Flow cytometry-based purification of S. cerevisiae zygotes.

Autor: Zapanta Rinonos S; Department of Pathology, Case Western Reserve University School of Medicine, OH, USA., Saks J, Toska J, Ni CL, Tartakoff AM
Jazyk: angličtina
Zdroj: Journal of visualized experiments : JoVE [J Vis Exp] 2012 Sep 21 (67), pp. e4197. Date of Electronic Publication: 2012 Sep 21.
DOI: 10.3791/4197
Abstrakt: Zygotes are essential intermediates between haploid and diploid states in the life cycle of many organisms, including yeast (Figure 1) (1). S. cerevisiae zygotes result from the fusion of haploid cells of distinct mating type (MATa, MATalpha) and give rise to corresponding stable diploids that successively generate as many as 20 diploid progeny as a result of their strikingly asymmetric mitotic divisions (2). Zygote formation is orchestrated by a complex sequence of events: In this process, soluble mating factors bind to cognate receptors, triggering receptor-mediated signaling cascades that facilitate interruption of the cell cycle and culminate in cell-cell fusion. Zygotes may be considered a model for progenitor or stem cell function. Although much has been learned about the formation of zygotes and although zygotes have been used to investigate cell-molecular questions of general significance, almost all studies have made use of mating mixtures in which zygotes are intermixed with a majority population of haploid cells (3-8). Many aspects of the biochemistry of zygote formation and the continuing life of the zygote therefore remain uninvestigated. Reports of purification of yeast zygotes describe protocols based on their sedimentation properties (9); however, this sedimentation-based procedure did not yield nearly 90% purity in our hands. Moreover, it has the disadvantage that cells are exposed to hypertonic sorbitol. We therefore have developed a versatile purification procedure. For this purpose, pairs of haploid cells expressing red or green fluorescent proteins were co-incubated to allow zygote formation, harvested at various times, and the resulting zygotes were purified using a flow cytometry-based sorting protocol. This technique provides a convenient visual assessment of purity and maturation. The average purity of the fraction is approximately 90%. According to the timing of harvest, zygotes of varying degrees of maturity can be recovered. The purified samples provide a convenient point of departure for "-omic" studies, for recovery of initial progeny, and for systematic investigation of this progenitor cell.
Databáze: MEDLINE