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外文期刊>Asian Journal of Plant Sciences
>Changes in Anthocyanin Content and Expression of Anthocyanin Synthesis Genes in Seedlings of Black Glutinous Rice in Response to Salt Stress
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Changes in Anthocyanin Content and Expression of Anthocyanin Synthesis Genes in Seedlings of Black Glutinous Rice in Response to Salt Stress
Background and Objective: Anthocyanins have been implicated to offer some protective roles for vegetative and reproductive tissues under abiotic stresses. In this study, the effects of salt stress on physiological responses including anthocyanin accumulation and the expression of anthocyanin biosynthetic genes in seedlings of two cultivars of black glutinous rice ( Oryza sativa L.) differing in the levels of salinity tolelance and leaf anthocyanin were investigated. Materials and Methods: Two rice cultivars namely Niewdam Gs. No. 00621 (salt-tolerant, deep purple leaf colour) and KKU-LLR-039 (salt-sensitive, greenish purple leaf color) were grown in a hydroponic culture until 21 days old. Thereafter, they were treated with 0, 75 and 150 mM NaCl for 0, 2, 4, 6 and 8 days. Leaf tissues were collected for physiological determination and expression analysis of anthocyanin biosynthesis genes. Results: The growth parameters, total chlorophyll and chlorophyll fluorescence ratio (Fv/Fm) were progressively reduced while the electrolyte leakage rate increased with increasing NaCl concentrations and the length of time of salinity treatments. For all physiological parameters, the cultivar Niewdam Gs. No. 00621 was less afftected under salt stress. The highest anthocyanin content was attained after 2 and 4 days of salt stress in KKU-LLR-039 and Niewdam Gs. No. 00621, respectively; followed by a reduction in both cultivars until 8 days of salt stress. Real-time PCR analysis showed that the patterns of expression of anthocyanin biosynthesis genes Phenylalanine Ammonia Lyase (PAL), chalcone synthase (CHS), dihydroflavonol 4-reductase (DFR) and anthocyanidin synthase (ANS) were related with variations in anthocyanin contents. The maximum expression levels of CHS, DFR and ANS compared to those of non-stressed controls were observed after 2 and 4 days of stress for KKU-LLR-039 and Niewdam Gs. No. 00621, respectively, thereafter the expression dramatically reduced after 6-8 days of stress. The anthocyanin content and relative expression of the four genes was higher in the leaves of Niewdam Gs. No. 00621 than in KKU-LLR-039. Conclusion: Higher accumulation of anthocyanins may be one of the protective physiological traits under salt stress. Therefore, the rice cultivar with deep purple leaf color suffered from less severe cellular damages and lower growth reduction under salt stress compared with the one with less intense anthocyanins.
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机译:背景与目的:花色苷被认为对非生物胁迫下的营养和生殖组织具有一定的保护作用。在这项研究中,研究了盐分胁迫和叶片花色苷水平不同的两个黑糯稻(Oryza sativa L.)品种的盐胁迫对生理响应的影响,包括花色苷积累和花色苷生物合成基因的表达。材料和方法:两个水稻品种,即新芽糖苷。在水培法中培养No.00621(耐盐,深紫色叶色)和KKU-LLR-039(对盐敏感,绿紫色叶色)直到21天大。之后,将其用0、75和150 mM NaCl处理0、2、4、6和8天。收集叶组织用于花色苷生物合成基因的生理测定和表达分析。结果:随着NaCl浓度和NaCl浓度的增加,其生长参数,总叶绿素和叶绿素荧光比(F v / F m )逐渐降低,而电解质的漏出率增加。盐度处理时间。对于所有生理参数,品种Niewdam Gs。盐胁迫对00621号的影响较小。在KKU-LLR-039和Niewdam Gs中,盐胁迫2天和4天后,花青素含量最高。 00621号;然后减少两个品种,直到盐胁迫8天。实时PCR分析表明,花色苷生物合成基因苯丙氨酸氨分解酶(PAL),查尔酮合酶(CHS),二氢黄酮醇4-还原酶(DFR)和花色苷合酶(ANS)的表达模式与花色苷含量的变化有关。在应激2天和4天后,对于KKU-LLR-039和Niewdam Gs,观察到CHS,DFR和ANS与非应激对照组相比的最大表达水平。其后分别为No.00621,其表达在应激6-8天后急剧降低。 Niewdam Gs叶片中四个基因的花色苷含量和相对表达较高。 00621号,而不是KKU-LLR-039。结论:花青素的高积累可能是盐胁迫下的保护性生理特征之一。因此,与花青素强度较弱的水稻相比,叶色深紫色的水稻品种在盐胁迫下遭受的细胞损害较小,而减缓的生长速度较低。
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