作者:Schneider Vanessa Karine, da Silva Ferrara Taise Fernanda, Rocha Samara Vieira, Santos-Junior Celio Dias, Neo-Justino Daniela Morilha, da Cunha Anders
摘要:Phytocystatins are plant cystatins that are related to several physiological processes regulating endogenous cysteine proteases involved in seed development and germination, programmed cell death and response to stress conditions. In addition, phytocystatins can act in plant defense against exogenous peptidases from herbivorous insects, pathogens and nematodes. Considering that Citrus fruits are important to human nutrition and represent a high value crop in worldwide agriculture, in the present work, we performed the identification of putative cystatins from Citrus sinensis and from Citrus clementine and submitted them to phylogenetic analysis. Six cystatins from each species were identified as orthologous and classified into three well supported phylogenetic groups. Five cystatins representative of the phylogenetic groups were recombinantly expressed and the in vitro studies revealed them to be potent inhibitors against the cysteine peptidases papain, legumain, human cathepsins (B, L S. K) and a cathepsin B-like from Diaphorina citri (the Asian Citrus psyllid). Our findings provide the C. clementina and C. sinensis cystatins classification and an enzyme-inhibitor interactions profile, which may reflect an evolutionary process of Grills cystatins related to gene functions as initial germination rates and seedlings development as well associated to plant defense against pathogens, as insects and nematodes.
文献注录:Schneider Vanessa Karine, da Silva Ferrara Taise Fernanda, Rocha Samara Vieira, Santos-Junior Celio Dias, Neo-Justino Daniela Morilha, da Cunha Anders. Recombinant expression, characterization and phylogenetic studies of novels cystatins-like proteins of sweet orange (Citrus sinensis) and clementine (Citrus clementina) [J]. International Journal of Biological Macromolecules,<Go to ISI>://WOS:000530068000056. 2020: 546-553.
报/刊名:《International Journal of Biological Macromolecules,<Go to ISI>://WOS:000530068000056》,发表于2020
文献类型: [J] (文献级别:SCI刊物)
页码:第 546-553 页 / 共7 页