Nobuyuki Imaizumi scite author profile

We describe the cloning and expression analysis of a sucrose transporter cDNA from a monocot (the rice plant, Oryza sativa L.). The cDNA clone (OsSUT1) encoded an open reading frame of 1,611 bp (537 amino acids) and showed 76.8 to 79.7% similarity at the amino acid level to other sucrose transporters of dicot species. The predicted membrane topology of OsSUT1 protein is made up of 12 transmembrane helices which is consistent with most of the mono- and disaccharide transporters previously identified. When OsSUT1 cDNA was introduced into yeast and expressed, the cells rapidly accumulated sucrose demonstrating that OsSUT1 does, in fact, encode a sucrose transporter. From genomic Southern hybridization OsSUT1 appeared to be a single copy gene. OsSUT1 was expressed in source organs such as leaf blade, leaf sheath and germinating seed whereas little or no expression was observed in some sink organs such as the panicles before heading and the roots. Transcript was observed at high levels in panicles after heading, particularly in the portion containing endosperm and embryo. In addition, expression of OsSUT1 was high in etiolated seedlings and decreased during light-induced greening.

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Differential Expression Pattern of C4 Bundle Sheath Expression Genes in Rice, a C3 Plant

Nomura

Higuchi

Ishida

et al. 2005

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NADP-malic enzyme (NADP-ME) and phosphoenolpyruvate carboxykinase (PCK) are specifically expressed in bundle sheath cells (BSCs) in NADP-ME-type and PCK-type C4 plants, respectively. Unlike the high activities of these enzymes in the green leaves of C4 plants, their low activities have been detected in the leaves of C3 plants. In order to elucidate the differences in the gene expression system between C3 and C4 plants, we have produced chimeric constructs with the beta-glucuronidase (GUS) reporter gene under the control of the maize NADP-Me (ZmMe) or Zoysia japonica Pck (ZjPck) promoter and introduced these constructs into rice. In leaves of transgenic rice, the ZmMe promoter directed GUS expression not only in mesophyll cells (MCs) but also in BSCs and vascular cells, whereas the ZjPck promoter directed GUS expression only in BSCs and vascular cells. Neither the ZjPck nor ZmMe promoters induced GUS expression due to light. In rice leaves, the endogenous NADP-Me (OsMe1) was expressed in MCs, BSCs and vascular cells, whereas the rice Pck (OsPck1) was expressed only in BSCs and vascular cells. Taken together, the results obtained from transgenic rice demonstrate that the expression pattern of ZmMe or ZjPck in transgenic rice was reflected by that of its counterpart gene in rice.

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Transgenic Japanese lawngrass ( Zoysia japonica Steud.) plants regenerated from protoplasts

Inokuma¹,

Sugiura²,

Imaizumi³

et al. 1998

Plant Cell Reports

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Photosynthetic responses to temperature of phosphoenolpyruvate carboxykinase type C₄ species differing in cold sensitivity

Matsuba¹,

Imaizumi²,

Kaneko³

et al. 1997

Plant Cell & Environment

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Photosynthetic rates, the activities of key enzymes associated with the C4 cycle and ribulose-l,5-bisphosphate carhoxylase (RuBPCase), and the levels of metabolites involved in the C4 cycle were compared between the two phosphoenolpyruvate carboxykinase (PCK) type C4 species Spartina anglica, which is cold-tolerant, and Zoysia japonica, which is cold-sensitive, during exposure to low temperature. Plants of both species grown outside in summer were placed in a growth chamber at 27/20 °C day/night temperatures. After 1 week, plants were exposed to 20/17 °C for 1 week and then to 10/7 °C for 2 weeks. Photosynthetic rates in Z. japonica decreased progressively to about 25% during the chilling treatments. In contrast, S. anglica exhibited a 43% increase in photosynthetic rates after exposure to 20 °C for 1 week, which remained relatively constant thereafter. Consistent with these observations, most of the C4 enzymes and RuBPCase in Z. japonica declined. Phosphoenolpyruvate carboxylase (PEPC) and PCK activities declined particularly drastically during the treatments. However, the activities of these enzymes in S. anglica showed either a slight increase or decrease upon a mild cold treatment, and remained relatively constant during further chilling treatments. There was a sharp decline in phosphoenolpyruvate in Z. japonica after exposure to 10 °C. On the other hand, metabolite levels in S. anglica were largely unaffected by the chilling treatments. These results suggest that the drastic declines of both PEPC and PCK activities may be important limiting factors responsible for cold sensitivity in C4 photosynthesis of Z. japonica.

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Carbohydrate-Binding Module of a Rice Endo-β-1,4-glycanase, OsCel9A , Expressed in Auxin-Induced Lateral Root Primordia, is Post-Translationally Truncated

Yoshida

Imaizumi²,

Kaneko

et al. 2006

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We report the cloning of a glycoside hydrolase family (GHF) 9 gene of rice ( Oryza sativa L. cv. Sasanishiki), OsCel9A , corresponding to the auxin-induced 51 kDa endo-1,4-β-glucanase (EGase). This enzyme reveals a broad substrate specificity with respect to sugar backbones (glucose and xylose) in β-1,4-glycans of type II cell wall. OsCel9A encodes a 640 amino acid polypeptide and is an ortholog of TomCel8 , a tomato EGase containing a carbohydrate-binding module (CBM) 2 sequence at its C-terminus. The expression of four rice EGase genes including OsCel9A showed different patterns of organ specificity and responses to auxin. OsCel9A was preferentially expressed during the initiation of lateral roots or subcultured root calli, but was hardly expressed during auxin-induced coleoptile elongation or in seed calli, in contrast to OsCel9D , a KORRIGAN ( KOR ) homolog. In situ localization of OsCel9A transcripts demonstrated that its expression was specifically up-regulated in lateral root primordia (LRP). Northern blotting analysis showed the presence of a single product of OsCel9A . In contrast, both mass spectrometric analyses of peptide fragments from purified 51 kDa EGase proteins and immunogel blot analysis of EGase proteins in root extracts using two antibodies against internal peptide sequences of OsCel9A revealed that the entire CBM2 region was post-translationally truncated from the 67 kDa nascent protein to generate 51 kDa EGase isoforms. Analyses of auxin concentration and time course dependence of accumulation of two EGase isoforms suggested that the translation and post-translational CBM2 truncation of the OsCel9A gene may participate in lateral root development.

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