PřF BTCHE Biotechnology
Name in Czech: Biotechnologie
master's full-time single-subject, language of instruction: Czech
Included in the programme: PřF N-BTC Biotechnology
master's full-time single-subject, language of instruction: Czech
Included in the programme: PřF N-BTC Biotechnology
Study-related information
- Parts of the final state examination and its contentThe parts of the FSE are the courses Bioengineering, Gene technologies, and Biotechnological processes. Another part is the Master's Thesis in Biotechnology, which focuses on the experimental skills of the students and their ability to process information obtained within the theoretical education. The FSE follows the following profiling courses:
C7872 Applied biostatistics
C7878 Biotechnological processes
C9100 Biosensors
C8111 Bioengineering
C8112 Enzyme biotechnology
S3002 Nanobiotechnology
C7875 Gene technology
C7876 Gene technology-lab.course
C7873 Biotechnology seminar I
C8114 Biotechnology seminar II
C7874 Biotechnology seminar III
C8115 Biotechnology seminar IV
C9220 Seminar I
CA220 Seminar II
C9300 Diploma Work I
C8210 Diploma Work II
C9310 Diploma Work III
CA340 Diploma Work IV
C7877 Biotechnology practice - Suggestion of theses topics and the topics of defended thesesOptimization of the conditions of rumen fluid cultivation in a bioreactor.
The mechanism of bacterial oxidation of sulfide minerals which is applied in biohydrometallurgy.
Study of heterologous expression of selected gene in Pichia pastoris yeast.
Optimization of vaccine production in a bioreactor.
Study of the stem cell growth kinetics, optimization of the cultivation conditions.
Recommended progress through the study plan
Diplomová práce (min 20kr.)
Povinné předměty (P a PV více než 90kr.)
| Code | Name | Type of Completion | Credits | Term | Profile Cat. |
| PřF:C7872 | Applied biostatistics | zk | 4 | 1 | P |
| PřF:C7873 | Biotechnology seminar I | z | 2 | 1 | P |
| PřF:C7874 | Biotechnology seminar III | z | 2 | 3 | P |
| PřF:C7875 | Gene technology | zk | 4 | 1 | Z |
| PřF:C7876 | Gene technology-lab.course | z | 5 | 2 | P |
| PřF:C7877 | Biotechnology practice | z | 10 | 3 | P |
| PřF:C7878 | Biotechnological processes | zk | 4 | 2 | Z |
| PřF:C8111 | Bioengineering | zk | 4 | 1 | Z |
| PřF:C8112 | Enzyme biotechology | zk | 4 | 2 | P |
| PřF:C8113 | Biotechnology methods | z | 5 | 2 | P |
| PřF:C8114 | Biotechnology seminar II | z | 2 | 2 | P |
| PřF:C8115 | Biotechnology seminar IV | z | 2 | 4 | P |
| PřF:C9100 | Biosensors | zk | 2+2 | 1 | P |
| PřF:C9220 | Seminar I | z | 2 | 3 | P |
| PřF:CA220 | Seminar II | z | 2 | 4 | P |
| PřF:JA002 | Advanced Examination in English for Specific Purposes - Science | zk | 2 | 3 | - |
| PřF:C3002 | Nanobiotechnology | zk | 2+2 | 2 | P |
| 62 credits |
Selective courses
Elective courses
The student chooses from the following optional subjects to the total value of min. 120 credits for study. Below are examples of recommended optional subjects:
| Code | Name | Type of Completion | Credits | Term | Profile Cat. |
| PřF:Bi2900 | Intellectual Property Rights | zk | 2+2 | - | - |
| PřF:Bi7034 | Introduction to metabolic engineering and synthetic biology of microorganisms | zk | 2+2 | - | - |
| PřF:Bi7430 | Molecular biotechnology | zk | 2+2 | - | - |
| PřF:Bi7430c | Molecular biotechnology - practical course | z | 4 | - | - |
| PřF:Bi9540 | Biotechnology and practical use of algae and fungi | zk | 2+2 | - | - |
| ESF:BPE_ZEKO | Principles of Economics | zk | 4 | - | - |
| PřF:C4840 | Methods for labelling and immobilization of biomolecules | zk | 2+2 | - | - |
| PřF:C5340 | Nonequilibrium systems | zk | 2+2 | - | - |
| PřF:C6206 | Special biochemical methods | z | 4 | - | - |
| PřF:C8155 | Cell signaling | zk | 2+2 | - | - |
| PřF:C7150 | Regulation of metabolism | zk | 2+2 | - | - |
| PřF:C7175 | DNA diagnostics | zk | 4 | - | - |
| PřF:C7860 | Plant Biochemistry | zk | 2+2 | - | - |
| PřF:C8140 | Bioenergetics | zk | 2+2 | - | - |
| 56 credits |