Southern Regional Collaborative Innovation Center for Grain and Oil Crops in China, Hunan Agricultural University, Changsha, 410128, China.
State Key Laboratory of Crop Biology, College of Life Science, Shandong Agricultural University, Taian, Shandong, China.
Plant J. 2018 May;94(4):612-625. doi: 10.1111/tpj.13881. Epub 2018 Apr 1.
Rice (Oryza sativa L.) has two ecotypes, upland and lowland rice, that have been observed to show different tolerance levels under flooding stress. In this study, two rice cultivars, upland (Up221, flooding-intolerant) and lowland (Low88, flooding-tolerant), were initially used to study their molecular mechanisms in response to flooding germination. We observed that variations in the OsCBL10 promoter sequences in these two cultivars might contribute to this divergence in flooding tolerance. Further analysis using another eight rice cultivars revealed that the OsCBL10 promoter could be classified as either a flooding-tolerant type (T-type) or a flooding-intolerant type (I-type). The OsCBL10 T-type promoter only existed in japonica lowland cultivars, whereas the OsCBL10 I-type promoter existed in japonica upland, indica upland and indica lowland cultivars. Flooding-tolerant rice cultivars containing the OsCBL10 T-type promoter have shown lower Ca flow and higher α-amylase activities in comparison to those in flooding-intolerant cultivars. Furthermore, the OsCBL10 overexpression lines were sensitive to both flooding and hypoxic treatments during rice germination with enhanced Ca flow in comparison to wild-type. Subsequent findings also indicate that OsCBL10 may affect OsCIPK15 protein abundance and its downstream pathways. In summary, our results suggest that the adaptation to flooding stress during rice germination is associated with two different OsCBL10 promoters, which in turn affect OsCBL10 expression in different cultivars and negatively affect OsCIPK15 protein accumulation and its downstream cascade.
水稻(Oryza sativa L.)有两种生态型,分别为旱地和水田,它们在水淹胁迫下表现出不同的耐受水平。在本研究中,我们最初使用了两个水稻品种,旱地(Up221,不耐水淹)和水田(Low88,耐水淹),来研究它们在水淹发芽过程中的分子机制。我们观察到这两个品种中 OsCBL10 启动子序列的差异可能导致了它们在水淹耐受性方面的差异。进一步使用另外八个水稻品种进行分析表明,OsCBL10 启动子可以分为耐水淹型(T 型)和不耐水淹型(I 型)。OsCBL10 T 型启动子仅存在于粳稻水田品种中,而 OsCBL10 I 型启动子存在于粳稻旱地、籼稻旱地和籼稻水田品种中。含有 OsCBL10 T 型启动子的耐水淹水稻品种在水淹时表现出较低的 Ca 流和较高的α-淀粉酶活性,而不耐水淹的品种则表现出较高的 Ca 流和较低的α-淀粉酶活性。此外,与野生型相比,在水稻发芽过程中,过表达 OsCBL10 的植株对水淹和缺氧处理都很敏感,Ca 流增加。后续的研究结果还表明,OsCBL10 可能影响 OsCIPK15 蛋白的丰度及其下游途径。综上所述,我们的研究结果表明,水稻在发芽过程中适应水淹胁迫与两种不同的 OsCBL10 启动子有关,这反过来又影响了不同品种中 OsCBL10 的表达,并负调控 OsCIPK15 蛋白的积累及其下游级联反应。
