[不同苹果品种采后成熟和软化过程中细胞壁多糖的降解]。

植物生理与分子生物学学报 Pub Date : 2006-12-01
Chang-Hai Jin, Masashi Mizuno, Juan Kan, Biao Suo, Zhi-Jun Wang, Hironobu Tsuchida
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引用次数: 0

摘要

在不同贮藏时间(0和42 d)中提取富士苹果和金生苹果的细胞壁物质(CWM)和8个细胞壁多糖组分。采用气相色谱法测定各馏分的糖组成特征。结果表明,在贮藏过程中,“亲生”苹果的硬度显著下降,贮藏10 d后乙烯产量达到显著峰值,而“富士”苹果的乙烯产量很少,贮藏性较好。与其他细胞壁多糖组分相比,在苹果果的Na(2)CO(3)可溶性果胶组分中含有丰富的鼠李糖半乳素I (RG-I),由于其含有阿拉伯糖、半乳聚糖、阿拉伯半乳聚糖等成分,RG-I在侧链上具有较高的支链性。对于细胞壁多糖,在“亲生”苹果中,果胶组分的减少以Na(2)CO(3)-1组分最为显著,这与侧链上阿拉伯糖基和半乳糖基残基的显著降解有关。此外,Na(2)CO(3)-1果胶多糖的高分子质量降解为小分子质量果胶多糖。综上所述,在酶的作用下,Na(2)CO(3)-1果胶多糖的侧链降解被认为是通过改变细胞壁多糖网络而使苹果果实软化的重要因素之一。
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[Degradation of cell wall polysaccharides during postharvest fruit ripening and softening of different apple varieties].

The cell wall material (CWM) and eight cell wall polysaccharides fractions were extracted from 'Fuji' and 'Kinsei' apples during storage at different time (0 and 42 days). The sugar composition characteristics of each fraction were determined by gas chromatography. The results showed that, during storages, the firmness of 'Kinsei' apples decreased significantly, and a significant peak of ethylene production was shown after 10 d storage, but only a little ethylene was produced in 'Fuji' apples, which had a better storability. Compare to other cell wall polysaccharide fractions, in Na(2)CO(3)-soluble pectic fractions of apple fruit, there were abundant rhamnogalacturonan I (RG-I), which branched highly in side chains due to the compositions of arabinans, galactans, arabinogalactans etc. As for cell wall polysaccharides, in 'Kinsei' apples, the decrease of pectic fractions was shown most significantly in Na(2)CO(3)-1 fraction, which was associated with a significant degradation of arabinosyl and galactosyl residues on the side chains. Further more, higher molecular mass in Na(2)CO(3)-1 pectic polysaccharides degraded and turned into ones with smaller molecular mass. From these results, the degradation of side chains in Na(2)CO(3)-1 pectic polysaccharides under the activity of enzyme was considered one of the most significant factors of apple fruit softening through modifying the network of cell wall polysaccharides.

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