Plant lipoxygenases (LOXs), a kind of non-heme iron-containing dioxygenases, participate plant physiological activities (especially in response to biotic and abiotic stresses) through oxidizing various lipids. However, there was few investigations on LOXs in foxtail millet (Setaria italica). In this study, we identified the LOX gene family in foxtail millet, and divided the total 12 members into three sub-families on the basis of their phylogenetic relationships. Under salt and drought stress, LOX genes showed different expression patterns. Among them, only SiLOX7 showed up-regulated expression in Yugu1 (YG1) and Qinhuang2 (QH2), two stress-tolerant varieties, indicating that SiLOX7 may play an important role in responses to abiotic stress. Our research provides a basis for further investigation of the role of LOX genes in the adaptation to abiotic stresses and other possible biological functions in foxtail millet.
The motivations for firms to undertake corporate environmental responsibility (CER) have been a hot topic in academia. However, with the rise of the digital economy, it is still been determined whether digital transformation will become a driving force for firms to assume CER. Based on panel data of Chinese listed firms in polluting industries, this article empirically tests whether and how digital transformation affects CER. The results show that digital transformation significantly motivates firms to assume more CER, especially for state‐owned and large‐scale firms and those located in the western region and ordinary‐level cities. The influence mechanism behind the relationship reveals that digital transformation improves financing ability and further encourages firms to assume CER. However, the effect is only short‐term and has no significant influence on the long‐term financing ability. Further research shows that regional differences in environmental governance pressure can strengthen the effect of digital transformation on CER. Our empirical findings provide policy implications for firms' digital transformation and sustainable development.
Anthocyanin is a natural pigment that has a functional role in plants to attract pollinating insects and is important in stress response. Foxtail millet (Setaria italica) is known as a nutritional crop with high resistance to drought and barren. However, the molecular mechanism regulating anthocyanin accumulation and the relationship between anthocyanin and the stress resistance of foxtail millet remains obscure. In this study, we screened hundreds of germplasm resources and obtained several varieties with purple plants in foxtail millet. By studying the purple-leaved B100 variety and the control variety, Yugu1 with green leaves, we found that B100 could accumulate a large amount of anthocyanin in the leaf epiderma, and B100 had stronger stress tolerance. Further transcriptome analysis revealed the differences in gene expression patterns between the two varieties. We identified nine genes encoding enzymes related to anthocyanin biosynthesis using quantitative PCR validation that showed significantly higher expression levels in B100 than Yugu1. The results of this study lay the foundation for the analysis of the molecular mechanism of anthocyanin accumulation in foxtail millet, and provided genetic resources for the molecular breeding of crops with high anthocyanin content.
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