Expression and Regulation of the <I>Arabidopsis thaliana Cel1</I> Endo 1,4 Glucanase Gene During Compatible Plant-Nematode Interactions

Serenella Sukno; Orit Shimerling; Jamie McCuiston; Galit Tsabary; Ziv Shani; Oded Shoseyov; Eric L. Davis

Expression and Regulation of the <I>Arabidopsis thaliana Cel1</I> Endo 1,4 Glucanase Gene During Compatible Plant-Nematode Interactions

Authors

Serenella Sukno
Orit Shimerling
Jamie McCuiston
Galit Tsabary
Ziv Shani
Oded Shoseyov
Eric L. Davis

Keywords:

cellulase, cis-acting elements, giant cells, Nicotiana tabacum, parasitism, regulatory motif.

Abstract

The root-knot nematode Meloidogyne incognita is an obligate endoparasite of plant roots and stimulates elaborate modifications of selected root vascular cells to form giant cells for feeding. An Arabidopsis thaliana endoglucanase (Atcel1) promoter is activated in giant cells that were formed in Atcel1::UidA transgenic tobacco and Arabidopsis plants. Activity of the full-length Atcel1 promoter was detected in root and shoot elongation zones and in the lateral root primordia. Different 5' and internal deletions of regions of the 1,673 bp Atcel1 promoter were each fused to the UidA reporter gene and transformed in tobacco, and roots of the transformants were inoculated with M. incognita to assay for GUS expression in giant cells and noninfected plant tissues. Comparison of the Atcel1 promoter deletion constructs showed that the region between -1,673 and -1,171 (fragment 1) was essential for Atcel1 promoter activity in giant cells and roots. Fragment 1 alone, however, was not sufficient for Atcel1 expression in giant cells or roots, suggesting that cis-acting elements in fragment 1 may function in consort with other elements within the Atcel1 promoter. Root-knot nematodes and giant cells developed normally within roots of Arabidopsis that expressed a functional antisense construct to Atcel1, suggesting that a functional redundancy in endoglucanase activity may represent another level of regulatory control of cell wall-modifying activity within nematode feeding cells.

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Published

2006-09-15

Issue

Vol. 38, No. 3 (September 2006)

Section

Articles

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