Zhenfeng Li, Xiyi Yang, Zongxu Li, Xiaoli Zou, C. Jiang, Yijun Zhang, Yingyan Han, Chaojie Liu, J. Hao
{"title":"莴苣ABF基因家族的全基因组分析揭示了LsABF1在热诱导锚固中的负面作用","authors":"Zhenfeng Li, Xiyi Yang, Zongxu Li, Xiaoli Zou, C. Jiang, Yijun Zhang, Yingyan Han, Chaojie Liu, J. Hao","doi":"10.5539/jas.v15n9p42","DOIUrl":null,"url":null,"abstract":"As one of the most significant leafy vegetables, the occurrence of early bolting due to high temperatures during summer has emerged as a significant challenge in the annual cultivation production of leaf lettuce, demanding urgent resolution. ABF transcription factors, also known as ABA-responsive element binding factors, are a class of basic leucine zipper (bZIP) proteins that specifically recognize ABREs and play a critical role in the ABA signaling pathway. In this study, we identified 8 members of the ABF gene family in leaf lettuce. A phylogenetic analysis was conducted on the ABF members of leaf lettuce, which resulted in the clustering of these members into three groups: A, B, and C. By performing a multiple sequence alignment analysis, it was observed that all LsABFs contain a highly conserved domain, RMIKNRESAARSRARKQAY (Bzip_plant_BZIP46). The result of tandem duplication events analysis in the ABF genes showed that there were two pairs of tandem duplication genes: LsABF2-LsABF1and LsABF3-LsABF1. A total of 1242 cis-acting elements were identified, and 323 cis-acting elements were screened out. In phosphorylation site analysis, a total of 304 phosphorylation sites were predicted. All LsABFs members had similar expression patterns, and their expression on the 8th day was significantly higher than the control, suggesting their involvement in the bolting process. Silencing LsABF1 has a positive effect on bolting in leaf lettuce, indicating that LsABF1 is a potential regulator of lettuce bolting. This study provides a theoretical basis for a better understanding of the molecular mechanisms underlying the ABF genes in high-temperature-induced bolting.","PeriodicalId":14884,"journal":{"name":"Journal of Agricultural Science","volume":"17 2","pages":""},"PeriodicalIF":1.7000,"publicationDate":"2023-08-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Genome-Wide Analysis of ABF Gene Family in Lettuce (Lactuca sativa L.) Reveals the Negative Roles of LsABF1 in Thermally Induced Bolting\",\"authors\":\"Zhenfeng Li, Xiyi Yang, Zongxu Li, Xiaoli Zou, C. Jiang, Yijun Zhang, Yingyan Han, Chaojie Liu, J. Hao\",\"doi\":\"10.5539/jas.v15n9p42\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"As one of the most significant leafy vegetables, the occurrence of early bolting due to high temperatures during summer has emerged as a significant challenge in the annual cultivation production of leaf lettuce, demanding urgent resolution. ABF transcription factors, also known as ABA-responsive element binding factors, are a class of basic leucine zipper (bZIP) proteins that specifically recognize ABREs and play a critical role in the ABA signaling pathway. In this study, we identified 8 members of the ABF gene family in leaf lettuce. A phylogenetic analysis was conducted on the ABF members of leaf lettuce, which resulted in the clustering of these members into three groups: A, B, and C. By performing a multiple sequence alignment analysis, it was observed that all LsABFs contain a highly conserved domain, RMIKNRESAARSRARKQAY (Bzip_plant_BZIP46). The result of tandem duplication events analysis in the ABF genes showed that there were two pairs of tandem duplication genes: LsABF2-LsABF1and LsABF3-LsABF1. A total of 1242 cis-acting elements were identified, and 323 cis-acting elements were screened out. In phosphorylation site analysis, a total of 304 phosphorylation sites were predicted. All LsABFs members had similar expression patterns, and their expression on the 8th day was significantly higher than the control, suggesting their involvement in the bolting process. Silencing LsABF1 has a positive effect on bolting in leaf lettuce, indicating that LsABF1 is a potential regulator of lettuce bolting. 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Genome-Wide Analysis of ABF Gene Family in Lettuce (Lactuca sativa L.) Reveals the Negative Roles of LsABF1 in Thermally Induced Bolting
As one of the most significant leafy vegetables, the occurrence of early bolting due to high temperatures during summer has emerged as a significant challenge in the annual cultivation production of leaf lettuce, demanding urgent resolution. ABF transcription factors, also known as ABA-responsive element binding factors, are a class of basic leucine zipper (bZIP) proteins that specifically recognize ABREs and play a critical role in the ABA signaling pathway. In this study, we identified 8 members of the ABF gene family in leaf lettuce. A phylogenetic analysis was conducted on the ABF members of leaf lettuce, which resulted in the clustering of these members into three groups: A, B, and C. By performing a multiple sequence alignment analysis, it was observed that all LsABFs contain a highly conserved domain, RMIKNRESAARSRARKQAY (Bzip_plant_BZIP46). The result of tandem duplication events analysis in the ABF genes showed that there were two pairs of tandem duplication genes: LsABF2-LsABF1and LsABF3-LsABF1. A total of 1242 cis-acting elements were identified, and 323 cis-acting elements were screened out. In phosphorylation site analysis, a total of 304 phosphorylation sites were predicted. All LsABFs members had similar expression patterns, and their expression on the 8th day was significantly higher than the control, suggesting their involvement in the bolting process. Silencing LsABF1 has a positive effect on bolting in leaf lettuce, indicating that LsABF1 is a potential regulator of lettuce bolting. This study provides a theoretical basis for a better understanding of the molecular mechanisms underlying the ABF genes in high-temperature-induced bolting.
期刊介绍:
The Journal of Agricultural Science publishes papers concerned with the advance of agriculture and the use of land resources throughout the world. It publishes original scientific work related to strategic and applied studies in all aspects of agricultural science and exploited species, as well as reviews of scientific topics of current agricultural relevance. Specific topics of interest include (but are not confined to): all aspects of crop and animal physiology, modelling of crop and animal systems, the scientific underpinning of agronomy and husbandry, animal welfare and behaviour, soil science, plant and animal product quality, plant and animal nutrition, engineering solutions, decision support systems, land use, environmental impacts of agriculture and forestry, impacts of climate change, rural biodiversity, experimental design and statistical analysis, and the application of new analytical and study methods (including genetic diversity and molecular biology approaches). The journal also publishes book reviews and letters. Occasional themed issues are published which have recently included centenary reviews, wheat papers and modelling animal systems.