Key Benefits:
Obtained the verification of the curriculum by the Council of Universities, as well as the authorization of the Autonomous Community of Andalusia, and established the official character of the title by Agreement of the Council of Ministers of 28 of January 2011 (published in the BOE of 24 February 2011, by resolution of the General Secretariat of Universities of 7 February 2011),
This Rectorate has decided to publish the study plan leading to the obtaining of the degree of Master University in Biotechnology by the University of Granada, which will be structured according to the annex of this study. Resolution.
Granada, January 9, 2012. -The Rector, P.S. (Resolution of July 29, 2011), the Vicerrector of Academic and Professor Management, Luis M. Jiménez del Barco Jaldo.
ANNEX
Table 1. Summary of subjects and distribution of ECTS credits from the University Master in Biotechnology.
Credits | ||
---|---|---|
00 | ||
Optives | 30 | |
30 | ||
External Practices | 00 | |
| ||
Total | 60 | Total |
Table 2. Modules and subjects of the University Master in Biotechnology.
Module | Matter | ECTS | Character | |||
---|---|---|---|---|---|---|
Module I: Teaching. | Anhydrobiosis: Life without water. | 3 | Optional | |||
3 | Optional. | |||||
3 | Optional | |||||
3 | ||||||
3 |
of lactic bacteria present in fermented foods. Study of bacterial-producing strains. | 3 | Optional. | |||
Bioinformatics. |
3 | Optional. | ||||
Biotechnology, ethics, and society. | 3 | Optional. | ||||
3 | Optional | |||||
| 3 | Optional | ||||
vegetable waste biotransformation: applications. | 3 | |||||
of molecular biology techniques for the identification and characterization of trypanosomatidos. | 3 | Optional. | ||||
Cooperativity, allosterism: multiple balances in Biochemistry. | 3 | Optional | ||||
3 | Optional | |||||
3 | ||||||
|
|
3 | ||||
3 | ||||||
Determination of the protein structure by nuclear magnetic resonance. | 3 |
Optional. | ||||
communication techniques and research techniques. | 4 | Optional | ||||
Structure, function and dynamics of rizobacteria genomes. | 3 | Optional. | ||||
insecticides: biotechnological applications of Bacillus thuringiensis toxins. | 3 | Optional. | ||||
Introduction to Biocatalysis. | 3 |
5 |
5 | 5 | ||
5 | 5 |
5 |
| |||
molecular mechanisms of signal transduction across the membrane in bacteria. | 3 |
Optional. | ||||
Morphogenesis and differentiation in bacteria. | 3 | Optional. | ||||
foods and plants. |
3 | Optional. | ||||
Supramolecular chemistry principles and their applications. | 3 | Optional | ||||
3 | Optional | |||||
Optional. | ||||||
3 | 3 | Optional | ||||
3 | ||||||
The_table_table_izq"> Micromicrobial Solutions to Environmental Pollution. | 3 | Optional | ||||
3 | Optional. | |||||
-immobilization technologies: biochemical, medicinal, food, and environmental applications. | 3 | Optional | ||||
Thermodynamics and Biocalorimetry. | 3 | Optional. | ||||
terpenoids: Biosynthesis, Structural elucidation, and Synthesis. | 3 | Optional. | ||||
Transgenesis and animal cloning in biotechnology research. | 3 | Optional. | ||||
transport in cell membranes: Homeostasis and intracellular calcium imaging. | 3 | Optional. | ||||
Module II: End Master Job. |
| 30 | 30 Or_table_table_izq"> Required. |