Armadillo Repeat-containing Kinesins and a NIMA-related Kinase Are Required for Epidermal-cell Morphogenesis in Arabidopsis

Overview

Journal Plant J

Specialties Biology
Cell Biology
Molecular Biology

Date 2007 Nov 1

PMID 17971038

Citations 48

Authors

Tatsuya Sakai

Hannie van der Honing

Miki Nishioka

Yukiko Uehara

Mihoko Takahashi

Noriko Fujisawa

Kensuke Saji

Motoaki Seki

Kazuo Shinozaki

Mark A Jones

Nicholas Smirnoff

Kiyotaka Okada

Geoffrey O Wasteneys

Affiliations

Soon will be listed here.

Abstract

The involvement of kinesin motor proteins in both cell-tip growth and cell-shape determination has been well characterized in various organisms. However, the functions of kinesins during cell morphogenesis in higher plants remain largely unknown. In the current study, we demonstrate that an armadillo repeat-containing kinesin-related protein, ARMADILLO REPEAT KINESIN1 (ARK1), is involved in root-hair morphogenesis. Microtubule polymers are more abundant in ark1 null allele root hairs, but analysis shows that these extra microtubules are concentrated in the endoplasm, and not in the cortical array, suggesting that ARK1 regulates tip growth by limiting the assembly and distribution of endoplasmic microtubules. The ARK1 gene has two homologues in the Arabidopsis genome, ARK2 and ARK3, and our results show that ARK2 is involved in root-cell morphogenesis. We further reveal that a NIMA-related protein kinase, NEK6, binds to the ARK family proteins and has pleiotropic effects on epidermal-cell morphogenesis, suggesting that NEK6 is involved in cell morphogenesis in Arabidopsis via microtubule functions associated with these armadillo repeat-containing kinesins. We discuss the function of NIMA-related protein kinases and armadillo repeat-containing kinesins in the cell morphogenesis of eukaryotes.

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