Additional file 6: Table S6a. of Sporobolus stapfianus: Insights into desiccation tolerance in the resurrection grasses from linking transcriptomics to metabolomics

SDATs encoding antioxidant enzymes and enzymes involved in antioxidant biosynthesis. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples ((80%, 60, 40, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12h and 24h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6b. SDATs encoding enzymes involved in carbohydrate and energy metabolism. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60%, 40%, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6c. SDATs encoding enzymes involved in cell wall biosynthesis and catabolism. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60, 40, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6d. SDATs encoding kinases and phosphatases. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60%, 40%, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6e. SDATs encoding transcription factors. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60%, 40%, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12h and 24h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6f. SDATs encoding late embryogenesis abundant (LEA) proteins. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60, 40, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6g. SDATs encoding heat shock and molecular chaperones. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60, 40, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table 6h. SDATs encoding ABA-induced transcripts. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60%, 40%, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. Table S6i. SDATs encoding proteins and enzymes involved in protein biosynthesis and turnover. The color shading represents a statistically significant change in transcript abundance in the dehydrated samples (80%, 60, 40, and 30% RWC) from the abundance of the transcript in the hydrated control (HYD). In the rehydrating samples (12 h and 24 h), the color shading represents a significant change in transcript abundance from that of the hydrated control (HYD) or the dried samples (DRY). Red indicates a statistically significant increase in transcript abundance and green a statistically significant decrease in abundance. (XLS 308 kb)

SDATs编码抗氧化酶及参与抗氧化生物合成的酶。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6b。 SDATs编码参与碳水化合物与能量代谢的酶。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6c。 SDATs编码参与细胞壁生物合成与分解代谢的酶。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6d。 SDATs编码激酶与磷酸酶。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6e。 SDATs编码转录因子。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6f。 SDATs编码晚期胚胎富集蛋白（late embryogenesis abundant，LEA）。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6g。 SDATs编码热休克蛋白与分子伴侣。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表6h。 SDATs编码脱落酸（ABA）诱导的转录本。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。表S6i。 SDATs编码参与蛋白质生物合成与周转的蛋白质与酶。颜色梯度代表脱水样品（相对含水量RWC分别为80%、60%、40%和30%）的转录本丰度与水合对照（HYD）样本相比的统计学显著变化。在复水样品（12h和24h）中，颜色梯度代表其转录本丰度与水合对照（HYD）或干燥样品（DRY）相比的统计学显著变化。红色代表转录本丰度存在统计学显著上调，绿色代表转录本丰度存在统计学显著下调。（XLS 308 KB）