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84277 - CELLULAR BIOLOGY AND GENETICS

Anno Accademico 2021/2022

  • Modalità didattica: Convenzionale - Lezioni in presenza
  • Campus: Bologna
  • Corso: Laurea Magistrale a Ciclo Unico in Medicine and surgery (cod. 9210)

Conoscenze e abilità da conseguire

Define the structural components of eukaryotic cells including the membrane, organelles and cytoskeleton. Describe fundamental cellular processes, including cell movement, targeting and trafficking, cell-cell communication, cell cycle, cell division, and apoptosis. Describe the structure and function of chromosomes and genomes. Recognize the pattern of transmission of hereditary characters and exceptions to mendelian inheritance. Identify the types, causes and biological consequences of genetic variation. Explain the relationship between genetic, physical, and cytogenetic maps. Apply the principles of population genetics to calculate genotype and allele frequencies.

Contenuti

  1. Introduction to Biology. Biology in Medicine.
  2. Properties of living systems.
  3. Prokaryotic and Eukaryotic cells. Basic components of the cells.
  4. Analyzing cells, molecules and systems. "Omics" in the biomedical science.
  5. The biological logic of the cell membrane.
  6. The nucleus: structure.
  7. The nucleus: functions.
  8. Endoplasmic reticulum (ER).
  9. Golgi apparatus.
  10. Mitochondrion.
  11. Protein sorting.
  12. Intracellular membrane traffic 1. Vesicles. ER.
  13. Intracellular membrane traffic 2. Golgi. Exocytosis. Endocytosis.
  14. Lysosomes. Autophagy.
  15. Cell cycle.
  16. Cell cycle control.
  17. Cell division: mitosis.
  18. Cell differentiation.
  19. Cell death.
  20. Meiosis.
  21. DNA, chromosomes and genome
  22. Genes and genome organization
  23. Control of gene expression
  24. Genome variability
  25. Gene mutations
  26. Chromosomal abnormalities
  27. Polyploidy and aneuploidy.
  28. Trisomy 21. Mechanisms.
  29. Trisomy 21. Genotype and Phenotype.
  30. Trisomy 21. Research.
  31. Mendel’s Laws of Heredity
  32. Autosomal dominant and recessive traits
  33. X-linked traits
  34. Exceptions to Mendelian disorders
  35. Multifactorial inheritance
  36. Population genetics

Testi/Bibliografia

Lectures will be based on relevant peer-reviewed papers and selected chapters from:

Alberts et al. Essential Cell Biology. Norton, Fifth edition, 2019.

Strachan and Read, Human Molecular Genetics. Garland Science, Fifth edition, 2018.

Teaching material and slides are made available to students via the Virtuale platform.

Metodi didattici

The teaching will be carried using PowerPoint presentation and interactive use of dedicated databases and softwares during the teaching hours.

Attendance Requirements

Attendance to this learning activity is mandatory; the minimum attendance requirement to be admitted to the final exam is 60% of lessons. For Integrated Courses (IC), the 60% attendance requirement refers to the total amount of I.C. lessons. Students who fail to meet the minimum attendance requirement will not be admitted to the final exam of the course and will have to attend relevant classes again during the next academic year. Professors may authorize excused absences upon receipt of proper justifying documentation, in case of illness or serious reasons. Excused absences do not count against a student’s attendance record to determine their minimum attendance requirement.

Modalità di verifica e valutazione dell'apprendimento

Cellular Molecular Biology and Genetics (I.C.)

Cellular Biology and Genetics + Lab: the final examination consists of an oral dissertation (two questions randomly selected) to assess achievement of the skills detailed in the learning outcomes. The student is asked to demonstrate skills in terms of synthesis, analysis and critical appraisal of the topics covered in the course.

Molecular Biology: the students will be evaluated by oral exams on the basis of two or more questions on the topics described during the course. The first question/topic will be chosen by the student, whereas the other questions/topics will be chosen by the Professor

The final mark will be determined as weighted average mark (weights are the relative course credits).

E.g.

Cellular Biology and Genetics + lab (7+1 credits): 27/30

Molecular Biology (2 credits): 30/30

Weighted average mark: (27*8)+(30*2) / 10 = 27.6

Final mark: 28/30

For more info: https://www.unibo.it/en/teaching/course-timetable-and-exams/about-exams

Strumenti a supporto della didattica

PowerPoint presentations, interactive use of dedicated databases and softwares.

E-learning material (including scientific literature and self-assessment tools) will be provided.

Orario di ricevimento

Consulta il sito web di Maria Chiara Pelleri