Atsunori Fukuda
University of Tsukuba
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Featured researches published by Atsunori Fukuda.
Biochimica et Biophysica Acta | 1999
Atsunori Fukuda; Atsuko Nakamura; Yoshiyuki Tanaka
Na+/H+ exchanger catalyzes the countertransport of Na+ and H+ across membranes. We isolated a rice cDNA clone the deduced amino acid sequence of which had homology with a putative Na+/H+ exchanger in Saccharomyces cerevisiae, NHX1. The sequence contains 2330 bp with an open reading frame of 1608 bp. The deduced amino acid sequence is similar to that of NHX1 and NHE isoforms in mammals, and shares high similarity with the sequences within predicted transmembrane segments and an amiloride-binding domain. The expression of the gene was increased by salt stress. These results suggest that the product of the novel gene, OsNHX1, functions as a Na+/H+ exchanger, and plays important roles in salt tolerance of rice.
Plant Physiology | 2007
Toshihiro Obata; Hiroko K. Kitamoto; Atsuko Nakamura; Atsunori Fukuda; Yoshiyuki Tanaka
We screened a rice (Oryza sativa L. ‘Nipponbare’) full-length cDNA expression library through functional complementation in yeast (Saccharomyces cerevisiae) to find novel cation transporters involved in salt tolerance. We found that expression of a cDNA clone, encoding the rice homolog of Shaker family K+ channel KAT1 (OsKAT1), suppressed the salt-sensitive phenotype of yeast strain G19 (Δena1–4), which lacks a major component of Na+ efflux. It also suppressed a K+-transport-defective phenotype of yeast strain CY162 (Δtrk1Δtrk2), suggesting the enhancement of K+ uptake by OsKAT1. By the expression of OsKAT1, the K+ contents of salt-stressed G19 cells increased during the exponential growth phase. At the linear phase, however, OsKAT1-expressing G19 cells accumulated less Na+ than nonexpressing cells, but almost the same K+. The cellular Na+ to K+ ratio of OsKAT1-expressing G19 cells remained lower than nonexpressing cells under saline conditions. Rice cells overexpressing OsKAT1 also showed enhanced salt tolerance and increased cellular K+ content. These functions of OsKAT1 are likely to be common among Shaker K+ channels because OsAKT1 and Arabidopsis (Arabidopsis thaliana) KAT1 were able to complement the salt-sensitive phenotype of G19 as well as OsKAT1. The expression of OsKAT1 was restricted to internodes and rachides of wild-type rice, whereas other Shaker family genes were expressed in various organs. These results suggest that OsKAT1 is involved in salt tolerance of rice in cooperation with other K+ channels by participating in maintenance of cytosolic cation homeostasis during salt stress and thus protects cells from Na+.
Planta | 2011
Atsunori Fukuda; Atsuko Nakamura; Naho Hara; Seiichi Toki; Yoshiyuki Tanaka
We previously cloned a vacuolar Na+/H+ antiporter gene (OsNHX1) from rice (Oryza sativa). Here we identified four additional NHX-type antiporter genes in rice (OsNHX2 through OsNHX5) and performed molecular and functional analyses of those genes. The exon–intron structure of the OsNHX genes and the phylogenetic tree of the OsNHX proteins suggest that the OsNHX proteins are categorized into two subgroups (OsNHX1 through OsNHX4 and OsNHX5). OsNHX1, OsNHX2, OsNHX3, and OsNHX5 can suppress the Na+, Li+, and hygromycin sensitivity of yeast nhx1 mutants and their sensitivity to a high K+ concentration. The expression of OsNHX1, OsNHX2, OsNHX3, and OsNHX5 is regulated differently in rice tissues and is increased by salt stress, hyperosmotic stress, and ABA. When we studied the expression of β-glucuronidase (GUS) driven by either the OsNHX1 or the OsNHX5 promoter, we observed activity in the stele, the emerging part of lateral roots, the vascular bundle, the water pore, and the basal part of seedling shoots with both promoters. In addition, each promoter had a unique expression pattern. OsNHX1 promoter–GUS activity only was localized to the guard cells and trichome, whereas OsNHX5 promoter–GUS activity only was localized to the root tip and pollen grains. Our results suggest that the members of this gene family play important roles in the compartmentalization into vacuoles of the Na+ and K+ that accumulate in the cytoplasm and that the differential regulation of antiporter gene expression in different rice tissues may be an important factor determining salt tolerance in rice.
FEBS Letters | 1993
Naomichi Okamura; Michiko Tanba; Atsunori Fukuda; Yoshiki Sugita; T. Nagai
Using the fluorescent calcium indicator fura‐2, forskolin was found to dose‐dependently cause an immediate increase in the concentration of intracellular free calcium of porcine cauda epididymal sperm. This stimulatory effect of forskolin is due to the enhancement of Ca2+ uptake by the verapamil‐sensitive transporter on the sperm plasma membrane and results in the promotion of the sperm capacitation and subsequent acrosome reaction.
Biochimica et Biophysica Acta | 1992
Naomichi Okamura; Atsunori Fukuda; Michiko Tanba; Yoshiki Sugita; T. Nagai
Comparative studies of 45Ca(2+)-transport across the plasma membrane were performed using porcine caput, corpus and cauda epididymal sperm. The Ca(2+)-uptake is dependent on the presence of the substrates for respiration and is sensitive to verapamil. The Ca(2+)-efflux is mediated by both Na(+)-dependent and -independent systems. In the immature sperm in caput epididymis, Na(+)-independent efflux is predominant, but it is gradually replaced by Na(+)-dependent efflux during the epididymal transit. The net activity of Ca2+ accumulation into sperm increases with the epididymal maturation.
Plant and Cell Physiology | 2004
Atsunori Fukuda; Atsuko Nakamura; Akemi Tagiri; Hiroshi Tanaka; Akio Miyao; Hirohiko Hirochika; Yoshiyuki Tanaka
Plant Physiology and Biochemistry | 2006
Atsunori Fukuda; Yoshiyuki Tanaka
Plant and Cell Physiology | 2006
Atsuko Nakamura; Atsunori Fukuda; Shingo Sakai; Yoshiyuki Tanaka
Journal of Pesticide Science | 2007
Kiyoshi Kawai; Koichiro Kaku; Norihiko Izawa; Tsutomu Shimizu; Atsunori Fukuda; Yoshiyuki Tanaka
Archive | 2008
Koichiro Kaku; Tsutomu Shimizu; Kiyoshi Kawai; Kozo Nagayama; Atsunori Fukuda; Yoshiyuki Tanaka