Functional Interaction Between the PKC1 Pathway and CDC31 Network of SPB Duplication Genes

Functional Interaction Between the PKC1 Pathway and CDC31 Network of SPB Duplication Genes

Waheeda Khalfan^a, Irena Ivanovska^a, and Mark D. Rose^a
^a Department of Molecular Biology, Princeton University, Princeton, New Jersey 08544-1014

Corresponding author: Mark D. Rose, Department of Molecular Biology, Princeton University, Princeton, NJ 08544-1014., mrose{at}molbio.princeton.edu (E-mail)

Communicating editor: E. W. JONES

The earliest known step in yeast spindle pole body (SPB) duplicationrequires Cdc31p and Kar1p, two physically interacting SPB components,and Dsk2p and Rad23p, a pair of ubiquitin-like proteins. Componentsof the PKC1 pathway were found to interact with these SPB duplicationgenes in two independent genetic screens. Initially, SLG1 andPKC1 were obtained as high-copy suppressors of dsk2 ${Delta}$ rad23 ${Delta}$ anda mutation in MPK1 was synthetically lethal with kar1- ${Delta}$ 17. Subsequently,we demonstrated extensive genetic interactions between the PKC1pathway and the SPB duplication mutants that affect Cdc31p function.The genetic interactions are unlikely to be related to the cell-wallintegrity function of the PKC1 pathway because the SPB mutantsdid not exhibit cell-wall defects. Overexpression of multiplePKC1 pathway components suppressed the G2/M arrest of the SPBduplication mutants and mutations in MPK1 exacerbated the cellcycle arrest of kar1- ${Delta}$ 17, suggesting a role for the PKC1 pathwayin SPB duplication. We also found that mutations in SPC110,which encodes a major SPB component, showed genetic interactionswith both CDC31 and the PKC1 pathway. In support of the modelthat the PKC1 pathway regulates SPB duplication, one of thephosphorylated forms of Spc110p was absent in pkc1 and mpk1 ${Delta}$ mutants.

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