Universitat Internacional de Catalunya

Cell Biology II

Cell Biology II
4
13471
1
Second semester
FB
BIOLOGY
Main language of instruction: Spanish

Other languages of instruction: Catalan, English

Teaching staff


Dr. BOSCH PITA, Miguel - miquelbosch@uic.es


Students are welcomed to consult lecturers at the end of each class. For enquiries outside of class, students can email or make an appointment by email to the course coordinator: Miquel Bosch (miquelbosch@uic.es)

Introduction

In the event that the health authorities announce a new period of confinement due to the evolution of the health crisis caused by COVID-19, the teaching staff will promptly communicate how this may effect the teaching methodologies and activities as well as the assessment.


Cells do not live in isolation: they have evolved a variety of signalling mechanisms to accomplish the transmission of biological information. Cell signalling is an up-and-coming area of biomedical investigation that is gaining prominence due to advances in biophysical methods and their integration with molecular biology, biochemistry and genetics.

The course focus on cell communication. As such, it offers an overview on how cells exploit signalling components to assemble the specific biological pathways, which they ultimately require to communicate which one other and adapt to the outside environment.

Pre-course requirements

No prerequisite course required; however, knowledge concepts of molecular and cell biology from the previous modules are strongly advised.

Objectives

The aim of this course is to provide the knowledge on basic and health-related cell signalling. After course completion, the student will understand the main signalling pathways governing the transmission of cellular messages, as well as biochemical and molecular aspects associated with information transmission.

Competences/Learning outcomes of the degree programme

  • Understand and recognize the effects, mechanisms and manifestations of cell communication on cellular functions.
  • Transmit in a clear and unambiguous way to a specialised or non-specialised audience, the results of scientific and technological research projects and innovation from the field of the most advanced innovation, as well as the most important concepts which they are based on.
  • Understand, critically evaluate and know how to use sources of clinical and biomedical information to obtain, organize, interpret and communicate scientific and health care information.
  • Be able to formulate hypotheses, collect and critically evaluate information for problem solving using the scientific method.
  • Ability for critical thinking, creativity and constructive skepticism with a focus on research within professional practice.

Learning outcomes of the subject

At the completion of this course, students will be able to:

• Identify and summarize the key principles of cell communication.

• Apply main concepts of cell signalling to draw conclusions from research literature to case studies.

• Review the relevant literature to position the proposed study within the existing research.

• Elaborate information from scientific literature into effective and informative oral scientific presentations.

Syllabus

Theme 1. General Principles of Cell Communication

Theme 2. Characterization of Signalling Components

Theme 3. Integration and Amplification of Signals

Theme 4. Receptors

Theme 5. Messengers

Theme 6. G-protein Signal Trasduction

Theme 7. cAMP

Theme 8. Serine/ Threonine Kinases/Phosphatases

Theme 9. Cell signalling and Calcium

Theme 10. Cell signaling and Apoptosis

Theme 11. Cell signalling in Translational Control and Protein Synthesis

Theme 12. Cell signalling in Neuroscience

Theme 13. Signalling Defects and Diseases

Teaching and learning activities

In blended



- Theory classes (lectures and cases): online (in streaming). Half of the students in the classroom and half of the students online. By using Collaborate on Moodle.  - Practical classes: face-to-face class in small groups. 

Bibliography and resources

Alberts B, et al. Molecular Biology of the Cell. 6th edition. Garland Science, 2015.

Alberts B. et al., Essential Cell Biology. Fourth edition (2013), or fifth edition (2018). Garland Science.

Lodish H, et al. Molecular Cell Biology. 7th edition Macmillan Learning, 2013 (8th edition, 2016).

Alberts, B et al. Biología Molecular de la Célula. 6ª edición. Ediciones Omega 2016.

Lodish et al. Biología Celular y Molecular. 7ª edición. Editorial Médica Panamericana S.A. 2016.

Evaluation period

E: exam date | R: revision date | 1: first session | 2: second session:
  • E1 25/05/2021 I3 11:00h
  • E2 21/06/2021 16:00h
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