Abstract
BackgroundRibonuclease (RNase T2) plays crucial roles in plant evolution and breeding. However, there have been few studies on the RNase T2 gene family in Ziziphus jujuba Mill., one of important dried fruit tree species. Recently, the released sequences of the reference genome of jujube provide a good chance to perform genome-wide identification and characterization of ZjRNase gene family in the jujube.ResultsIn this study, we identified four members of RNase T2 in jujube distributed on three chromosomes and unassembled chromosomes. They all contained two conserved sites (CASI and CASII). Analysis of the phylogenetic relationships revealed that the RNase T2 genes in jujube could be divided into two groups: ZjRNase1 and ZjRNase2 belonged to class I, while ZjRNase3 and ZjRNase4 belonged to class II. Only ZjRNase1 and ZjRNase2 expression were shown by the jujube fruit transcriptome analysis. So ZjRNase1 and ZjRNase2 were selected functional verification by overexpression transformation of Arabidopsis. The overexpression of these two genes led to an approximately 50% reduction in seed number, which deserve further attention. Moreover, the leaves of the ZjRNase1 overexpression transgenic lines were curled and twisted. Overexpression of ZjRNase2 resulted in shortened and crisp siliques and the production of trichomes, and no seeds were produced.ConclusionIn summary, these findings will provide new insights into the molecular mechanisms of low number of hybrid seeds in jujube and a reference for the future molecular breeding of jujube.
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