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A Novel Kinesin 13 Protein Regulating Rice Seed Length

Overview
Journal Plant Cell Physiol
Publisher Oxford University Press
Specialties Biology
Cell Biology
Date 2010 Jul 1
PMID 20587735
Citations 63
Authors
Kanako Kitagawa
Shigeru Kurinami
Katsuyuki Oki
Yuki Abe
Tsuyu Ando
Izumi Kono
Masahiro Yano
Hidemi Kitano
Yukimoto Iwasaki
Affiliations
Soon will be listed here.
Abstract

The causal gene of a novel small and round seed mutant phenotype (srs3) in rice was identified by map-based cloning and named the SRS3 gene. The SRS3 gene was grouped as a member of the kinesin 13 subfamily. The SRS3 gene codes for a protein of 819 amino acids that contains a kinesin motor domain and a coiled-coil structure. Using scanning electron microscopy, we determined that the cell length of seeds in the longitudinal direction in srs3 is shorter than that in the wild type. The number of cells of seeds in the longitudinal direction in srs3 was not very different from that in the wild type. The result suggests that the small and round seed phenotype of srs3 is due to a reduction in cell length of seeds in the longitudinal direction. The SRS3 protein, which is found in the crude microsomal fraction, is highly expressed in developing organs.

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