AI Article Synopsis
- Soybean is a crucial crop for grain and oil, with a significant supply-demand imbalance in China due to large areas of salt-alkaline soil that could be cultivated.
- Identifying salt-alkaline tolerant genes from wild soybean is essential since cultivated varieties have lost many vital genes for environmental adaptation during domestication.
- The review highlights current research on wild soybean's response to salt-alkaline stress, including genes involved in ion balance and ROS scavenging, as well as key protein kinases and transcription factors, which can aid in breeding more resilient soybean cultivars.
Article Abstract
Soybean is an important grain and oil crop. In China, there is a great contradiction between soybean supply and demand. China has around 100 million ha of salt-alkaline soil, and at least 10 million could be potentially developed for cultivated land. Therefore, it is an effective way to improve soybean production by breeding salt-alkaline-tolerant soybean cultivars. Compared with wild soybean, cultivated soybean has lost a large number of important genes related to environmental adaptation during the long-term domestication and improvement process. Therefore, it is greatly important to identify the salt-alkaline tolerant genes in wild soybean, and investigate the molecular basis of wild soybean tolerance to salt-alkaline stress. In this review, we summarized the current research regarding the salt-alkaline stress response in wild soybean. The genes involved in the ion balance and ROS scavenging in wild soybean were summarized. Meanwhile, we also introduce key protein kinases and transcription factors that were reported to mediate the salt-alkaline stress response in wild soybean. The findings summarized here will facilitate the molecular breeding of salt-alkaline tolerant soybean cultivars.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9627173 | PMC |
| http://dx.doi.org/10.3389/fpls.2022.1002302 | DOI Listing |
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