Flow Cytometry Introduction - Malte Paulsen (EMBL)
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- เผยแพร่เมื่อ 19 พ.ค. 2024
- www.ibiology.org/techniques/i...
This video provides an excellent introduction to flow cytometry. Dr. Malte Paulsen covers the basic principles of the technique including fluidics, optics and data display.
Talk Overview:
Dr. Malte Paulsen gives an introduction to flow cytometry with an excellent explanation of the basic principles governing the technique. He explains how fluid flow is used to focus a sample in a laser beam. Light from the laser is scattered by cells in the sample and the degree of scatter provides information about the cell’s optical density and other characteristics. In conventional flow cytometry, lasers are used primarily to excite fluorescent antibodies bound to specific cell types. A detector with different filters allows specific wavelengths to be dissected from the overall fluorescence. This signal can then be displayed in ways that provide the most information about the cell type of interest.
Speaker Biography:
Dr. Malte Paulsen has been Head of the Flow Cytometry Core Facility at EMBL since 2015. Prior to joining EMBL, Paulsen was Head of the flow cytometry facilities first at Institute for Molecular Biology (IMB) in Mainz, and later at the National Heart and Lung Institute, Imperial College, London. Paulsen received his PhD from the German Cancer Research Center and the University of Heidelberg in 2011. - วิทยาศาสตร์และเทคโนโลยี
Personally speaking it's the best flow cytometry introductory video so far. The mechanisms are explained in a clear yet informative way. Details like channel resolution, flow structure etc are included which is scarce in other similar videos. Thanks!
Watched a lot of videos before coming across yours, and now i can finally sat I understand how it works. Thank you keep making great content like this.
Thank you iBiology and Dr. Paulsen for this very useful and information-rich video!
I watched this when I was learning flow and continue to send it to other grad students. Such a great video!
Thank you for the great explaination!
Very well covered! Great to learn a bit more of the fundamentals of it beyond just going through the motions of using it
Really nice and clear explanation. Congratulation. Looking forward for a video into multiparametric analysis of data
it is very informative and simpified. many thanks malte
Excellent video. I wish the one was released in 2010 when I started my PhD. Had I seen this one, I would had not made so many avoidable mistakes.
thank you, this was very helpful
Dang! That was fascinating and scarily understandable, thank you!!!
Excellent video
I loved this video, it's very nicely explained and the animations are great. Just one minor comment that 2^4 goes to 16 channels. Thanks for sharing 💕
Great information and video
SO nice and helpful
awesome mate. Thanks
Very nice video! Thanks!
Awesome video! Subtitle required. I can't find Auto-subtitle option.
great video
well done!
Thank you
Super informative video! Just wondering but isn't it 45 bivariate combinations with 10 antibodies?
The cell orientation doesn't affect the scattering? Or are the cells oriented in somehow? Maybe I missed something.
GREAT!
Amazing
Can we apply two different lazers (e.g., FITC and PE) at the same time to excite cells, and then detect and sort only cells that are exicted by both lazers, and get data from computer?
This would be the same effect by Image J. (e.g. Getting FITC and PE images, respectively from fluorescence microscope and then merge them, which generates yellow pseudo color)
Many thanks for great explanation but
Can I have a question?
What does the colors of the dots indicate (as in 28:55). Is it the density? Like the number of cells in red area will higher than yellow one, and yellow > green > blue right?
sorry for my poor english
Awesome vedieo
Thanks Sir you and your video is very nice. Your explanation method is best. Sir please explain between PE-CD4 and FITC-CD3 .
PE is a fluorophore that fluoresces at ~580 nm
FITC is a fluorophore that fluoresces at ~500 nm
CD4 is a helper T cell marker. Functionally, it is the TCR coreceptor for helper T cells
CD3 is a T cell marker. Functionally, it makes up the signalling part of TCR complexes
Hyphens indicate covalent linkage. I guess it would be more correct to say PE-αCD4 and FITC-αCD3 to show that these are antibodies for these cell markers.
A question, In the Hydrodynamic focusing, Is the sheath fluid merging with the blood sample (which already diluted) if yes, then the dilution ratio will be changed? and if no, How they are not merging ! TIA
I am not completely sure but I think they don't cuz the idea of hydrodynamic focusing is to kind of create a channel based on the sheath fluid. This is what I found in Wikipedia: "The sample is injected into the middle of the sheath flow. If the two fluids differ enough in their velocity or density, they do not mix: they form a two-layer stable flow."
www.google.com/url?sa=t&source=web&rct=j&url=expertcytometry.com/fluidics/&ved=2ahUKEwju44b8x_7jAhUto1kKHRzWCEgQFjAQegQICRAB&usg=AOvVaw1ePLa1Lp5dRhmX4D-3Pzi9 ok no they don't mix, confirmed hahaha
dilution/not-dilution makes no difference. The cells will be assessed as they go through the laser and that is the info you need.
one size FITC all
Mn wojoohahom ta3refoonahom. Even their dialogue.. No need for cytometry