Genome-wide identification of the NCED gene family and functional characterization of PavNCED5 related to bud dormancy in sweet cherry

Abscisic acid (ABA) is involved in responding to various stresses and regulating the dormancy of flower buds in fruit trees. The cleavage of carotenoids is catalyzed by 9-cis epoxy carotenoid dioxygenase (NCED), and is a key step in ABA biosynthesis. Although NCED genes have been identified in a variety of plants, the characteristics of these genes in sweet cherry (Prunus avium L.) trees have been seldom reported. In the present study, 10 PavNCED genes were identified in the sweet cherry genome and distributed on three chromosomes. Cis-element analysis of PavNCEDs indicated that they might be related to hormone regulation, stress responses, and plant development. Through co-expression network analysis, the transcription factors were identified, such as ERF, bHLH and TCP, which might be involved in the regulation of PavNCEDs. Expression pattern analysis of the PavNCED family genes showed that PavNCED1-5 genes were highly expressed during the flower bud dormancy. Importantly, the expression of PavNCED5 was decreased with the decline of ABA content in the sweet cherry. Additionally, the overexpression of PavNCED5 in Arabidopsis showed dormancy deficiency of seeds. This implies that PavNCED5 may play an important role during the dormancy stage of sweet cherry. In general, we characterized the NCED family in sweet cherry and revealed the essential role of PavNCED5 in flower bud dormancy. These findings open up future research directions and provide valuable information for the further functional study of PavNCEDs in sweet cherry.

Automated summary

In this study, 10 PavNCED genes were identified in the sweet cherry genome and were found to be related to hormone regulation, stress responses, and plant development. Transcription factors such as ERF, bHLH, and TCP were identified to be involved in the regulation of PavNCED genes. Expression pattern analysis showed that PavNCED1-5 genes were highly expressed during flower bud dormancy, and the expression of PavNCED5 decreased with the decline of ABA content in sweet cherry. Overexpression of PavNCED5 in Arabidopsis resulted in dormancy deficiency of seeds.