The Fission Yeast Origin Recognition Complex is Constitutively Associated with Chromatin and is Differentially Modified Through the Cell Cycle

Overview

Journal J Cell Sci

Specialty Cell Biology

Date 1999 Oct 19

PMID 10523506

Citations 23

Authors

Z Lygerou

P Nurse

Affiliations

Soon will be listed here.

Abstract

The origin recognition complex (ORC) binds to the well defined origins of DNA replication in budding yeast. Homologous proteins in other eukaryotes have been identified but are less well characterised. We report here the characterisation of a fission yeast ORC complex (SpORC). Database searches identified a fission yeast Orc5 homologue. SpOrc5 is essential for cell viability and its deletion phenotype is identical to that of two previously identified ORC subunit homologues, SpOrc1 (Orp1/Cdc30) and SpOrc2 (Orp2). Co-immunoprecipitation experiments demonstrate that SpOrc1 forms a complex with SpOrc2 and SpOrc5 and gel filtration chromatography shows that SpOrc1 and SpOrc5 fractionate as high molecular mass complexes. SpORC subunits localise to the nucleus in a punctate distribution which persists throughout interphase and mitosis. We developed a chromatin isolation protocol and show that SpOrc1, 2 and 5 are associated with chromatin at all phases of the cell cycle. While the levels, nuclear localisation and chromatin association of SpORC remain constant through the cell cycle, one of its subunits, SpOrc2, is differentially modified. We show that SpOrc2 is a phosphoprotein which is hypermodified in mitosis and is rapidly converted to a faster migrating isoform as cells proceed into G(1) in preparation for S-phase.

Citing Articles

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Diverged composition and regulation of the Trypanosoma brucei origin recognition complex that mediates DNA replication initiation.

Marques C, Tiengwe C, Lemgruber L, Damasceno J, Scott A, Paape D Nucleic Acids Res. 2016; 44(10):4763-84.

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Orc1 Binding to Mitotic Chromosomes Precedes Spatial Patterning during G1 Phase and Assembly of the Origin Recognition Complex in Human Cells.

Kara N, Hossain M, Prasanth S, Stillman B J Biol Chem. 2015; 290(19):12355-69.

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Chromatin-Associated Proteins Revealed by SILAC-Proteomic Analysis Exhibit a High Likelihood of Requirement for Growth Fitness under DNA Damage Stress.

Wang H, Tipthara P, Zhu L, Poon S, Tang K, Liu J Int J Proteomics. 2012; 2012:630409.

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Phosphorylation of ORC2 protein dissociates origin recognition complex from chromatin and replication origins.

Lee K, Bang S, Yoon S, Lee S, Yoon J, Hwang D J Biol Chem. 2012; 287(15):11891-8.

PMID: 22334659 PMC: 3320937. DOI: 10.1074/jbc.M111.338467.