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Introduction to Genetic Engineering

Data

Official data in SubjectManager for the following academic year: 2024-2025

Course director

Number of hours/semester

lectures: 0 hours

practices: 0 hours

seminars: 22 hours

total of: 22 hours

Subject data

  • Code of subject: OXF-BGS-h-T
  • 2 kredit
  • General Medicine
  • Optional modul
  • spring
Prerequisites:

-

Course headcount limitations

min. 5 – max. 20

Available as Campus course for . Campus-karok: ÁOK TTK

Topic

The aim of the course is to introduce students to the methods of manipulating genetic material (genetic engineering). It presents the basic techniques and latest possibilities of genetic engineering, as well as its role in research, drug development and medicine. During the course, students have to design a small genetic engineering project, and the acceptance of the semester and the final grade depends on the completed project. The project must be prepared with the help of a small computer program that simulates genetic engineering and runs under the Windows operating system. Therefore, in order to successfully complete the course, the student must be able to run the program either on a computer with Windows operating system or on an Apple machine in emulation mode.

Lectures

Practices

Seminars

  • 1. Structure and function of nucleic acids - Sándor Zoltán (1968, Farmakológia)
  • 2. Modified and artificial nucleic acids - Sándor Zoltán (1968, Farmakológia)
  • 3. Oligonucleotide and gene synthesis - Sándor Zoltán (1968, Farmakológia)
  • 4. Gel electrophoresis and sequencing - Sándor Zoltán (1968, Farmakológia)
  • 5. Polymerases - Sándor Zoltán (1968, Farmakológia)
  • 6. Polymerase chain reaction - Sándor Zoltán (1968, Farmakológia)
  • 7. Enzymes to manipulate nucleic acids I. - Sándor Zoltán (1968, Farmakológia)
  • 8. Enzymes to manipulate nucleic acids II. - Sándor Zoltán (1968, Farmakológia)
  • 9. cDNA cloning, basic cloning vectors - Sándor Zoltán (1968, Farmakológia)
  • 10. Expression vectors - Sándor Zoltán (1968, Farmakológia)
  • 11. Transformation, transfection - Sándor Zoltán (1968, Farmakológia)
  • 12. Viral vectors, transposone systems - Sándor Zoltán (1968, Farmakológia)
  • 13. Transgenic and knockout animals - Sándor Zoltán (1968, Farmakológia)
  • 14. Lox-P system, conditional KO animals - Sándor Zoltán (1968, Farmakológia)
  • 15. RNA interference, knockdown techniques - Sándor Zoltán (1968, Farmakológia)
  • 16. Artificial nucleases, genome engineering - Sándor Zoltán (1968, Farmakológia)
  • 17. Optogenetics - Sándor Zoltán (1968, Farmakológia)
  • 18. Artificial evolution techniques - Sándor Zoltán (1968, Farmakológia)
  • 19. Gene therapy - Sándor Zoltán (1968, Farmakológia)
  • 20. Genetic engineering in drug discovery - Sándor Zoltán (1968, Farmakológia)
  • 21. Project evaluation I - Sándor Zoltán (1968, Farmakológia)
  • 22. Project evaluation II - Sándor Zoltán (1968, Farmakológia)

Reading material

Obligatory literature

None

Literature developed by the Department

Power point slides

Notes

None

Recommended literature

None

Conditions for acceptance of the semester

None

Mid-term exams

The genetic engineering project must be prepared during the semester and submitted before the start of the exam period.

Making up for missed classes

None

Exam topics/questions

None

Examiners

Instructor / tutor of practices and seminars

  • Sándor Zoltán (1968, Farmakológia)
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