Written by students who passed Immediately available after payment Read online or as PDF Wrong document? Swap it for free 4.6 TrustPilot
logo-home
Summary

Summary, Live cell Imaging - MSc Neuroscience VU Amsterdam

Rating
-
Sold
-
Pages
164
Uploaded on
11-10-2025
Written in
2025/2026

Complete, very extensive summary of live cell imaging I received a 9.0 as a grade. PS. See also all my other summaries + reviews * the background movies are not included in this summary

Institution
Course

Content preview

MSc Neurosciences, VU University Amsterdam, Live Cell Imaging


Summary, Live Cell Imaging

Table of Contents
Background Movies Related to Lectures ............................................................................. 4
Characteris*cs of light ................................................................................................................. 4
Fluorescence ............................................................................................................................... 5
Point spread func*on .................................................................................................................. 5
Resolu*on ................................................................................................................................... 5
Fluorescent proteins.................................................................................................................... 5
Lecture 1, Introduc:on to fluorescence microscopy - Ruud Toonen ...................................... 6
Why use light?............................................................................................................................. 6
Op*cs........................................................................................................................................ 10
Fluorescence ............................................................................................................................. 14
Principle of fluorescence microscopy ......................................................................................... 16
Fluorescent molecules and proteins .......................................................................................... 19
Lecture 2, Building a LaCce lightsheet – Maxime Malivert ............................................... 25
Knowledge and technology gap ................................................................................................. 26
How to op*mally acquire an imaging volume? .......................................................................... 28
Light-sheet microscopy .............................................................................................................. 29
Endogenous protein labeling tools ............................................................................................ 33
Thick *ssue imaging from qm to nm resolu*on ......................................................................... 35
Superresolu*on imaging ........................................................................................................... 43
Lecture 3, Superresolu:on microscopy – Harold MacGillavry ............................................ 47
Photoac*vatable or photoconver*ble fluorophores (PALM) ...................................................... 54
Stochas*c switching of small organic fluorescent dyes (STORM) ................................................ 57
Points accumula*on for imaging in nanoscale topography (PAINT) ............................................ 61
Lecture 4, In vivo imaging – Angela Getz .......................................................................... 65
1. Biosensors (to observe neuronal ac*vity) .............................................................................. 66
Biosensor imaging – Calcium ....................................................................................................................... 66
Biosensor imaging – Glutamate ................................................................................................................... 72
Biosensor imaging – membrane poten9al / voltage .................................................................................... 77
2. Op*cal tools (to control neuronal ac*vity)............................................................................. 78
Op9cal tools – Rhodopsin family ................................................................................................................. 79
Op9cal tools – photoac9vatable kinases ..................................................................................................... 79
Op9cal tools – photoac9vatable kinase inhibitors ....................................................................................... 80
Op9cal tools - Dimerizers ............................................................................................................................. 81
3. Advanced protein labeling techniques (to observe molecules) ............................................... 82
Direct protein labeling – self-reac9ng enzymes ........................................................................................... 87

, MSc Neurosciences, VU University Amsterdam, Live Cell Imaging

Direct protein labeling – gene9c code expansion & click chemistry............................................................ 88

Lecture 5, Superresolu:on Live cell imaging – Max Koppers ............................................. 89
S*mulated emission deple*on (STED) ....................................................................................... 90
MINFLUX: nanometer resolu*on imaging .................................................................................. 91
Structured illumina*on microscopy (SIM).................................................................................. 92
Total internal reflec*on fluorescence (TIRF)-SIM ....................................................................... 93
Grazin incidence (GI)-SIM .......................................................................................................... 93
Airyscane -confocal microscope ................................................................................................. 94
Instant SIM (iSIM) ..................................................................................................................... 94
SoRa spinning disc ..................................................................................................................... 95
Lecture 6, Single Vesicle Imaging – Ruud Toonen .............................................................. 97
Imaging vesicle dynamics at the membrane à TIRF .................................................................. 98
Visualisa*on of synap*c vesicle cycling ................................................................................... 108
Imaging of synap9c vesicle cycle with FM dyes ......................................................................................... 109
pHluorin: a pH sensi9ve variant of GFP ..................................................................................................... 113

Lecture 8, FRAP – Jurjen Broeke ...................................................................................... 119
Lecture 9, Image J – Jurjen Broeke (not part of exam) ..................................................... 129
Lecture 10, In vivo 2 photon imaging – Chris:an Lohmann ............................................. 133
Labelling neurons with fluorescent dyes .................................................................................. 134
2-photon microscopy .............................................................................................................. 136
Choice of indicators ................................................................................................................. 138
Quan*fica*on of op*cal signals .............................................................................................. 142
Lecture 11, Optogene:cs – Wilco Nijenhuis .................................................................... 146
Neuronal optogene*cs: A tale of algal phototaxis, structural biology and fiber op*c cables..... 147
Non-neuronal optogene*cs, the only limit is our crea*vity...................................................... 158



Exam
- Wri@en exam
- Open quesDons on topics addressed during lectures
- One quesDon (a-d) per lecture
- SomeDmes you need to draw!!
- 10 mulDple choice quesDons (most are open quesDons!)
- Level of difficulty is fine

PracDcal informaDon:
- The day before the lecture, you have the slides
- You don’t need to be present every day during the pracDcal weeks

Written for

Institution
Study
Course

Document information

Uploaded on
October 11, 2025
Number of pages
164
Written in
2025/2026
Type
SUMMARY

Subjects

$28.19
Get access to the full document:

Wrong document? Swap it for free Within 14 days of purchase and before downloading, you can choose a different document. You can simply spend the amount again.
Written by students who passed
Immediately available after payment
Read online or as PDF

Get to know the seller

Seller avatar
Reputation scores are based on the amount of documents a seller has sold for a fee and the reviews they have received for those documents. There are three levels: Bronze, Silver and Gold. The better the reputation, the more your can rely on the quality of the sellers work.
lvd26 Vrije Universiteit Amsterdam
Follow You need to be logged in order to follow users or courses
Sold
120
Member since
4 year
Number of followers
42
Documents
47
Last sold
1 month ago
Biomedical Sciences & Neurosciences

NOTE: my summaries are very extensive, they contain all the material. Therefore, you should start studying them early as they often contain over 100 pages! One schoolbook is often way more expensive than 1 year of summaries from me!

4.7

49 reviews

5
40
4
4
3
4
2
1
1
0

Why students choose Stuvia

Created by fellow students, verified by reviews

Quality you can trust: written by students who passed their tests and reviewed by others who've used these notes.

Didn't get what you expected? Choose another document

No worries! You can instantly pick a different document that better fits what you're looking for.

Pay as you like, start learning right away

No subscription, no commitments. Pay the way you're used to via credit card and download your PDF document instantly.

Student with book image

“Bought, downloaded, and aced it. It really can be that simple.”

Alisha Student

Working on your references?

Create accurate citations in APA, MLA and Harvard with our free citation generator.

Working on your references?

Frequently asked questions