Control of pre-replicative complex during the division cycle in Chlamydomonas reinhardtii.

Amy E Ikui,Frederick R Cross,Kresti Pecani,Noriko Ueki,Susan K Dutcher

doi:10.1371/journal.pgen.1009471

Amy E Ikui, Frederick R Cross + Show 3 more

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https://doi.org/10.1371/journal.pgen.1009471

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Abstract

DNA replication is fundamental to all living organisms. In yeast and animals, it is triggered by an assembly of pre-replicative complex including ORC, CDC6 and MCMs. Cyclin Dependent Kinase (CDK) regulates both assembly and firing of the pre-replicative complex. We tested temperature-sensitive mutants blocking Chlamydomonas DNA replication. The mutants were partially or completely defective in DNA replication and did not produce mitotic spindles. After a long G1, wild type Chlamydomonas cells enter a division phase when it undergoes multiple rapid synchronous divisions (‘multiple fission’). Using tagged transgenic strains, we found that MCM4 and MCM6 were localized to the nucleus throughout the entire multiple fission division cycle, except for transient cytoplasmic localization during each mitosis. Chlamydomonas CDC6 was transiently localized in nucleus in early division cycles. CDC6 protein levels were very low, probably due to proteasomal degradation. CDC6 levels were severely reduced by inactivation of CDKA1 (CDK1 ortholog) but not the plant-specific CDKB1. Proteasome inhibition did not detectably increase CDC6 levels in the cdka1 mutant, suggesting that CDKA1 might upregulate CDC6 at the transcriptional level. All of the DNA replication proteins tested were essentially undetectable until late G1. They accumulated specifically during multiple fission and then were degraded as cells completed their terminal divisions. We speculate that loading of origins with the MCM helicase may not occur until the end of the long G1, unlike in the budding yeast system. We also developed a simple assay for salt-resistant chromatin binding of MCM4, and found that tight MCM4 loading was dependent on ORC1, CDC6 and MCM6, but not on RNR1 or CDKB1. These results provide a microbial framework for approaching replication control in the plant kingdom.

Highlights

The cell cycle is an ordered set of cellular processes in which DNA is replicated and segregated into two identical daughter cells
We show that MCM proteins are localized to the nucleus throughout the multiple fission cycle, expect for transient loss during mitosis
We found evidence that the step-wise assembly of pre-replicative complex was conserved in Chlamydomonas

Summary

Introduction

The cell cycle is an ordered set of cellular processes in which DNA is replicated and segregated into two identical daughter cells. The cell cycle is controlled by cyclin dependent kinases (CDK), bound to cyclin activators [1]. Chlamydomonas reinhardtii is a single cell green algae which divides by ‘multiple fission’: a long G1 phase with massive cell growth, followed by typically 3–4 rounds of S/M phase that consists of DNA replication, chromosome segregation and cytokinesis [2]. There are two major CDKs in Chlamydomonas reinhardtii, CDKA1 (the ortholog of animal CDK1) and CDKB1 (a CDK specific to the plant kingdom) [3,4]. While CDK1 is the direct trigger of mitosis in yeast and animals, CDKA1 functions in early in the cell cycle and CDKB1 promotes mitosis. One important role of CDKA1 early in the cell cycle is transcriptional activation of a large battery of genes required for cell division that are turned on shortly before the division cycles begin [5,6]

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