotechnology

• Participative lectures
• Elaboration of a research project for the block course Plant Biotechnology Exercices

Exercise of plant biotechnology

Lab work : 18 h Scientific article summarizing the lab work with iterative corrections in order to improve the final report

Biology applied to pest prevention

Beside theorical teaching presenting the bases and action modes of the proposed biotechnological approaches, some pratical works are organised in order to apply "omics" techniques in the laboratory based on a scientific question raised on pests.

Biology applied to phytopathology

To be completed

Molecular plant biotechnology

face-to-face

Exercise of plant biotechnology

Face-to-face

Biology applied to pest prevention

Theorical teaching in auditorium Pratical works by group in the laboratory

Biology applied to phytopathology

Face-to-face

Molecular plant biotechnology

• Folder of suggested readings communicated via the online platform of the course
• Power point presentations of all lectures made available via the online platform

Exercise of plant biotechnology

slides, texts and papers available on line.

Molecular plant biotechnology

The assessment of the student is based only on the presentation of an individual work

Exercise of plant biotechnology

The assessment of the student is based only on the individual work performed during the teaching period.

Biology applied to pest prevention

Oral examination (65%) Report on practical works (35%)

Biology applied to phytopathology

To be completed

Molecular plant biotechnology

All learning activities on the campus of Gembloux

Molecular plant biotechnology

Expected cross-links with the other courses of the module.
Slides and papers are made available on eCAMPUS and/or myULG. Preferred language for the lectures will be selected in agreement with the students. In case students with limited knowledge of French are attending the course, the lectures will be given in English.
 

Biology applied to pest prevention

Organisation of this course in a collegial module - including also the evaluation

Molecular plant biotechnology

• Herve Vanderschuren (herve.vanderschuren@ulg.ac.be)
• Pierre Delaplace (pierre.delaplace@ulg.ac.be)

Exercise of plant biotechnology

Prof. Hervé Vanderschuren (herve.vanderschuren@ulg.ac.be(pierre.delaplace@ulg.ac.be))

Biology applied to pest prevention

Pr Frederic FRANCIS
Tel 081 622287
Email Frederic.Francis@uliege.be

Biology applied to phytopathology

Prof. Sebastien MASSART ULg, Gembloux Agro-Bio Tech Bât. 47, avenue Maréchal Juin 5030 Gembloux
+32 81 622431 sebastien.massart@ulg.ac.be

Molecular plant biotechnology

LECTURE 2_POTATO BIOTECHNOLOGY PROJECT
Slides potato biotechnology project

LECTURE 3_PRACTICAL WORK
Slides Practical Work

LECTURE 4_GENEVESTIGATOR
Slides Genevestigator

Course contents
All the pedagogical resources used in this course are downloadable from the corresponding folder on the online teaching platform eCampus.

Exercise of plant biotechnology

Course contents
All the pedagogical ressources used in this course are downloadable from the corresponding folder on the online teaching platform eCampus.