Abstract
Expansins, which are important components of plant cell walls, act as loosening factors to directly induce turgor-driven cell wall expansion, regulate the growth and development of roots, leaves, fruits, and other plant organs, and function essentially under environmental stresses. In multiple species, many expansin genes (EXPs) have been cloned and functionally validated but little is known in pomegranate. In this study, a total of 33 PgEXPs were screened from the whole genome data of ‘Taishanhong’ pomegranate, belonging to the EXPA(25), EXPB(5), EXLA(1), and EXLB(2) subfamilies. Subsequently, the composition and characteristics were analyzed. Members of the same branch shared similar motif compositions and gene structures, implying they had similar biological functions. According to cis-acting element analysis, PgEXPs contained many light and hormone response elements in promoter regions. Analysis of RNA-seq data and protein interaction network indicated that PgEXP26 had relatively higher transcription levels in all pomegranate tissues and might be involved in pectin lyase protein synthesis, whilst PgEXP5 and PgEXP31 might be involved in the production of enzymes associated with cell wall formation. Quantitative real-time PCR (qRT-PCR) results revealed that PgEXP expression levels in fruit peels varied considerably across fruit developmental phases. PgEXP23 was expressed highly in the later stages of fruit development, suggesting that PgEXP23 was essential in fruit ripening. On the other hand, the PgEXP28 expression level was minimal or non-detected. Our work laid a foundation for further investigation into pomegranate expansin gene functions.
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