Interaction of cyanate uptake by rice seedlings with nitrate assimilation: gene expression analysis

Yu, Xiao-Zhang; Lei, Sheng-Yu; Lin, Yu-Juan; Zhang, Qing

Interaction of cyanate uptake by rice seedlings with nitrate assimilation: gene expression analysis

2019

Yu, Xiao-Zhang | Lei, Sheng-Yu | Lin, Yu-Juan | Zhang, Qing

Cyanate (CNO⁻) has been produced in the environment through either natural or anthropogenic sources. However, due to industrialization, it has been led more over-loads. In this study, interaction of CNO⁻ uptake by rice seedlings with nitrate assimilation was investigated using gene expression analysis after an acute phytotoxicity assay. Our results showed that CNO⁻ exposure caused inhibition on relative growth rates of plants. CNO⁻ analysis demonstrated that rice seedlings had higher potential for CNO⁻ uptake and the removal rates showed a zero-order kinetic. PCR analysis exposed that OsCYN transcript was not significantly induced by CNO⁻ treatments in rice tissues and CNO⁻ exposure also repressed gene expression of the collaborative enzyme carbonic anhydrase (CA), suggesting that assimilation of CNO⁻ initiated by the enzyme cyanase (CYN) in rice seedlings was an enzyme-limitation reaction. Gene expression of other enzymes involved in nitrate metabolism was tissue-specific under CNO⁻ exposure, suggesting that rice seedlings were able to trigger its intrinsic regulative and responsive mechanisms to cope up with uneven N conditions. Significant upregulation of three OsGDH isogenes, except for OsGDH1 in roots, was detected in both rice materials with enhancing CNO⁻ concentrations, suggesting that GDH may play a primary role to maintain the balance of C and N in plants under CNO⁻ exposure. In conclusion, because the innate pool of CYN activity was non-sufficient to degrade exogenous CNO⁻ by rice seedlings, CNO-derived ammonium only can serve as a supporting N source to support growth of rice seedling under non-effective doses of CNO⁻ exposure.

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