Disruption of ATCSLD5 results in reduced growth, reduced xylan and homogalacturonan synthase activity and altered xylan occurrence in Arabidopsis

doi:10.1111/j.1365-313X.2007.03281.x

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Wiley InterScience

The Plant Journal

Volume 52 Issue 5, Pages 791 - 802

Published Online: 24 Sep 2007

Published in association with the Society for Experimental Biology

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Disruption of ATCSLD5 results in reduced growth, reduced xylan and homogalacturonan synthase activity and altered xylan occurrence in Arabidopsis

Adriana Jimena Bernal ^1,5 , Jakob Krüger Jensen ² , Jesper Harholt ² , Susanne Sørensen ² , Isabel Moller ¹ , Claudia Blaukopf ¹ , Bo Johansen ³ , Robert de Lotto ¹ , Markus Pauly ^4,† , Henrik Vibe Scheller ² and William G.T. Willats ^1,*

¹ Department of Molecular Biology, Københavns Biocenter, Københavns Universitet, Ole Maaløes Vej 5, 2200 København N, Denmark ,
² Plant Biochemistry Laboratory, Department of Plant Biology, Faculty of Life Sciences, University of Copenhagen, Thorvaldsensvej 40, DK-187, Copenhagen Denmark ,
³ Department of Biology, Universitetsparken 15, DK-2100 Copenhagen Ø, Denmark ,
⁴ Max-Planck-Institut für Molekulare Pflanzenphysiologie, Am Mühlenberg 1, 14476 Potsdam OT Golm, Germany , and
⁵ Departamento de Ciencias Biológicas, Universidad de los Andes, Cra 1#18A-10, Bogotá, Colombia

Correspondence to ^* (fax +45 35322128; e-mail willats@my.molbio.ku.dk).

^† Present address: MSU-DOE Plant Research Laboratory, Michigan State University, East Lansing, MI 48824-1312, USA.

KEYWORDS

ATCSLD5 • cellulose synthase-like • plant cell wall • xylan • homogalacturonan

ABSTRACT

Members of a large family of cellulose synthase-like genes (CSLs) are predicted to encode glycosyl transferases (GTs) involved in the biosynthesis of plant cell walls. The CSLA and CSLF families are known to contain mannan and glucan synthases, respectively, but the products of other CSLs are unknown. Here we report the effects of disrupting ATCSLD5 expression in Arabidopsis. Both stem and root growth were significantly reduced in ATCSLD5 knock-out plants, and these plants also had increased susceptibility to the cellulose synthase inhibitor isoxaben. Antibody and carbohydrate-binding module labelling indicated a reduction in the level of xylan in stems, and in vitro GT assays using microsomes from stems revealed that ATCSLD5 knock-out plants also had reduced xylan and homogalacturonan synthase activity. Expression in Nicotiana benthamiana of ATCSLD5 and ATCSLD3, fluorescently tagged at either the C- or the N-terminal, indicated that these GTs are likely to be localized in the Golgi apparatus. However, the position of the fluorescent tag affected the subcellular localization of both proteins. The work presented provides a comprehensive analysis of the effects of disrupting ATCSLD5 in planta, and the possible role(s) of this gene and other ATCSLDs in cell wall biosynthesis are discussed.

Received 18 April 2007; revised 2 July 2007; accepted 12 July 2007.

DIGITAL OBJECT IDENTIFIER (DOI)

10.1111/j.1365-313X.2007.03281.x About DOI