Altered Cell Cycle Distribution, Hyperplasia, and Inhibited Differentiation in Arabidopsis Caused by the D-Type Cyclin CYCD3

doi:10.1105/tpc.004838

Altered Cell Cycle Distribution, Hyperplasia, and Inhibited Differentiation in Arabidopsis Caused by the D-Type Cyclin CYCD3

Walter Dewitte^a, Catherine Riou-Khamlichi¹^,a, Simon Scofield^a, J. M. Sandra Healy²^,a, Annie Jacqmard^b, Nigel J. Kilby³^,a and James A. H. Murray⁴^,a

^a Institute of Biotechnology, University of Cambridge, Tennis Court Road, Cambridge CB2 1QT, United Kingdom
^b Département de Biologie Végétale, Université de Liège, Service de Physiologie, Sart Tilman, B4000 Liège, Belgium

⁴ To whom correspondence should be addressed. E-mail j.murray{at}biotech.cam.ac.uk; fax 44-1223-334167

CYCD3;1 expression in Arabidopsis is associated with proliferatingtissues such as meristems and developing leaves but not withdifferentiated tissues. Constitutive overexpression of CYCD3;1increases CYCD3;1-associated kinase activity and reduces theproportion of cells in the G1-phase of the cell cycle. Moreover,CYCD3;1 overexpression leads to striking alterations in development.Leaf architecture in overexpressing plants is altered radically,with a failure to develop distinct spongy and palisade mesophylllayers. Associated with this, we observe hyperproliferationof leaf cells; in particular, the epidermis consists of largenumbers of small, incompletely differentiated polygonal cells.Endoreduplication, a marker for differentiated cells that haveexited from the mitotic cell cycle, is inhibited strongly inCYCD3;1-overexpressing plants. Transcript analysis reveals anactivation of putative compensatory mechanisms upon CYCD3;1overexpression or subsequent cell cycle activation. These resultsdemonstrate that cell cycle exit in the G1-phase is requiredfor normal cellular differentiation processes during plant developmentand suggest a critical role for CYCD3 in the switch from cellproliferation to the final stages of differentiation.

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