This international Master program integrates plant biotechnology and agrofood technology within course content in order to deal with innovation challenges in agriculture.
Masters in Biological & Life Sciences in Aquitaine in France. This international Master program integrates plant biotechnology and agrofood technology within course content in order to deal with innovation challenges in agriculture.
Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux (France)
University of Tsukuba (Japan)
Hangzhou Normal University (China)
National Taiwan University (Taiwan)
Pontifical Catholic University of Chile (Chile)
University of Cincinnati (USA)
Hold a Master (Year 1) degree (60 ECTS equivalent) in any field related to biology with majors in molecular biology and/or biochemistry.
Program duration: 1 year (60 ECTS).
Language requirements: English: certifiable equivalent of TOEFL score of 550/213/79-80 or IELTS score of 6.0.
Level: Master degree (Year 2)
Tuition fees: Master tuition fees applicable for the University of Bordeaux.
The Bordeaux Biology Agrosciences (B2AS) program offers an integrated multidisciplinary approach that is adapted to the realities of research (background research) as well as to the socio-economic sector (professional courses). The program objectives are to train and equip researchers and professionals to face the issues posed by agriculture in the 21st century. This is achieved by integrating plant biotechnology and agrofood technology within course content in order to deal with the challenges of innovation in agriculture.
With such an integrated approach, the Master B2AS represents a meeting point between academia and professionals. During the program, students may specialize either in the field of plant biology, biotechnology, plant breeding, genetics, plant and human health benefits, food production and innovation. The wide partner network provides students with a range of complementary expertise. This means that specific competencies are developed within the chosen field of biotechnology and plant breeding for agriculture improvements.
Scientific English (3 ECTS)
Students will reinforce and develop the reading, writing, listening and speaking skills relevant to a biological science research context.
Students will acquire knowledge of the linguistic and discursive features of both written and spoken scientific English.
Structure and rhetoric of the research article, writing up an abstract. Oral scientific presentation – students prepare a mini-symposium on the topic related to their future work placement (and thus complete relevant bibliographical and reading research in preparation).
Students are evaluated on their communication skills in English and also on their ability to manage complex scientific concepts in English.
Plant development and reproduction (3 ECTS)
Genetic regulation of root and stem apical meristem functioning, epigenetic regulations of plant development and reproduction, parental imprinting, plant hormones, fruit and seed development, sex determination in plants, cellular mechanisms involved in plant organ growth and development.
Metabolism and cellular compartmentation (3 ECTS)
Metabolism and cell compartmentation: morphodynamic organization of the plant secretory pathway, lipid and protein machineries; membrane transporters in plants and the related methods of study; lipid signaling in plant cells; formation and dynamics of membrane domains; regulation of metabolism and gene expression by sugars in plants. Nature and importance of futile cycles in plants.
Biotechonology (3 ECTS)
In vitro culture and applications, plant transformation and applications to crop plants, GMO legislation and traceability, metabolic engineering, GMO and production of antibodies and of molecules of high health value, GMO in the food industry, fungi biotechnology.
Plant pathogen interactions (3 ECTS)
Plant-Mollicutes interactions, plant-virus interactions: analysis of plant and virus factors necessary for virus cycle, viroids; RNA interference, plant defence mechanisms against pathogens (fungi, bacteria and virus), breeding of plants resistant to pathogens, biodiversity of plant pathogens, epidemiology of plant pathogen interactions and impact on crop production.
Plant breeding (3 ECTS)
Principles of selection and genetic gain, response to selection, germplasm resources, collecting, analysing, classifying, international rules on germplasm resources. Population improvement and cultivar development (breeding for lines, hybrids, clones, populations), high throughput phenotyping, breeding strategies and methods including molecular breeding (MAS, genomic selection) and biotechnologies, multiple traits selection, genotype by environment interaction, protecting varieties and intellectual property, plant breeding international network and organization.
Quantitative and population genetics and evolution (3 ECTS)
Population genetics and genetic diversity, haplotype structure, domestication and genetic consequences, linkage disequilibrium, genetic variance, estimating variance components, heritability, genetic correlations, association genetics, genomic selection, induced diversity TILLinG, natural diversity ecoTILLinG, linking genetics, genomics and bioinformatics : from fine- mapping to gene cloning; genotyping by sequencing.
Laboratory Practice (6 months/30 ECTS)
In a public laboratory and/or a private company laboratory.
Strengths of this Master program?
During their studies, students will:
Acquire scientific knowledge in various fields of plant biology, green biotechnology, food supplements, food production, etc.
Receive a modern research-based training.
Develop an understanding of the challenges of modern agricultural practices in a context of environmental constraints and increasing demand.
Develop an understanding of the benefits and limits of modern biotechnology.
Acquire the skills to develop action planning processes for bioscience.
Acquire skills and practice within an English-speaking environment as well as other languages practised within the consortium.
Develop the necessary skills to collaborate with international teams and networks.
Acquire competencies for knowledge transfer to students and collaborators.
Develop competencies to create, finance and manage a new start-up.
Acquire an understanding of today’s industrial and economic environment within the Biotech sector.
After this Master program?
The objectives of the B2AS program are to prepare students for further study via PhD programs and/or careers in the food and agronomy industry throughout the world. This is achieved by providing high-level training in plant sciences but also by preparing students with relevant knowledge and skills in management and business.
Graduates may apply for positions in the following industrial sectors in a R&D laboratory as well as in production activities:
Plant research laboratories
Plant breeding companies
Green and white biotechnology companies
Food, diet and nutrition companies
Plant medicinal production companies
Food supplement or nutraceutical companies
Business trade companies
How to apply?
Please send the following documents: CV, cover letter, description of the Master (Year 1) major and minors (or equivalent), English level certificate (TOEFL or IELTS) and two reference letters to Pr. M. Hernould