Genomics and Epigenomics in Development and Disease

Data

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

Course director

  • Sik Attila Gábor

    senior research fellow,
    Institute of Transdisciplinary Discoveries

Number of hours/semester

lectures: 10 hours

practices: 2 hours

seminars: 0 hours

total of: 12 hours

Subject data

  • Code of subject: OXF-EGD-h-T
  • 1 kredit
  • General Medicine
  • Optional modul
  • autumn
Prerequisites:

ODA-HUG-T finished

Course headcount limitations

min. 5 – max. 20

Topic

Epigenetics is the study of heritable changes in phenotype that do not involve alterations in the genome. Environmental effects or normal developmental programs can result in epigenetic changes. During the course, an international team (University of Birmingham, UK, University of Pecs, Hungary) will explain both in a lecture format and in a practical session the fundamentals of epigenetics.

In the first part of the course, the concept of genomics, genome structure, and techniques of genome data harvesting is established, then the principles and levels of gene regulation, the concept of epigenetic gene regulation, as a paradigm are highlighted, and integrated into the network-based approach of genetic regulation. In further lectures, the general principles of animal development, and developmental genetic and genomics-based studies will be presented in the evolutionary developmental biology (EVO-DEVO) context, and medical aspects considered.

Lectures

  • 2. Epigenetic means of gene regulation. Histone postranslational modifications, histone code - Müller Ferenc
  • 10. How to use and mine genomics data in a Genome browser (UCSC) - Müller Ferenc
  • 1. Vertebrate genomics, introduction - Müller Ferenc
  • 8. Evolutionary genomics, genetic background for special characteristics of animals - Hoffmann Gyula
  • 9. How to use and mine genomics data in a Genome browser (UCSC) - Müller Ferenc
  • 6. Genomics applications in medical research - Müller Ferenc
  • 7. Stem cells, regeneration and epigenetical aspects of human development, medical implications - Hoffmann Gyula
  • 4. Non-coding genome function, gene regulation mechanisms. Cis regulatory elements, chromatin function and structure - Müller Ferenc
  • 5. Enhancers promoter structure function and interactions - Müller Ferenc
  • 3. Mechanisms of epigenetic inheritance, intra and intergenerational inheritance - Müller Ferenc

Practices

  • 2. Sequencing 2 - Gyenesei Attila
  • 1. Sequencing 1 - Gyenesei Attila

Seminars

Reading material

Obligatory literature

Literature developed by the Department

Lecture materials by the teachers and their publications on this topic

Notes

Recommended literature

Conditions for acceptance of the semester

Mid-term exams

No mid-semester tests. Essay.

Making up for missed classes

After 3 missed classes the semester signature is automatically denied, there is no possibility to make up for the missed classes.

Exam topics/questions

A submitted 2500-word long essay (the student will have the choice of one title out of an offer of 3-5 titles proposed, and the essay will be written, in English, by the student over a period of two weeks, and submitted for marking by academic staff).

Examiners

Instructor / tutor of practices and seminars