Miki Nishioka scite author profile

SummaryThe 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 rootcell 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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A Thaumatin-Like Protein, Rj4, Controls Nodule Symbiotic Specificity in Soybean

Hayashi

Shiro

Kanamori

et al. 2014

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Soybeans exhibit a nitrogen-fixing symbiosis with soil bacteria of the genera Bradyrhizobium and Ensifer/Sinorhizobium in a unique organ, the root nodule. It is well known that nodulation of soybean is controlled by several host genes referred to as Rj (rj) genes. Among these genes, a dominant allele, Rj4, restricts nodulation with specific bacterial strains such as B. elkanii USDA61 and B. japonicum Is-34. These incompatible strains fail to invade the host epidermal cells as revealed by observations using DsRed-labeled bacteria. Here, we describe the molecular identification of the Rj4 gene by using map-based cloning with several mapping populations. The Rj4 gene encoded a thaumatin-like protein (TLP) that belongs to pathogenesis-related (PR) protein family 5. In rj4/rj4 genotype soybeans and wild soybeans, we found six missense mutations and two consecutive amino acid deletions in the rj4 gene as compared with the Rj4 allele. We also found, using hairy root transformation, that the rj4/rj4 genotype soybeans were fully complemented by the expression of the Rj4 gene. Whereas the expression of many TLPs and other PR proteins is induced by biotic/abiotic stress, Rj4 gene expression appears to be constitutive in roots including root nodules.

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Mapping of QTLs for Bolting Time in Brassica rapa (syn. campestris) under Different Environmental Conditions

et al. 2005

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The bolting time of varieties used as leafy vegetables or turnips within the Brassica rapa (syn. campestris) species is important, because it affects the yield and quality of the harvested products. In Brassica rapa, the transition from the vegetative to reproductive phase is influenced by environmental factors, such as daylength and low temperature. In order to analyze the genetic basis of bolting time, an AFLP linkage map was constructed using doubled haploid (DH) lines derived from the F 1 hybrid between A9408 and Homei P09. QTL analysis of bolting time was performed based on the evaluation under two field conditions and three artificial conditions differing in day-length and/or temperature. Out of a total of ten QTLs detected, two QTLs showed a low temperature sensitivity. The most effective QTL, BT1, was found to be the main locus controlling the vernalization response and the allele of Homei P09 was highly responsive to low temperature compared with that of the late parent A9408. These results could be useful for marker-assisted selection and isolation of the genes responsible for bolting time in Brassica rapa.

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Development of Microsatellite Markers by ISSR-suppression-PCR Method in Brassica rapa

et al. 2005

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Identification of AFLP Markers Tightly Linked to the Gene for Deficiency of the 7S Globulin in Soybean Seed and Characterization of Abnormal Phenotypes Involved in the Mutation.

Nishioka¹,

Kitamura²,

Harada³

2000

Breed. Sci.

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Miki Nishioka

Armadillo repeat‐containing kinesins and a NIMA‐related kinase are required for epidermal‐cell morphogenesis in Arabidopsis

A Thaumatin-Like Protein, Rj4, Controls Nodule Symbiotic Specificity in Soybean

Mapping of QTLs for Bolting Time in Brassica rapa (syn. campestris) under Different Environmental Conditions

Development of Microsatellite Markers by ISSR-suppression-PCR Method in Brassica rapa

Identification of AFLP Markers Tightly Linked to the Gene for Deficiency of the 7S Globulin in Soybean Seed and Characterization of Abnormal Phenotypes Involved in the Mutation.

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