APX公司
生物
基因
基因家族
非生物胁迫
谷胱甘肽
抗坏血酸
遗传学
生物化学
基因表达
细胞生物学
酶
食品科学
作者
José Hélio Costa,André Luiz Maia Roque,Shahid Aziz,Clesivan Pereira dos Santos,Thais Andrade Germano,Mathias Coelho Batista,Karine Leitão Lima Thiers,Kátia Daniella da Cruz Saraiva,Birgit Arnholdt‐Schmitt
标识
DOI:10.1016/j.ijbiomac.2021.07.103
摘要
Ascorbate-glutathione (AsA-GSH) cycle plays an important role in tuning beneficial ROS accumulation for intracellular signals and imparts plant tolerance to oxidative stress by detoxifying excess of ROS. Here, we present genome-wide identification of AsA-GSH cycle genes (APX, MDHAR, DHAR, and GR) in several leguminous species and expression analyses in G. max during stress, germination and tissue development. Our data revealed 24 genes in Glycine genus against the maximum of 15 in other leguminous species, which was due to 9 pars of duplicated genes mostly originated from sub/neofunctionalization. Cytosolic APX and MDHAR genes were highly expressed in different tissues and physiological conditions. Germination induced genes encoding AsA-GSH proteins from different cell compartments, whereas vegetative phase (leaves) stimulated predominantly genes related to chloroplast/mitochondria proteins. Moreover, cytosolic APX-1, 2, MDHAR-1a, 1b and GR genes were the primary genes linked to senescence and biotic stresses, while stAPX-a, b and GR (from organelles) were the most abiotic stress related genes. Biotic and abiotic stress tolerant genotypes generally showed increased MDHAR, DHAR and/or GR mRNA levels compared to susceptible genotypes. Overall, these data clarified evolutionary events in leguminous plants and point to the functional specificity of duplicated genes of the AsA-GSH cycle in G. max.
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