I've seen this in yeast stained with sytox green ( the fluorescence beyond the G2 peak) and gated on FL1A vs FL1W. It may be that the yeast, instead of dividing after G2 are going through another replication of DNA. Jane Miller, Dept. MIcro. Mole. Path., TX A&M Hlth. Sci. Ctr., College Station, TX 77843 >>> Alicia Bicknell <aware@biomail.ucsd.edu> 1/6/2006 10:15 AM >>> I am very new to flow cytometry and still trying to figure out some basic things. I am investigating certain aspects of the yeast cell cycle. I am fixing cells in 70% ethanol and staining with styox green. Prior to staining, I sonicate at 30% for 15 seconds. I find that this amount of sonication is sufficient to disrupt all doublets in a normal untreated wild type population, so there is no need to gate on singlets in a FL1A vs FL1W graph. When I add a certain drug, I detect G2/M phase arrest in my cells. However, I also detect a significant amount of high fluorescence cells after the drug is added. If I gate on what should be singlets in my population, these high fluorescence cells are eliminated, but I'm not entirely convinced that those high fluorescence cells are, in fact, cells sticking together, so I don't feel confident that it is okay to gate them out. Might these high fluorescent cells also be apoptotic cells that are taking in MORE dye because they are already permeable prior to fixation? Any ideas on how to test this? The only idea I have is to use a vital DNA dye + the sytox green (in this case, I would not fix the cells). Has anybody had any luck doing an experiment like this? I should note that all of the below graphs contain only "live" cells as determined by forward and side scatter. Thanks in advance for any insights, Alicia Bicknell UntreatedReceived on Mon Jan 9 11:18:00 2006
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