Abstract
Correct positioning of polarity axis in response to internal or external cues is central to cellular morphogenesis and cell fate determination. In the budding yeast Saccharomyces cerevisiae, Bud3p plays a key role in the axial bud-site selection (axial budding) process in which cells assemble the new bud next to the preceding cell division site. Bud3p is thought to act as a component of a spatial landmark. However, it is not clear how Bud3p interacts with other components of the landmark, such as the septins, to control axial budding. Here, we report that overexpression of Bud3p causes the formation of small septin rings (∼1 µm in diameter) and arcs aside from previously reported spiral-like septin structures. Bud3p closely associates with the septins in vivo as Bud3p colocalizes with these aberrant septin structures and forms a complex with two septins, Cdc10p and Cdc11p. The interaction of Bud3p with the septins may involve multiple regions of Bud3p including 1–858, 850–1220, and 1221–1636 a.a. since they all target to the bud neck but exhibit different effects on septin organization when overexpressed. In addition, our study reveals that the axial budding function of Bud3p is mediated by the N-terminal region 1–858. This region shares an amphipathic helix (850–858) crucial for bud neck targeting with the middle portion 850–1103 involved in the formation of ectopic septin spirals and rings. Interestingly, the Dbl-homology domain located in 1–858 is dispensable for axial bud-site selection. Our findings suggest that multiple regions of Bud3p ensure efficient targeting of Bud3p to the bud neck in the assembly of the axial landmark and distinct domains of Bud3p are involved in axial bud-site selection and other cellular processes.
Highlights
The establishment of a proper polarity axis in response to internal or external cues is essential for morphogenesis, cell fate determination, and directional cell migration in many types of cells [1,2]
We reported a new type of ectopic septin structures – small rings of,1 mm in diameter and short arcs in cells overexpressing Bud3p
Except for Ashbya gossypii and ruffling fibroblasts, these ectopic septin structures are all detected under non-physiological conditions
Summary
The establishment of a proper polarity axis in response to internal or external cues is essential for morphogenesis, cell fate determination, and directional cell migration in many types of cells [1,2]. Diploid MATa/MATa cells, position the new site distal to the preceding division site Genetic studies revealed that two sets of gene products are implicated in the determination of the axial pattern (Axl1p, Axl2p, Bud3p, Bud4p, and the septins) [4,5,6,7,8,9] and the bipolar pattern (Bud8p, Bud9p, Rax1p, and Rax2p) [10,11,12,13] These two sets of proteins can activate the Ras-family GTPase Rsr1p by interacting with the Rsr1p GTPase module consisting of Rsr1p and its regulators Bud2p (GTPaseactivating protein) and Bud5p (guanine nucleotide exchange factor), which in turn activates the Rho-family GTPase Cdc42p, leading to the assembly of a new bud at a chosen site
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