Institute of Urban Agriculture, Chinese Academy of Agricultural Sciences, 610213, Chengdu, China.
Zhengzhou Research Base, State Key Laboratory of Cotton Biology, School of Agricultural, Sciences of Zhengzhou University, 450000, Zhengzhou, China.
BMC Genomics. 2021 Nov 14;22(1):821. doi: 10.1186/s12864-021-08109-9.
The tricarboxylic acid (TCA) cycle is crucial for energy supply in animal, plant, and microbial cells. It is not only the main pathway of carbohydrate catabolism but also the final pathway of lipid and protein catabolism. Some TCA genes have been found to play important roles in the growth and development of tomato and potato, but no comprehensive study of TCA cycle genes in Solanaceae crops has been reported.
In this study, we analyzed TCA cycle genes in four important Solanaceae vegetable crops (potato (Solanum tuberosum), tomato (Solanum lycopersicum), eggplant (Solanum melongena), and pepper (Capsicum annuum)) based on comparative genomics. The four Solanaceae crops had a total of 180 TCA cycle genes: 43 in potato, 44 in tomato, 40 in eggplant, and 53 in pepper. Phylogenetic analysis, collinearity analysis, and tissue expression patterns revealed the conservation of and differences in TCA cycle genes between the four Solanaceae crops and found that there were unique subgroup members in Solanaceae crops that were independent of Arabidopsis genes. The expression analysis of potato TCA cycle genes showed that (1) they were widely expressed in various tissues, and some transcripts like Soltu.DM.01G003320.1(SCoAL) and Soltu.DM.04G021520.1 (SDH) mainly accumulate in vegetative organs, and some transcripts such as Soltu.DM.12G005620.3 (SDH) and Soltu.DM.02G007400.4 (MDH) are preferentially expressed in reproductive organs; (2) several transcripts can be significantly induced by hormones, such as Soltu.DM.08G023870.2 (IDH) and Soltu.DM.06G029290.1 (SDH) under ABA treatment, and Soltu.DM.07G021850.2 (CSY) and Soltu.DM.09G026740.1 (MDH) under BAP treatment, and Soltu.DM.02G000940.1 (IDH) and Soltu.DM.01G031350.4 (MDH) under GA treatment; (3) Soltu.DM.11G024650.1 (SDH) can be upregulated by the three disease resistance inducers including Phytophthora infestans, acibenzolar-S-methyl (BTH), and DL-β-amino-n-butyric acid (BABA); and (4) the levels of Soltu.DM.01G045790.1 (MDH), Soltu.DM.01G028520.3 (CSY), and Soltu.DM.12G028700.1 (CSY) can be activated by both NaCl and mannitol. The subcellular localization results of three potato citrate synthases showed that Soltu.DM.01G028520.3 was localized in mitochondria, while Soltu.DM.12G028700.1 and Soltu.DM.07G021850.1 were localized in the cytoplasm.
This study provides a scientific foundation for the comprehensive understanding and functional studies of TCA cycle genes in Solanaceae crops and reveals their potential roles in potato growth, development, and stress response.
三羧酸 (TCA) 循环对动物、植物和微生物细胞的能量供应至关重要。它不仅是碳水化合物分解代谢的主要途径,也是脂质和蛋白质分解代谢的最终途径。一些 TCA 基因已被发现在番茄和马铃薯的生长和发育中发挥重要作用,但尚未有关于茄科作物 TCA 循环基因的综合研究报告。
本研究基于比较基因组学,对马铃薯(Solanum tuberosum)、番茄(Solanum lycopersicum)、茄子(Solanum melongena)和辣椒(Capsicum annuum)这四种重要的茄科蔬菜作物中的 TCA 循环基因进行了分析。这四种茄科作物共有 180 个 TCA 循环基因:马铃薯 43 个,番茄 44 个,茄子 40 个,辣椒 53 个。系统发育分析、共线性分析和组织表达模式揭示了 TCA 循环基因在四种茄科作物中的保守性和差异,并发现茄科作物中存在一些独特的亚组成员,它们与拟南芥基因无关。对马铃薯 TCA 循环基因的表达分析表明:(1)它们在各种组织中广泛表达,一些转录本如 Soltu.DM.01G003320.1(SCoAL)和 Soltu.DM.04G021520.1(SDH)主要在营养器官中积累,而一些转录本如 Soltu.DM.12G005620.3(SDH)和 Soltu.DM.02G007400.4(MDH)则优先在生殖器官中表达;(2)一些转录本可以被激素显著诱导,如 Soltu.DM.08G023870.2(IDH)和 Soltu.DM.06G029290.1(SDH)在 ABA 处理下,Soltu.DM.07G021850.2(CSY)和 Soltu.DM.09G026740.1(MDH)在 BAP 处理下,Soltu.DM.02G000940.1(IDH)和 Soltu.DM.01G031350.4(MDH)在 GA 处理下;(3)Soltu.DM.11G024650.1(SDH)可以被三种抗病诱导剂,包括晚疫病菌、苯并噻二唑(BTH)和 DL-β-氨基-n-丁酸(BABA)上调;(4)Soltu.DM.01G045790.1(MDH)、Soltu.DM.01G028520.3(CSY)和 Soltu.DM.12G028700.1(CSY)的水平可以被 NaCl 和甘露醇同时激活。三种马铃薯柠檬酸合酶的亚细胞定位结果表明,Soltu.DM.01G028520.3定位于线粒体,而 Soltu.DM.12G028700.1 和 Soltu.DM.07G021850.1定位于细胞质。
本研究为全面了解和研究茄科作物 TCA 循环基因提供了科学依据,并揭示了它们在马铃薯生长、发育和应激反应中的潜在作用。
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