Abstract
The root plays an important role in the responses of plants to stresses, but the detailed mechanisms of roots in stress responses are still obscure. The GDP-mannose pyrophosphate synthetase (GMPase) OsVTC1-3 is a key factor of ascorbic acid (AsA) synthesis in rice roots. The present study showed that the transcript of OsVTC1-3 was induced by salt stress in roots, but not in leaves. Inhibiting the expression of OsVTC1-3 by RNA interfering (RI) technology significantly impaired the tolerance of rice to salt stress. The roots of OsVTC1-3 RI plants rapidly produced more O2−, and later accumulated amounts of H2O2 under salt stress, indicating the impaired tolerance of OsVTC1-3 RI plants to salt stress due to the decreasing ability of scavenging reactive oxygen species (ROS). Moreover, exogenous AsA restored the salt tolerance of OsVTC1-3 RI plants, indicating that the AsA synthesis in rice roots is an important factor for the response of rice to salt stress. Further studies showed that the salt-induced AsA synthesis was limited in the roots of OsVTC1-3 RI plants. The above results showed that specifically regulating AsA synthesis to scavenge ROS in rice roots was one of important factors in enhancing the tolerance of rice to salt stress.
Highlights
Ascorbic acid, one of the essential vitamins for human beings, has important roles in growth and development [1,2]
OsVTC1-8 may not be involved in ascorbic acid (AsA) synthesis [17], and OsVTC1-1 plays an important role in the response of rice to salt stress by regulating the redox homeostasis in the rice foliar organ [28]
guanosine diphosphate -mannose pyrophosphate synthetase (GMPase) plays an important role in AsA synthesis and stress responses in plants [10,19,20]
Summary
Ascorbic acid (known as Vitamin C, AsA), one of the essential vitamins for human beings, has important roles in growth and development [1,2]. During the responses to stress, plants can increase the AsA synthesis by regulating the expression of GMPase genes [10,14,15]. The GMPase gene has an important role in the regulation of AsA synthesis in the responses to environmental conditions [10,14,22,23]. OsVTC1-8 may not be involved in AsA synthesis [17], and OsVTC1-1 plays an important role in the response of rice to salt stress by regulating the redox homeostasis in the rice foliar organ [28]. The results from this study showed that rice GMPase gene OsVTC1-3 plays a major role in scavenging the rapidly accumulated ROS in rice root and enhances the tolerance of rice to salt stress by regulating AsA synthesis in rice root
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