Abstract
In Schizosaccharomyces pombe, the initiation of cytokinesis is regulated by a septation initiation network (SIN). We previously reported that deletion of par1 and par2, two S. pombe genes encoding B' regulatory subunits of protein phosphatase 2A, causes a multiseptation phenotype, very similar to that seen in hyperactive SIN mutants. In this study, we examined the genetic interactions between par deletions and mutations in the genes encoding components of SIN and found that deletion of par1 and par2 suppressed the morphological and viability defects caused by overproduction of Byr4p and rescued a loss-of-function allele of spg1. However, par deletions could not suppress any mutations in genes downstream of spg1 in the SIN pathway. We showed further that, in suppressing the lethality of a spg1 loss-of-function allele, the correct localization of Cdc7p to the spindle pole body (SPB), which is normally lost in spg1 mutant cells, was restored. The fact that par mutant cells themselves exhibited a symmetric localization of Cdc7p to SPBs indicated a hyperactivity of SIN in such cells. On the basis of our epistasis analyses and cytological studies, we concluded that par genes normally negatively regulate SIN at or upstream of cdc7, ensuring that multiple rounds of septation do not occur.
Highlights
CYTOKINESIS, the separation of one cell into two, is the final event in cell division
In suppressing the lethality of a spg1 loss-of-function allele, the correct localization of Cdc7p to the spindle pole body (SPB), which is normally lost in spg1 mutant cells, was restored
We show that the capacity of par1⌬ cells to suppress both the temperature sensitivity and the sid morphology induced by the spg1-106 allele correlated with the restoration of normal Cdc7p localization onto SPBs, permitting the signal for initiating septation to be transduced to the downstream components in the septation initiation network (SIN) pathway
Summary
Genotype hϪ ade6-M216 leu ura4-D18 his3-D1 hϩ ade6-M210 leu ura4-D18 his3-D1 hϩ par1⌬::his3ϩ ade6-M210 leu ura4-D18 his3-D1 hϪ par2⌬::Leu ade6-M216 leu ura4-D18 his3-D1 hϪ par1⌬::his3ϩ par2⌬::Leu ade6-M216 leu ura4-D18 his3-D1 hϪ cdc adeϪ leuϪ uraϪ hϪ cdc123 adeϪ leuϪ uraϪ hϩ cdc118 adeϪ leuϪ uraϪ hϩ sid239 adeϪ leuϪ uraϪ hϩ sid250 adeϪ leuϪ uraϪ hϩ spg106 ade6-M216 leu ura4-D18 hϪ sid4-SA1 adeϪ leuϪ uraϪ hϪ Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 hϩ Cdc7-HA::ura4ϩ ade6-M216 leu ura4-D18 hϩ cdc adeϪ leuϪ uraϪ his3-D1 hϪ cdc par1⌬::his3ϩ par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ cdc par1⌬::his3ϩ adeϪ leuϪ uraϪ his3-D1 hϩ cdc par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ spg106 ade6-M216 leu ura4-D18 his3-D1 hϩ spg106 par1⌬::his3ϩ ade6-M216 leu ura4-D18 his3-D1 hϩ cdc118 adeϪ leuϪ uraϪ his3-D1 hϩ cdc118 par1⌬::his3ϩ adeϪ leuϪ uraϪ his3-D1 hϩ cdc118 par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ cdc118 par1⌬::his3ϩ par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid239 adeϪ leuϪ uraϪ his3-D1 hϩ sid239 par1⌬::his3ϩ adeϪ leuϪ uraϪ his3-D1 hϪ sid239 par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid239 par1⌬::his3ϩ par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid250 adeϪ leuϪ uraϪ his3-D1 hϩ sid250 par1⌬::his3ϩ adeϪ leuϪ uraϪ his3-D1 hϪ sid250 par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid250 par1⌬::his3ϩ par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid4-SA1 adeϪ leuϪ uraϪ his3-D1 hϪ sid4-SA1 par1⌬::his3ϩ adeϪ leuϪ uraϪ his3-D1 hϩ sid4-SA1 par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ sid4-SA1 par1⌬::his3ϩ par2⌬::Leu adeϪ leuϪ uraϪ his3-D1 hϩ Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 his3-D1 hϩ par1⌬::his3ϩ Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 his3-D1 hϩ par2⌬::Leu Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 his3-D1 hϪ spg106 Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 his3-D1 hϩ spg106 par1⌬::his3ϩ Cdc7-GFP::ura4ϩ ade6-M216 leu ura4-D18 his3-D1 hϩ Cdc7-HA::ura4ϩ adeϪ leuϪ uraϪ his3-D1 hϪ par1⌬::his3ϩ Cdc7-HA::ura4ϩ adeϪ leuϪ uraϪ his3-D1 hϪ par2⌬::Leu Cdc7-HA::ura4ϩ adeϪ leuϪ uraϪ his3-D1 hϪ par1⌬::his3ϩ par2⌬::Leu Cdc7-HA::ura4ϩ adeϪ leuϪ uraϪ his3-D1 hϩ/hϪ ade6-M210/ade6-M216 his3-D1/his3-D1 leu1-32/leu ura4-D18/ura4-D18 ϩ/par1⌬::his3ϩ ϩ/par2⌬::Leu (diploid) hϩ/hϪ ade6-M210/ade6-M216 his3-D1/his3-D1 leu1-32/leu ura4-D18/ura4-D18 ϩ/par1⌬::his3ϩ ϩ/par2⌬::Leu ϩ/spg1⌬::ura4ϩ (diploid). Forsburg Jiang and Hallberg (2000) Jiang and Hallberg (2000) Jiang and Hallberg (2000) C. Albright This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study This study
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