Saskia K. Klee scite author profile

The yeast Ca2+ adenosine triphosphatase Pmr1, located in medial-Golgi, has been implicated in intracellular transport of Ca2+ and Mn2+ ions. We show here that addition of Mn2+ greatly alleviates defects ofpmr1 mutants in N-linked and O-linked protein glycosylation. In contrast, accurate sorting of carboxypeptidase Y (CpY) to the vacuole requires a sufficient supply of intralumenal Ca2+. Most remarkably, pmr1 mutants are also unable to degrade CpY*, a misfolded soluble endoplasmic reticulum protein, and display phenotypes similar to mutants defective in the stress response to malfolded endoplasmic reticulum proteins. Growth inhibition of pmr1 mutants on Ca2+-deficient media is overcome by expression of other Ca2+ pumps, including a SERCA-type Ca2+ adenosine triphosphatase from rabbit, or by Vps10, a sorting receptor guiding non-native luminal proteins to the vacuole. Our analysis corroborates the dual function of Pmr1 in Ca2+ and Mn2+ transport and establishes a novel role of this secretory pathway pump in endoplasmic reticulum-associated processes.

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Yeast formins regulate cell polarity by controlling the assembly of actin cables

Sagot

2001

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Formins are conserved Rho-GTPase effectors that communicate Rho-GTPase signals to the cytoskeleton. We found that formins were required for the assembly of one of the three budding yeast actin structures: polarized arrays of actin cables. A dominant-active formin induced the assembly of actin cables. The activation and localization of the formin Bni1p required components of the polarisome complex. These findings potentially define the cellular function of formins in budding yeast and explain their involvement in the generation of cell polarity. A requirement for formins in constructing specific actin structures might be the basis for the diverse activities of formins in development.

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Control of Mitotic Spindle Position by the Saccharomyces cerevisiae Formin Bni1p

et al. 1999

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Alignment of the mitotic spindle with the axis of cell division is an essential process in Saccharomyces cerevisiae that is mediated by interactions between cytoplasmic microtubules and the cell cortex. We found that a cortical protein, the yeast formin Bni1p, was required for spindle orientation. Two striking abnormalities were observed in bni1Δ cells. First, the initial movement of the spindle pole body (SPB) toward the emerging bud was defective. This phenotype is similar to that previously observed in cells lacking the kinesin Kip3p and, in fact, BNI1 and KIP3 were found to be in the same genetic pathway. Second, abnormal pulling interactions between microtubules and the cortex appeared to cause preanaphase spindles in bni1Δ cells to transit back and forth between the mother and the bud. We therefore propose that Bni1p may localize or alter the function of cortical microtubule-binding sites in the bud. Additionally, we present evidence that other bipolar bud site determinants together with cortical actin are also required for spindle orientation.

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Saskia K. Klee

Themedial-Golgi Ion Pump Pmr1 Supplies the Yeast Secretory Pathway with Ca²⁺and Mn²⁺Required for Glycosylation, Sorting, and Endoplasmic Reticulum-Associated Protein Degradation

Yeast formins regulate cell polarity by controlling the assembly of actin cables

Control of Mitotic Spindle Position by the Saccharomyces cerevisiae Formin Bni1p

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Saskia K. Klee

Themedial-Golgi Ion Pump Pmr1 Supplies the Yeast Secretory Pathway with Ca2+and Mn2+Required for Glycosylation, Sorting, and Endoplasmic Reticulum-Associated Protein Degradation

Yeast formins regulate cell polarity by controlling the assembly of actin cables

Control of Mitotic Spindle Position by the Saccharomyces cerevisiae Formin Bni1p

Contact Info

Product

Resources

About

Themedial-Golgi Ion Pump Pmr1 Supplies the Yeast Secretory Pathway with Ca²⁺and Mn²⁺Required for Glycosylation, Sorting, and Endoplasmic Reticulum-Associated Protein Degradation