Abstract
Dehydrins (DHNs) are a complex family of plant proteins that play an important role in protection of higher plant cells from dehydration and desiccation damage during environmental stresses, such as drought, high salinity, and low temperature. However, information on DHN genes of Asian pear (Pyrus pyrifolia), an economically important fruit crop grown in temperate regions in East Asia, e.g., China and Japan, is limited. To gain insights into this gene family in pear and to elucidate their roles in floral buds under low-temperature conditions, we performed a genome-wide identification, characterization, and expression analysis of DHN genes. Seven PpDHN genes were identified. Sequence alignment analysis of all putative proteins from these genes showed that all of the proteins contained a typical K-domain. These genes were categorized into SKn, YnSKn, YKn, and Kn groups based on gene characterization and phylogenetic relationships. Hierarchical cluster analyses showed that in non-stressed pear, PpDHN genes were expressed in all vegetative tissues except young leaves and shoot tips, in which PpDHN1, PpDHN2, and PpDHN4 were not expressed. Transcript levels of four PpDHN genes increased significantly in floral buds in response to low-temperature treatment, which indicated that they play important roles during stress adaptation. This study provides evidence that the family of pear DHN genes may function in tissue development and stress responses. The data will be valuable for further studies of the functions of DHN genes under different stress conditions in pear.
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