Abstract
MYB transcription factors are involved in many biological processes, including metabolism, stress response and plant development. In our previous work, ZmMYB59 was down-regulated by deep sowing during maize seed germination. However, there are few reports on seed germination regulated by MYB proteins. In this study, to examine its functions during seed germination, Agrobacterium-mediated transformation was exploited to generate ZmMYB59 overexpression (OE) tobacco and rice. In T2 generation transgenic tobacco, germination rate, germination index, vigor index and hypocotyl length were significantly decreased by 25.0–50.9, 34.5–54.4, 57.5–88.3, and 21.9–31.3% compared to wild-type (WT) lines. In T2 generation transgenic rice, above corresponding parameters were notably reduced by 39.1–53.8, 51.4–71.4, 52.5–74.0, and 28.3–41.5%, respectively. On this basis, antioxidant capacity and endogenous hormones were determined. The activities of catalase, peroxidase, superoxide dismutase, ascorbate peroxidase of OE lines were significantly lower than those of WT, suggesting that ZmMYB59 reduced their oxidation resistance. As well, ZmMYB59 overexpression extremely inhibited the synthesis of gibberellin A1 (GA1) and cytokinin (CTK), and promoted the synthesis of abscisic acid (ABA) concurrently. Taken together, it proposed that ZmMYB59 was a negative regulator during seed germination in tobacco and rice, which also contributes to illuminate the molecular mechanisms regulated by MYB transcription factors.
Highlights
Seed germination is a crucial stage in plant development (Mazer, 1999), in which three progress were included, a phase of fast absorbing water, a dynamic equilibrium of water potential and a stage of rapid combination water for radical elongation (Narbona et al, 2013; Xie et al, 2014; Gu et al, 2016)
Three overexpression lines were selected as materials in this study (OE1, OE2, OE3 in tobacco, OE2, OE4, OE6 in rice), which was showed in Figures 1A, B
The results showed that ZmMYB59 expression in OE1, OE2, OE3 in transgenic tobacco was increased by 25.68, 31.84, and 20.51-fold compared to the wildtype, respectively (Figures 2A, B)
Summary
Seed germination is a crucial stage in plant development (Mazer, 1999), in which three progress were included, a phase of fast absorbing water, a dynamic equilibrium of water potential and a stage of rapid combination water for radical elongation (Narbona et al, 2013; Xie et al, 2014; Gu et al, 2016). The germination stages are the most delicate to biotic and abiotic stresses. ROS scavenging system is an essential mechanism to delay senescence, including superoxide dismutase (SOD), peroxidase (POD), catalase (CAT), ascorbic acid peroxidase (APX) (Foyer et al, 1994). SOD catalyzes the dismutation of O2-, CAT, POD and APX mainly scavenge H2O2 (Mittler et al, 2004)
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