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Septin Scaffolds and Cleavage Planes in Saccharomyces

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Presentation on theme: "Septin Scaffolds and Cleavage Planes in Saccharomyces"— Presentation transcript:

1 Septin Scaffolds and Cleavage Planes in Saccharomyces
John Chant  Cell  Volume 84, Issue 2, Pages (January 1996) DOI: /S (00)

2 Figure 1 Asymmetric Cell Division by Budding
The septin ring (orange) marks the future cleavage plane early in the cell cycle. Other important elements of cell division are illustrated, including the nucleus (blue), the actin cytoskeleton (red), and the microtubule cytoskeleton (green). (A) Late G1. (B) S phase. (C) M Phase (no nuclear envelope breakdown or condensation of chromosomes is easily observed in yeast) (D) Postmitosis. (E) Early G1/S of the next cell cycle. Cell  , DOI: ( /S (00) )

3 Figure 2 Septin and Neck Filament Structures
(a) The septin ring of yeast. Rings are visible in this field of several yeast cells. Rings are viewed edge on and therefore appear as lines (Cdc3p is shown). Figure courtesy of B. Haarer. (b) The neck filaments as observed by electron microscopy. An extreme closeup of the neck region of a mother–bud junction is shown. Figure courtesy of B. Byers (appears inByers 1981). Neck filaments are immediately beneath the plasma membrane, as indicated by arrows. (c) The septin ring of Drosophila cells. A tissue culture cell is shown in late mitosis. Similar staining is seen in cells of embryos Figure courtesy of T. P. Neufeld and G. M. Rubin (appears inNeufeld and Rubin 1994). Cell  , DOI: ( /S (00) )

4 Figure 3 The Axial and Bipolar Patterns of Cell Division
(A) The axial pattern. This pattern is produced by a cycle in which Bud3p (green) is brought to the neck by the existing septin ring (orange) and then directs the next round of axial budding, including a new septin ring, to occur next to the previous division site. The blue arrow represents the actions of Bud1p and Cdc42p GTPase modules and associated machinery. Panel 1 shows G1; septins polarize in response to polarity establishment machinery. Panel 2 shows S phase; septin ring remains encircling the mother–bud neck as the bud grows. Panel 3 shows G2/M; Bud3p accumulates in the mother–bud neck region in association with the septin ring. Cytokinesis splits this double ring structure. Panel 4 shows G1 of subsequent cell cycle; Bud3p, in association with the old septin rings, directs axial formation of buds and new septin rings. Bud3p and the old septin ring are lost. (B) The bipolar pattern. Cells are constrained to bud at the poles of their ellipsoidal shapes. Note that mother and daughter can bud at either pole (only one of four possible division patterns is shown). Postulated bipolar marks, of unknown composition, are indicated in red. Cell  , DOI: ( /S (00) )

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