Junya Watari scite author profile

Sorbitol is a major photosynthetic product and a major phloem-translocated component in Rosaceae (e.g. apple, pear, peach, and cherry). We isolated the three cDNAs, MdSOT3, MdSOT4, and MdSOT5 from apple (Malus domestica) source leaves, which are homologous to plant polyol transporters. Yeasts transformed with the MdSOTs took up sorbitol significantly. MdSOT3- and MdSOT5-dependent sorbitol uptake was strongly inhibited by xylitol and myo-inositol, but not or only weakly by mannitol and dulcitol. Apparent K(m) values of MdSOT3 and MdSOT5 for sorbitol were estimated to be 0.71 mM and 3.2 mM, respectively. The protonophore, carbonyl cyanide m-chlorophenylhydrazone (CCCP), strongly inhibited the sorbitol transport. MdSOT3 was expressed specifically in source leaves, whereas MdSOT4 and MdSOT5 were expressed in source leaves and also in some sink organs. MdSOT4 and MdSOT5 expressions were highest in flowers. Fruits showed no or only weak MdSOT expression. Although MdSOT4 and MdSOT5 were also expressed in immature leaves, MdSOT expressions increased with leaf maturation. In addition, in situ hybridization revealed that all MdSOTs were expressed to high levels in phloem of minor veins in source leaves. These results suggest that these MdSOTs are involved in sorbitol loading in Rosaceae.

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Isolation, Characterization, and Cloning of α-l-Arabinofuranosidase Expressed during Fruit Ripening of Japanese Pear

Tateishi

Mori

Watari

et al. 2005

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a-L-Arabinofuranosidase (a-L-arafase) was purified from fruit of Japanese pear (Pyrus pyrifolia). The enzyme solubilized from the cell wall by NaCl and Triton X-100 had the homogeneity of a single 62-kD polypeptide on SDS-PAGE after purification through the steps of hydroxyapatite, anion-exchange chromatography, and size-exclusion chromatography. A related cDNA clone was isolated (PpARF2). The transcript and related protein were detected solely in the ripening fruit corresponding to the increase of a-L-arafase activity. Transcripts of PpARF2 were not detected in buds, leaves, roots, or shoots of the Japanese pear. The deduced amino acid sequences of PpARF2 had low identity with those of other plants or bacteria. This a-L-arafase belonged to glycoside hydrolase family 3, which includes some b-xylosidases. The purified enzyme hydrolyzed mainly p-nitrophenyl a-L-arabinofuranoside and also reacted bifunctionally with p-nitrophenyl b-D-xylopyranoside. However, it released only arabinose from native cell wall polysaccharides prepared from Japanese pear and from sugar beet arabinan. The enzyme did not release xylose from arabinoxylan and xylan. The only activity of the a-L-arafase presented here was hydrolyzing the arabinosyl residue from native polysaccharides, whereas it showed bifunctional activity against artificial substrates. According to the expression pattern and properties of the enzyme, it is a new member of the glycoside hydrolase family 3 isolated from fruit, and it may be responsible for modification of the cell wall architecture during fruit softening.The modification of cell wall architecture is involved in plant growth, development, and formation of shape. The cooperative biosynthesis and degradation of several cell wall components are necessary, and numerous cell wall-related enzymes are implicated in these processes. Fruit softening or textural changes are important factors that decide fruit quality, and they are caused by modification of cell wall polysaccharide architecture during fruit ripening. Several cell wallmetabolizing enzymes contribute to the changes in cell wall architecture (Fischer and Bennett, 1991). During fruit ripening, pectic and some hemicellulosic polysaccharides become increasingly soluble and depolymerize with the release of neutral sugar residues from side chains of matrix polysaccharides (Huber and O'

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Junya Watari

Identification of Sorbitol Transporters Expressed in the Phloem of Apple Source Leaves

Isolation, Characterization, and Cloning of α-l-Arabinofuranosidase Expressed during Fruit Ripening of Japanese Pear

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