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      저자 : Shuang-Hong You (검색결과 2 건)
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        A Vitis vinifera xanthine dehydrogenase gene, VvXDH, enhances salinity tolerance in transgenic Arabidopsis

        Shuang-Hong You,Bo Zhu,Feibing Wang,Hong-Juan Han,Miao Sun,Hengweng Zhu,Ri-he Peng,Quan-Hong Yao 한국식물생명공학회 2017 Plant biotechnology reports Vol.11 No.3

        Xanthine dehydrogenase (EC1.1.1.204; XDH) plays an important role in purine catabolism that catalyzes the oxidative hydroxylation of hypoxanthine to xanthine and of xanthine to uric acid. Long attributed to its role in recycling and remobilization of nitrogen, recently, XDH is implicated in plant stress responses and acclimation, such research efforts, however, have thus far been restricted to Arabidopsis XDH-knockdown/knockout studies. This study, using an ectopic overexpression approach, is expected to provide novel findings. In this study, a XDH gene from Vitis vinifera, named VvXDH, was synthesized and overexpressed in Arabidopsis, the transgenic Arabidopsis showed enhanced salt tolerance. The VvXDH gene was investigated and the results demonstrated the explicit role of VvXDH in conferring salt stress by increasing allantoin accumulation and activating ABA signaling pathway, enhancing ROS scavenging in transgenic Arabidopsis. In addition, the water loss and chlorophyll content loss were reduced in transgenic plants; the transgenic plants showed higher proline level and lower MDA content than that of wild-type Arabidopsis, respectively. In conclusion, the VvXDH gene has the potential to be applied in increasing allantoin accumulation and enhancing the tolerance to abiotic stresses in Arabidopsis and other plants.

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        Phytoremediation of 2,4,6-trinitrotoluene by Arabidopsis plants expressing a NAD(P)H-flavin nitroreductase from Enterobacter cloacae

        Shuang-Hong You,Bo Zhu,Hong-Juan Han,Bo Wang,Ri-He Peng,Quan-Hong Yao 한국식물생명공학회 2015 Plant biotechnology reports Vol.9 No.6

        2,4,6-Trinitrotoluene (TNT) is released into natural environment from demilitarization facilities, manufacturing, and explosive remnants of war; this compound is one of the most recalcitrant explosives. TNT contamination is associated with human health risks because TNT strongly causes mutagenicity and carcinogenicity. Unfortunately, effective and affordable technologies to remediate TNT-contaminated environments are insufficient. As such, studies have been conducted to develop strategies using plants to extract and detoxify TNT from environment. In this study, a system was designed to overcome high phytotoxicity of TNT by expressing a NAD(P)H-flavin nitroreductase from Enterobacter cloacae to investigate the possibility of TNT phytoremediation. The resulting transgenic Arabidopsis showed a remarkable improvement in the ability to tolerate, absorb, and detoxify TNT as evidenced by their growth condition. This study can be used as reference to facilitate the effective cleanup of TNTcontaminated sites.

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