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Applied biotechnology [ LBIRA2102 ]


4.0 crédits ECTS  30.0 h + 7.5 h   1q 

Teacher(s) Donnay Isabelle ; Draye Xavier ; Bragard Claude (coordinator) ;
Language French
Place
of the course
Louvain-la-Neuve
Main themes The course reviews successively the principles of cell culture (part A), cell modification (part B) and organism regeneration (part C). Selected examples stress the similarities between animal, microbial and plant biotechnologies. In part A, the notions of culture initiation, manipulation and conservation of microorganisms (kinetics of growth, strains conservation), animals (stem cells, in vitro production and manipulation of embryos, cryobanks) and plants (totipotency, in vitro culture, protoplasts, doubled haploids, regulation of cell growth an development) and explained. Part B presents the principles of cell modification (transformation, transgenesis, mutagenesis, heterologous / homologous recombination, vectors). Notions of gene isolation, cloning, construct and genomics are also introduced as the underlying techniques rely on recombinant DNA technology. Part C details the regeneration of organisms from modified cells (animal and plant cloning, selection (antibiotics), marker genes, protoplast fusion, in vitro cell culture)
Aims

The course brings the student to understand major biotechnologies applied to the animal, microbial and plant domains under the perspectives of production and/or genetic improvement. The foundations and the context of knowledge discovery in biotechnology are also approached, as a way to help the student to understand the consequences of biotechnologies beyond the scientific performance (e.g. economy, nutrition and health, society). As such, the public of this course is not restricted to students whose main interest lays in the fields of production and genetic improvement.

Content Biotechnologies are evolving at different speed in the microbial, animal and plant sciences domains, despite a number of common principles shared by these domains. This course therefore represents a unique opportunity to address important questions relating to the dynamics of biotechnological innovation and to encourage the student to structure his knowledge beyond conventional boundaries within the lifesciences domain. Wherever possible, reference is made to the various problematics arising from the use of biotechnologies.
Other information Precursory courses (not mandatory) BIR1321 BIR1322 BIR1323 BIR1324 BIOL218OE
Cycle et année
d'étude
> Master [120] in Agricultural Bioengineering
> Master [120] in Biochemistry and Molecular and Cell Biology
> Master [60] in Biology
Faculty or entity
in charge
> AGRO


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