Kurskatalog forskarutbildning - HT18

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Titel Functional Fluorescence Microscopy Imaging (fFMI) in biomedical research
Kursnummer 2348
Program Allergi, immunologi och inflammation (Aii)
Språk Engelska
Antal högskolepoäng 3.0
Datum 2018-11-19 -- 2018-11-30
Kursansvarig institution Institutionen för klinisk neurovetenskap
Särskild behörighet
Kursens syfte This course is on advanced fluorescence microscopy imaging and spectroscopy techniques for quantitative characterization of molecular transport and interactions in cells. The purpose of the course is to give an introduction of the underlying physicochemical principles, hands-on experience and an overview of applications of these specialized techniques in biomedical research. The course is suitable for doctoral students lacking training in mathematics, physics, or optical engineering but want to apply these techniques in their research.
Kursens lärandemål At the end of the course the student will have hands-on experience with live cell imaging and specialized fluorescence microscopy and spectroscopy techniques and is expected to be able to:
1. Use fundamental aspects of molecular structure to describe light-matter interactions and the emission of fluorescence; use this knowledge to discuss fluorescent properties of a fluorophore.
2. Understand the buildup of fluorescence imaging instrumentation, identify different optical elements and describe their function.
3. Describe the theoretical background behind specialized fluorescence based methodologies for studying molecular interactions in live cells. Discuss pros and cons in relation to the biological problem studied.
4. Specify instrumental requirements and design a fluorescence imaging assay for a biological problem of interest.
5. Apply a specific labeling strategy and perform a fluorescence imaging assay.
6. Communicate the results in written and oral form.
7. Discuss the adequateness of the methodology used in the scientific literature concerned.
Kursens innehåll Fluorescence microscopy and associated techniques are indispensable research tools for investigating molecular mechanisms of biological processes. Versatility of fluorescence microscopy based techniques comes from the possibility to characterize fluorescence emission by spatial position, intensity, wavelength, lifetime and polarization. In addition, fluorescence microscopy and spectroscopy based techniques allow us to quantitatively study the cellular dynamics of molecules and the kinetics of their interaction with high spatio-temporal resolution and ultimate, single-molecule sensitivity. These techniques bring new biological insight at an unprecedented rate and are of crucial importance for the development of life sciences. The course covers the following topics: Luminescence and the nature of light (Fluorescence, Phosphorescence, Light scattering); Fluorescent markers and their photo-physical properties (Organic fluorescent dyes for covalent conjugation (Rhodamine 6G, Alexa dyes, Cyanine dyes); Quantum dots; Intrinsically Fluorescent Proteins (Aequorea victoria (GFP, YFP), Discosoma coral (DsRFP) and Montipora (Keima) families); Selectively binding dyes (DiI, DraQ 5). Instrumentation for Confocal Laser Scanning Microscopy (CLSM): Light sources, Optical Elements, Objectives, Detectors, Read-out devices); Quantization and Sensitivity in fluorescence imaging (Instrumental sensitivity, Method sensitivity, Absolute sensitivity); Factors affecting quantitative accuracy. Point Spread Function; Spatially resolved fluorescence imaging: Multi-photon excitation, Total Internal Reflection Fluorescence (TIRF) Microscopy, Super-resolution techniques (STORM, PALM and STED). Fluorescence based methods for studying molecular diffusion and interactions in live cells (FRAP, FRET, FLIM, FCS, FCCS, RICS). Image analysis techniques for quantitative characterization of cell phenotypes (CellProfiler).
Arbetsformer The course includes lectures, laboratory training, demonstrations, discussion sessions and short written assignments.
Obligatoriska moment All sessions are compulsory. Please report any absence to the course leader in advance by e-mail. Absence from any part of the course (lectures, laboratory sessions, discussion sessions and exam) is generally not accepted but could in special cases be compensated by an individually tailored additional module and a special written examination organized by the course committee.
Examination The final assignment consists of a written project report (5 pages) and an oral presentation of the project report (15 min).
Kurslitteratur och övriga läromedel Recommended literature: Selected chapters from: Joseph R. Lakowicz, Principles of Fluorescence Spectroscopy, Springer, 2006. Pawley, James (Ed.) Handbook of Biological Confocal Microscopy, Springer, 3rd edition, 2006. On-line virtual microscopy interactive tutorials: http://www.olympusconfocal.com/java/index.html https://www.microscopyu.com/tutorials http://zeiss-campus.magnet.fsu.edu/tutorials/index.html http://bitesizebio.com/category/technical-channels/microscopy-imaging/ Fluorescence Correlation Spectroscopy (FCS) and Fluorescence Cross-Correlation Spectroscopy (FCCS) http://fcsxpert.com/classroom/ Handouts: Scientific papers with related methodology.
Antal studenter 8 - 12
Urval av studenter Selection will be based on 1) the relevance of the course syllabus for the applicant's doctoral project (according to written motivation), 2) date for registration as a doctoral student (priority given to earlier registration date).
Övrig information This is a two-week course with 10 sessions that include: lectures, laboratory practice, hands-on training, written assignments, discussions, and time for self-study. The first week focuses on underlying physicochemical principles, instrumentation and hands-on training at the microscope. During this week, specialized techniques are introduced and the details are discussed in the context of a broader body of available techniques. The second week is dedicated to expert lectures on advanced applications and hands-on image analysis. The last session is reserved for assessment. Experimental exercises are carried out in the laboratory for Functional Fluorescence Microscopy Imaging (fFMI) at the Center for Molecular Medicine (CMM), Solna, L5:02, 020a. Lectures are conducted in the seminar room at the Center for Molecular Medicine (CMM), Solna, L8:01, 021.
Ytterligare kursledare
Tidigare omdöme av kursen omdöme
Kursansvarig Vladana Vukojevic
Institutionen för klinisk neurovetenskap
51771797
Vladana.Vukojevic@ki.se

CMM L8:01

17176
Stockholm
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