SHUA11001U Course in Molecular Biology and Genetics

Volume 2014/2015
Education
MSc in Human Biology - compulsory
Content
To give students a thorough understanding of gene structure, gene expression and regulation, and mechanisms fundamental to cell differentiation
Learning Outcome

At the end of the course, the student should be able to:

  • Present the theoretical molecular biological knowledge needed to understand the structure and regulation of genes, particularly in relation to the human organism
  • Present theoretical human genetic knowledge to an extent enabling him or her to understand the association between the gene at the molecular level and pathologies caused by gene mutations, their diagnosis and treatment (gene therapy)
  • Present the molecular biology knowledge needed to understand molecular biology issues and basic gene technology procedures and the fundamental principles of biotechnological production methods
  • Master the practical skills needed to plan and execute fundamental gene technology procedures.
  • Critically interpret molecular biological results
Lectures and laboratory exercises
The courses "Molecular Biology and Genetics", Advanced Cell Biology" and Bioinformatics and Systems Biology" have to be passed before registration for the exam "Exam in Molecular Biology and Genetics and Advanced Cell Biology".

The student's total workload is stated in "Exam in Molecular Biology and Genetics and Advanced Cell Biology".
  • Category
  • Hours
  • Exam
  • 0
  • Total
  • 0
Credit
0 ECTS
Type of assessment
Course participation
Written assignment
Course attestation is made on the basis of approved participation records and approved exercise reports.
Aid
All aids allowed
Marking scale
passed/not passed
Censorship form
No external censorship
One internal examiner
Criteria for exam assesment

To attain the course attestation, the student shall be able to:

  • Present the theoretical molecular biological knowledge needed to understand the structure and regulation of genes, particularly in relation to the human organism.
  • Present theoretical human genetic knowledge to an extent enabling him or her to understand the association between the gene at the molecular level and pathologies caused by gene mutations, their diagnosis and treatment (gene therapy).
  • Present the molecular biology knowledge needed to understand molecular biology issues and basic gene technology procedures and the fundamental principles of biotechnological production methods.
  • Master the practical skills needed to plan and execute fundamental gene technology procedures.
  • Critically interpret molecular biological results.