SIMILAR TO RCD-ONE (SRO) is a plant-specific small protein family that controls many biological processes including physiological development and stress responses. The SRO gene family has been studied in several plant species, but no detailed characterization and expression profiles of this important gene family were performed in cucumber. In this study, we characterize the SRO genes in cucumber, and determined their transcript levels in various tissues and under exposure to diverse biotic and abiotic stressors. Four SRO genes (named as CsSRO1–CsSRO4) were identified and isolated, which were distributed on three different chromosomes. Gene duplication analysis showed that only one pair of segmental duplication event was identified, but no tandem duplication events were detected. All CsSROs consist of the PARP domain and a C-terminal RST domain, while the N-terminal WWE domain was only present in CsSRO2 and CsSRO4. SROs from 15 plant species are divided into two groups (I and II), and group I can be further divided into four subgroups (Ia to Id) according to the phylogenetic tree. The conserved motif and gene structure analyses showed that SROs within the same branch of the phylogenetic tree have analogous conserved motifs configuration and gene structures. However, SRO genes possessed variable numbers of introns in different subgroups, which may affect the evolution of new family members. RNA-Seq data and qRT-PCR results showed that the four CsSRO genes have distinct expression pattern in various tissues and under diverse stresses, suggesting their multiple functions in plant growth and stress responses. The findings provide a basis for further research aiming at functional characterization of the regulatory mechanism to reveal the roles of CsSRO genes in developmental and stress-related processes of cucumber.
Glycerol-3-phosphate dehydrogenase (GPDH) catalyses the interconversion of glycerol-3-phosphate (G3P) and dihydroxyacetone phosphate (DHAP), and plays key roles in different developmental processes and stress responses. GPDH family genes have been previously investigated in various plant species, such as Arabidopsis, maize, and soybean. However, very little is known in GPDH family genes in wheat. In this study, a total of 17 TaGPDH genes were identified from the wheat genome, including eight cytosolic GPDHs, six chloroplastic GPDHs and three mitochondrial GPDHs. Gene duplication analysis showed that segmental duplications contributed to the expansion of this gene family. Phylogenetic results showed that TaGPDHs were clustered into three groups with the same subcellular localization and domain distribution, and similar conserved motif arrangement and gene structure. Expression analysis based on the RNA-seq data showed that GPDH genes exhibited preferential expression in different tissues, and several genes displayed altered expression under various abiotic stresses. These findings provide the foundation for further research of wheat GPDH genes in plant growth, development and stress responses.
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