期刊论文详细信息
BMC Genomics
Structural, expression and evolutionary analysis of the non-specific phospholipase C gene family in Gossypium hirsutum
Juren Zhang1  Kewei Zhang1  Jiuling Song1  Yonghe Zhou2 
[1] Ministry of Education Key Laboratory of Plant Cell Engineering and Germplasm Innovation, School of Life Science, Shandong University;School of Computer Science and Technology, Jilin University;
关键词: ABA;    Abiotic stress;    Cloning;    Evolution;    Expression;    Gossypium hirsutum;   
DOI  :  10.1186/s12864-017-4370-6
来源: DOAJ
【 摘 要 】

Abstract Background Nonspecific phospholipase C (NPC), which belongs to a phospholipase C subtype, is a class of phospholipases that hydrolyzes the primary membrane phospholipids, such as phosphatidylcholine, to yield sn-1, 2-diacylglycerol and a phosphorylated head-group. NPC plays multiple physiological roles in lipid metabolism and signaling in plants. To fully understand the putative roles of NPC genes in upland cotton, we cloned NPC genes from Gossypium hirsutum and carried out structural, expression and evolutionary analysis. Results Eleven NPC genes were cloned from G. hirsutum, which were found on chromosomes scaffold269.1, D03, A07, D07, A08, D11, and scaffold3511_A13. All GhNPCs had typical phosphoesterase domains and have hydrolase activity that acts on ester bonds. GhNPCs were annotated as phospholipase C, which was involved in glycerophospholipid metabolism, ether lipid metabolism, and biosynthesis of secondary metabolites. These GhNPCs showed differential expression patterns in distinct plant tissues and in response to various types of stress (low-phosphate, salt, drought, and abscisic acid). They also had different types and numbers of cis-element. GhNPCs could be classified into four subfamilies. Four pairs of GhNPCs were generated by whole-genome duplication and they underwent purifying selection. Conclusions Our results suggested that GhNPCs are involved in regulating key abiotic stress responses and ABA signaling transduction, and they may have various functional roles for different members under complex abiotic stress conditions. Functional divergence may be the evolutionary driving force for the retention of four pairs of duplicate NPCs. Our analysis provides a solid foundation for the further functional characterization of the GhNPC gene family, and leads to potential applications in the genetic improvement of cotton cultivars.

【 授权许可】

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