Temperature-Sensitive Alleles of RSW2 Link the KORRIGAN Endo-1,4-{beta}-Glucanase to Cellulose Synthesis and Cytokinesis in Arabidopsis

doi:10.1104/pp.126.1.278

Temperature-Sensitive Alleles of RSW2 Link the KORRIGAN Endo-1,4- $beta$ -Glucanase to Cellulose Synthesis and Cytokinesis in Arabidopsis¹

Diana R. Lane,² Allison Wiedemeier, Liangcai Peng,³ Herman Höfte, Samantha Vernhettes, Thierry Desprez, Charles H. Hocart, Rosemary J. Birch, Tobias I. Baskin, Joanne E. Burn, Tony Arioli,⁴ Andreas S. Betzner, and Richard E. Williamson^*

Plant Cell Biology Group, Research School of Biological Sciences, Australian National University, P.O. Box 475, Canberra, Australian Capital Territory 2601, Australia (D.R.L., L.P., C.H.H., R.J.B., J.E.B., T.A., R.E.W.); University of Missouri, Biological Sciences, Missouri 65211-7400 (A.W., T.I.B.); Laboratoire de Biologie Cellulaire, Institut National de la Recherche Agronomique, Route de St-Cyr, 78026 Versailles cedex, France (H.H., S.V., T.D.); and Groupe Limagrain Pacific Proprietary Limited, P.O. Box 475, Canberra (A.S.B.)

An 8.5-kb cosmid containing the KORRIGAN gene complements the cellulose-deficient rsw2-1 mutant of Arabidopsis. Three temperature-sensitivealleles of rsw2 show single amino acid mutations in the putativeendo-1,4- $beta$ -glucanase encoded by KOR. The F₁ from crosses betweenkor-1 and rsw2 alleles shows a weak, temperature-sensitive rootphenotype. The shoots of rsw2-1 seedlings produce less celluloseand accumulate a short chain, readily extractable glucan resemblingthat reported for rsw1 (which is defective in a putative glycosyltransferaserequired for cellulose synthesis). The double mutant (rsw2-1 rsw1)shows further reductions in cellulose production relative to bothsingle mutants, constitutively slow root growth, and enhancedtemperature-sensitive responses that are typically more severethan in either single mutant. Abnormal cytokinesis and severelyreduced birefringent retardation in elongating root cell wallsof rsw2 link the enzyme to cellulose production for primary cellwalls and probably cell plates. The Rsw2 phenotype generally resembles the Kor and cellulose-deficient Rsw1 phenotypes, but anther dehiscence is impaired in Rsw2-1. The findings link a second putative enzyme activity to cellulosesynthesis in primary cell walls of Arabidopsis and further increasesthe parallels to cellulose synthesis in Agrobacterium tumefacienswhere the celA and celC genes are required and encode a putativeglycosyltransferase and an endo-1,4- $beta$ -glucanase related to RSW1and KOR,respectively.

¹ This work was supported by an Australian Postgraduate Award (Industry, to D.R.L.), by a Patricia Roberts Harris Fellowship(to A.W.), by a Cotton Research and Development Corporation Fellowship(to J.E.B.), and by a U.S. Department of Energy grant (award no.94ER20146 to T.I.B.) that does not constitute endorsement by thatdepartment of views expressedherein.

² Present address: Cellular and Structural Biology, University of Colorado Health Sciences Center, B-111 4200 E. 9th Avenue,Denver, CO80262.

³ Present address: The Plant Gene Expression Center, U.S. Department of Agriculture/Agricultural Research Service, Universityof California/Berkeley, 800 Buchanan Street, Albany, CA94710.

⁴ Present address: Aventis Pty Ltd, G.P.O. Box 1600, Canberra, ACT 2601, Australia

^* Corresponding author: e-mail richard{at}rsbs.anu.edu.au; fax 61-2-6249-4331.

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