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Caleosin are a class of calcium-binding proteins embedded in the phospholipid   monolayer of lipid droplets. In addition to maintaining thestructure of lipid   droplets, caleosin proteins areinvolved in dormancy and lipid signaling, and   areassociatedwith the stress response via their histidine-dependent   peroxygenase activity. To date, caleosins have been studied in Arabidopsis   thaliana. However, little is known about these genes in legumes,including the   most cultivated oilseed crop, soybean. In this paper,20 caleosin genes in   soybean, common bean and barrel medic werestudied. Among these, 13 caleosin   genes, including 3 in Glycine max, 5 in Phaseolus vulgarisand 5 in Medicago   truncatula, are identified for the first time. The structures,   characteristics and evolution of the 20 caleosin proteins are analyzed.   Expansion patterns show that tandem duplication was the main reason for the   caleosin family expansion in the legume. Expression profiles indicate that   L-caleosin in soybean and common bean are more important than H-caleosin,   which is just the opposite in Arabidopsis thaliana. GmaCLO2, PvuCLO1,   PvuCLO3and MtrCLO3may play important roles, while GmaCLO6, GmaCLO10and   MtrCLO4may lose their function in the examined tissues. In addition,   according to the results of cis-element analyses, we propose potential   functions for the more important caleosin genes in leguminous plants. Our   work provides helpful information for further evolution and function analyses   of the caleosin gene family in soybean, common bean and barrel medic

Genome-wide characterization and phylogenetic and expression analyses of the caleosin gene family in soybean, common bean and barrel medic