Coordinating unit: 390 - ESAB - Barcelona School of Agricultural Engineering Teaching unit: 745 - EAB - Department of Agri-Food Engineering and Biotechnology Academic year: Degree: 2018 BACHELOR'S DEGREE IN BIOSYSTEMS ENGINEERING (Syllabus 2009). (Teaching unit Compulsory) ECTS credits: 6 Teaching languages: Catalan, Spanish Teaching staff Coordinator: Others: Cañameras Riba, Nuria Escudero Benito, Nuria Degree competences to which the subject contributes Transversal: 1. SELF-DIRECTED LEARNING - Level 3. Applying the knowledge gained in completing a task according to its relevance and importance. Deciding how to carry out a task, the amount of time to be devoted to it and the most suitable information sources. Teaching methodology The teaching methodology varies depending on whether it is theoretical (large group) or practical (small group) classes. In the theoretical classes, teachers will introduce the general knowledge related to the basic matter. They will try to motivate and involve the students to participate actively in their learning. Support material can be found in ATENEA. Learning objectives of the subject It is intended that students acquire all necessary knowledge and enough skills in biological techniques related to learn the main aspects about plant tissue culture, genetic engineering and other biotechnological tools. To apply in a practical way microprogation techniques, DNA extraction, PCR determination and electrophoresis techniques. Study load Total learning time: 150h Hours large group: 40h 26.67% Hours medium group: 0h 0.00% Hours small group: 20h 13.33% Guided activities: 0h 0.00% Self study: 90h 60.00% 1 / 5
Content Micropropagation of commercial species Learning time: 67h 20m Theory classes: 13h 20m Laboratory classes: 20h Self study : 34h History of plant tissue culture Cell culture media Phases and cell culture methodology Production of pathogen-free plants Activity 1: Class of theoretical explanation Activity 3: Laboratory Activity 4: Commercial Lab visit SPECIFIC IN VITRO CULTURE TECHNIQUES Learning time: 16h 40m Theory classes: 6h 40m Self study : 10h Somatic embryogenesis Production of haploid Protoplasts culture methods Conservation of plant material Activity 1: Class of theoretical explanation. 2 / 5
BIOTECHNOLOGY APPLIED TO PLANT GENETIC ENGINEERING Learning time: 8h Theory classes: 3h Self study : 5h Plant Genetic Engineering: Biotechnological methods in plant breeding. A brief theoretical explanation of each techniquewill be done. Related variability analysis techniques will be explained (molecular markers, bioinformatics, genomics... ). Techniques related to the generation of new variability will also be studied (transgenics, Tilling and Ecotilling, CRISPR / Cas9... ). Legislation. Activity 1: Class of theoretical explanation Activity 4: Commercial Lab visit OTHER BIOTECHNOLOGY TECHNIQUES Learning time: 37h Theory classes: 15h Laboratory classes: 0h Self study : 22h - Transgenics pest species or biological control agents applied to plant protection - Biotechnology applied to the study of the interaction plant - pathogen - Biotechnology for the environment 3 / 5
Planning of activities ACTIVITAT 1: CLASSES D'EXPLICACIÓ TEÒRICA Hours: 93h Theory classes: 38h Self study: 55h The teachers, through all the methods available in the classroom, expose the general knowledge related to the basic concepts of the subject. In most cases sessions last two hours. Therefore it is necessary to seek motivation and participation involving students who actively participate in their learning. The material imparted is current, changing and not exempt from controversy, ethics and / or morality, which in no case should be avoided. Support materials: All material available in the classroom, such as computer connected to projector, Internet connection, audiovisual material, blackboard, etc. (ENG) ACTIVITAT 2: PROVES INDIVIDUALS D'AVALUACIÓ Hours: 2h Theory classes: 2h The evaluation will be related to the theoretical and practical contents. The capabilities of the students to learn by themselves will be also evaluated. (ENG) ACTIVITAT 3: PRÀCTIQUES DE LABORATORI Hours: 41h Laboratory classes: 16h Self study: 25h There will be six sessions of laboratory practices. Tree of them will be to acquire skills in vitro plant and other three will be linked to the extraction of DNA, PCR, and electrophoresis techniques from plants incolated with microorganisms. Support materials: Binoculars. Laminar flow chamber. Environment controled chamber. Thermocycler. Transilluminator. Various consumables. Specific objectives: To learn applied biotechnology techniques. At the end of the activity, the student will be able to know the factors involved in plant tissue cultur, and to apply a PCR thecnique to characterize the microorganismes involved in plant interactions. (ENG) ACTIVITAT 4: VISITA Hours: 14h Laboratory classes: 4h Self study: 10h A private company will be visited. It uses biotechnology as a tool for saving time and making varietal improvements 4 / 5
Qualification system N1: Rating of the written test N2: Rating of the practice sessions CG: Generic competition Final qualification: 0,65 N1 + 0,20 N2 + 0,15 CG Regulations for carrying out activities Assistance and implementation of the proposed activities is mandatory. Tasks must be delivered by the deadline. Bibliography Basic: Augé, R. La Culture in vitro et ses applications horticoles. 3ème. éd. rev.,correg., augm. Paris: Lavoisier, 1989. ISBN 2852065045. Bhojwani, S. S.; Razdan, M. K. Plant tissue culture : theory and practice. Amsterdam [etc.]: Elsevier, 1983. ISBN 0444425268. Smith, Roberta H. Plant tissue culture : techniques and experiments. San Diego [etc.]: Academic Press, 1992. ISBN 0126503400. Pierik, R. L. M. Cultivo in vitro de las plantas superiores. Madrid: Munid-Prensa, 1990. ISBN 8471142678. Pallàs, Vicente. Herramientas biotecnológicas en fitopatología. Madrid: Mundi-Prensa, 2008. ISBN 9788484763192. Luque Cabrera, José; Herráez Sánchez, Ángel. Texto ilustrado de biología molecular e ingeniería genética : conceptos, técnicas y aplicaciones en ciencias de la salud. Madrid [etc.]: Harcourt, 2001. ISBN 8481745057. Martínez, Xavier; Cañameras, Núria. El Cultiu "in vitro" i l'agricultura. Barcelona: Fundació Caixa de Pensions, 1988. ISBN 8476641699. Complementary: SEBIOT. La biotecnología aplicada a la agricultura. Madrid: Eumedia, 2000. ISBN 8493073822. Castillo Rodíguez, F. Biotecnología ambiental. Madrid: Tébar, 2005. ISBN 8473602110. Others resources: Hyperlink FAO 2010 FAO ( document de l'estat de la biotecnologia ) Frontiers Resource 5 / 5