CSM News Electronic Edition Volume 4, number 19 May 27, 1995 Please submit abstracts of your papers as soon as they have been accepted for publication by sending them to CSM-News@worms.cmsbio.nwu.edu. Back issues of CSM-News, the CSM Reference database and other useful information is available by anonymous ftp from worms.cmsbio.nwu.edu [165.124.233.50], via Gopher at the same address, or by World Wide Web at the URL "http://worms.cmsbio.nwu.edu/dicty.html" =========== Abstracts =========== Cell-cycle progression during the development of Dictyostelium discoideum and its relation to the subsequent cell-sorting in the multicellular structures Tsuyoshi Araki and Yasuo Maeda Biological Institute, Faculty of Science, Tohoku University, Aoba, Sendai 980-77, JAPAN Development Growth and Differentiation, in press ABSTRACT Previous studies have shown that the cell-cycle phase at the onset of starvation is a naturally-occurring variable that is closely involved in the subsequent sorting and differentiation of cells during Dictyostelium development. Here the cell-cycle progression during the development of D. discoideum Ax-2 cells and its relation to the subsequent cell-sorting were analyzed in detail using synchronized cells and their pulse-labeling by 5'-bromodeoxyuridine (BrdU). Measurements of cell number and nuclearity provided evidence that about 80% of cells progressed their cell-cycle after formation of multicellular structures (mounds). Many of cells (T7 cells) starved at mid-late G2-phase (just before the PS-point from which cells initiate development when starved) progressed the cell-cycle after mound formation. In contrast, a fewer number of cells (T1 cells) starved at late G2-phase (just after the PS-point) progressed the cell-cycle after mound formation. The significance of cell-cycle progression presented here is discussed, with reference to cell differentiation and pattern formation. ---------------------------------------------------------------------- The G protein beta-subunit is essential for multiple responses to chemoattractants in Dictyostelium Lijun Wu*@, Romi Valkema +, Peter J.M.Van Haastert+, and Peter N. Devreotes*++ *Dept. of Biological Chemistry, Johns Hopkins University, School of Medicine Baltimore, MD 21205 + Dept. of Biochemistry, University of Groningen, Nijenborgh 4, 9747 AG Groningen, The Netherlands, @ Present Address: LeukoSite, Inc., 215 First Street, Cambridge, MA 02142 J. Cell Biol., in press. ABSTRACT Increasing evidence suggests that the bg-subunit dimers of heterotrimeric G proteins play a pivotal role in transducing extracellular signals. The recent construction of Gb null mutants (gb-) in Dictyostelium provides a unique opportunity to study the role of bg-dimers in signaling processes mediated by chemoattractant receptors. We have shown previously that gb- cells fail to aggregate; in this study, we report the detailed characterization of these cells. The gb- cells display normal motility but do not move towards chemoattractants. The typical GTP-regulated high affinity chemoattractant binding sites are also lost in gb- cells and membranes. The gb- cells do not display chemoatrractant-stimulated adenylyl cyclase or guanylyl cyclase activity. These results show that in vivo Gb links chemoattractant receptors to effectors and is therefore essential in many chemoattractant-mediated processes. In addition, we find that Gb is required for GTPgS stimulation of adenylyl cyclase activity, suggesting that it activates the enzyme directly. Interestingly, the gb- cells grow at the same rate as wild-type cells in axenic medium but grow more slowly on bacterial lawns and, therefore, may be defective in phagocytosis. -------------------------------------------------------------------- [End CSM News, volume 4, number 19]