Dit vak wordt in het Engels aangeboden. Omschrijvingen kunnen daardoor mogelijk alleen in het Engels worden weergegeven.
Doel vakThis course aims to introduce modern techniques in the integrated
Neurosciences via hands-on experience. The course illustrates
experimental approaches to seek causal relationship between molecular
events, such as changes in gene-expression, gene-mutations,
protein-protein interactions, and effects of such events on the
functioning of cells, networks and the whole organism. The use of these
techniques is embedded in short research projects and typically covers a
number of steps: first clone a construct (a mutant protein, an
over-expression construct), than culture and tranfect a cell with this
construct and finally analyze a functional consequences of this
modification using functional assays. Alternatively, research projects
may also start with the intact brain and then work down to the molecular
networks of proteins and genes, for instance using proteomics
and mRNA expression profiling. Although centered around genomics, many
functional assays are offered, from electronmicroscopy and protein
chemistry to life cell imaging, electrophysiology and behavioural
analyses. Various tools and technologies will be explained in supporting
lectures and used in order to answer questions related to
the function of genes in the nervous system and how they contribute to
higher order processes important for functioning of circuitry or
Profound insight and experience with neurogenomic techniques that are
used during the course
Adequate design, execution, and interpretation of neurogenomics
experiments and conceptualisation of new working models (empirical
Adequate oral presentation (2 oral presentations)
Inhoud vakThis is a practical course. You will be executing a small research
project aimed at illustrating today's research into gene-function
relations and finding causal relationships between molecular events and
functional consequences at the cellular/network level. The experiments
involve gene expression analysis (transcripts, proteins), and genotypic
and phenotypic analysis (genotyping, cell biology, behavior).
Theoretical underpinning of concepts and methods will be achieved by
using examples from recent literature.
OnderwijsvormLectures, discussion of papers, demonstrations, practicals
16x8h practicals, presentations and discussion
4x8h self study
ToetsvormExamination and presentations of the work performed. Evaluation on the
basis of 2 oral presentations by the students and their performance
during the practical work and during (plenary) discussions.
Vereiste voorkennisThe Neurogenomics course (MN 1st year) is obligatory for
The number of participants is limited to 20. In case
of over-subscription, priority will be given to students in the
Fundamental Neuroscience track of the MSc Neurosciences programme.
LiteratuurArticles form journals that published in the last couple of months (2-4
Purves Neuroscience (5th edition) as reference book
Literature can be studied during the course and will be provided at the
start of the course.
Overige informatieE-mail: email@example.com
|Faculteit||Faculteit der Bètawetenschappen|
|Vakcoördinator||prof. dr. M. Verhage|
|Examinator||prof. dr. M. Verhage|
prof. dr. M. Verhage
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