Prerequisite: BIO101
Cell Biology (BIO201) explores the mechanisms that cells use to communicate with their
environment, produce force to move, acquire or lose identity in normal and pathological contexts,
and organise during the development of an embryo. The course focuses on human cells, and
emphasis is placed on human diseases where appropriate. The course alternates lectures,
tutorials, and practical sessions of laboratory work. The intention is to allow students to develop
their knowledge in the subject area, to acquire sound scientific reasoning, and to become familiar
with the main techniques of modern cell biology, like quantitative microscopy imaging and
computer-assisted data analysis.
Cell Biology (BIO 201) introduces students to the mechanisms that cells use to regulate the physical properties of their dynamic architecture, to produce force and move, to compartmentalize and transport proteins, to regulate growth and death, and to communicate with their environment. The course focuses on human cells, and emphasis is placed on human diseases where appropriate. Upon course completion, students have a comprehensive understanding of the function and architecture of cells.
Because experimentation is at the heart of progress in cell biology, 50% of classes contain practical work, completed over the course of the semester. The intention is to allow students to develop their knowledge in the subject area, to acquire sound scientific reasoning, and to become familiar with the main techniques of modern cell biology, like quantitative microscopy imaging and computer-assisted data analysis.
- Teaching coordinator: Chessel Anatole
- Teaching coordinator: Escot Sophie
- Teaching coordinator: Le Clainche Christophe
Prerequisite: BIO201
Molecular Genetics (BIO202) provides
an in-depth understanding of the mechanisms
by which living organisms store,
express and transmit genetic information
and the basis of human genetic diseases.
Lectures will cover a range of topics,
including the molecular aspects of DNA
replication and transcription, translation
of RNA into protein and gene regulations.
This course will also cover the latest
methodologies used in genomics analysis,
like DNA sequencing.
Because experimentation is at the heart
of progress in cell biology, 50% of classes
contain practical work, completed over
the course of the semester. The intention
is to allow students to develop their
knowledge in the subject area, to acquire
sound scientific reasoning, and to combine
the modern techniques in molecular
genetics with computer-assisted data
analysis.
Molecular Genetics (BIO 202) provides an in-depth understanding of the mechanisms by which living organisms store, express and transmit genetic information and the basis of human genetic diseases. Lectures will cover a range of topics, including the molecular aspects of DNA replication and transcription, translation of RNA into protein and gene regulations. This course will also cover the latest methodologies used in genomics analysis, like DNA sequencing. Because experimentation is at the heart of progress in cell biology, 50% of classes contain practical work, completed over the course of the semester. The intention is to allow students to develop their knowledge in the subject area, to acquire sound scientific reasoning, and to combine the modern techniques in molecular genetics with computer-assisted data analysis.
- Teaching coordinator: Defossez Pierre-Antoine
- Teaching coordinator: Escot Sophie
- Teaching coordinator: James John