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Design and evaluation of a microfluidic system for inhibition studies of yeast cell signaling

Författare och institution:
Charlotte Hamngren Blomqvist (Institutionen för teknisk fysik, Eva Olsson Group, Chalmers & SuMo Biomaterials, Chalmers); Peter Dinér (-); Morten Grøtli (Institutionen för kemi och molekylärbiologi); Mattias Goksör (Institutionen för fysik (GU)); Caroline B. Adiels (Institutionen för fysik (GU))
Publicerad i:
Proceedings of SPIE - The International Society for Optical Engineering. Optical Trapping and Optical Micromanipulation IX, San Diego, 12-16 August 2012, 8458
ISBN:
978-08-19-49175-6
ISSN:
0277-786X
Publikationstyp:
Konferensbidrag, refereegranskat
Publiceringsår:
2012
Språk:
engelska
Fulltextlänk:
Fulltextlänk (lokalt arkiv):
Sammanfattning (abstract):
In cell signaling, different perturbations lead to different responses and using traditional biological techniques that result in averaged data may obscure important cell-to-cell variations. The aim of this study was to develop and evaluate a four-inlet microfluidic system that enables single-cell analysis by investigating the effect on Hog1 localization post a selective Hog1 inhibitor treatment during osmotic stress. Optical tweezers was used to position yeast cells in an array of desired size and density inside the microfluidic system. By changing the flow rates through the inlet channels, controlled and rapid introduction of two different perturbations over the cell array was enabled. The placement of the cells was determined by diffusion rates flow simulations. The system was evaluated by monitoring the subcellular localization of a fluorescently tagged kinase of the yeast "High Osmolarity Glycerol" (HOG) pathway, Hog1-GFP. By sequential treatment of the yeast cells with a selective Hog1 kinase inhibitor and sorbitol, the subcellular localization of Hog1-GFP was analysed on a single-cell level. The results showed impaired Hog1-GFP nuclear localization, providing evidence of a congenial design. The setup made it possible to remove and add an agent within 2 seconds, which is valuable for investigating the dynamic signal transduction pathways and cannot be done using traditional methods. We are confident that the features of the four-inlet microfluidic system will be a valuable tool and hence contribute significantly to unravel the mechanisms of the HOG pathway and similar dynamic signal transduction pathways.
Ämne (baseras på Högskoleverkets indelning av forskningsämnen):
NATURVETENSKAP ->
Fysik
Nyckelord:
Microfluidics, Optical manipulation, Signal transduction pathways, Single-cell analysis
Postens nummer:
172029
Posten skapad:
2013-01-23 11:19
Posten ändrad:
2016-09-27 11:05

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