文献类型: 外文期刊
第一作者: Mehdi, Faisal
作者: Mehdi, Faisal;Wickramasinghe, Kamal Priyananda;Zhao, Peifang;Lu, Xin;Lin, Xiuqin;Xu, Chaohua;Liu, Hongbo;Li, Xujuan;Liu, Xinlong;Mehdi, Faisal;Galani, Saddia;Wickramasinghe, Kamal Priyananda
作者机构:
关键词: Sucrose metabolizing enzymes; Source-sink communication; Post-transcriptional factors; Sucrose accumulation; Sugarcane genetic engineering
期刊名称:HELIYON ( 影响因子:4.0; 五年影响因子:4.1 )
ISSN:
年卷期: 2024 年 10 卷 5 期
页码:
收录情况: SCI
摘要: Sugars transported from leaves (source) to stems (sink) energize cell growth, elongation, and maintenance. which are regulated by a variety of genes. This review reflects progress and prospects in the regulatory mechanism for maximum sucrose accumulation, including the role of sucrose metabolizing enzymes, sugar transporters and the elucidation of post -transcriptional control of sucrose -induced regulation of translation (SIRT) in the accumulation of sucrose. The current review suggests that SIRT is emerging as a significant mechanism controlling Scbzip44 activities in response to endogenous sugar signals (via the negative feedback mechanism). Sucrose -controlled upstream open reading frame (SC-uORF) exists at the 5 ' leader region of Scbzip44 ' s main ORF, which inhibits sucrose accumulation through post -transcriptional regulatory mechanisms. Sucrose transporters ( SWEET1a/4a/4b/13c, TST, SUT1, SUT4 and SUT5 ) are crucial for sucrose translocation from source to sink. Particularly, SWEET13c was found to be a major contributor to the efflux in the transportation of stems. Tonoplast sugar transporters (TSTs), which import sucrose into the vacuole, suggest their tissue -specific role from source to sink. Sucrose cleavage has generally been linked with invertase isozymes, whereas sucrose synthase (SuSy)-catalyzed metabolism has been associated with biosynthetic processes such as UDP-Glc, cellulose, hemicellulose and other polymers. However, other two key sucrose -metabolizing enzymes, such as sucrose -6 -phosphate phosphohydrolase (S6PP) and sucrose phosphate synthase (SPS) isoforms, have been linked with sucrose biosynthesis. These findings suggest that manipulation of genes, such as overexpression of SPS genes and sucrose transporter genes, silencing of the SC-uORF of Scbzip44 (removing the 5 ' leader region of the main ORF that is called SIRTInsensitive) and downregulation of the invertase genes, may lead to maximum sucrose accumulation. This review provides an overview of sugarcane sucrose -regulating systems and baseline information for the development of cultivars with higher sucrose accumulation.
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