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Wang Yan,Wen Jun,Zheng Jiangyun,Deng Zhifeng,Zhou Yueyu,Jiang Guisheng,Xia Qiangsheng,He Enjie,Ning Lixin 한국물리학회 2021 Current Applied Physics Vol.26 No.-
Thermodynamic properties, electronic structures and spectroscopic properties of defects and Ce3+ in Y2O3 are studied by using the hybrid density functional theory associated with multi-reference configuration interaction ab-initio calculations. Thermodynamic transition energy levels of the easily generated oxygen vacancies in the host are analyzed according to HSE06-calculated formation energies, which may be conducive to interpretations of the persistent luminescence (PersL) of Y2O3-based phosphors. Besides, the locations of impurity states (caused by VO and Ce3+) in energy bands are obtained from derived density of states. Moreover, energies and oscillator strengths of 4f1 → 5d1 5 transitions of Ce3+ ions (at Y1 and Y2 sites) calculated from the CASSCF/CASPT2/ RASSI SO method agree reasonably well with experimental excitation spectra of Y2O3: Ce3+ phosphors, achieving the assignment of excitation spectra. The presented calculations can be applied to identify luminescent centers in Ce3+-doped phosphors and reveals possible native defects and their roles in the PersL of phosphors.
Yunfei Chen,Qian Shen,Yueyue Wang,Tao Wang,Shaoyan Wu,Ling Zhang,Xu Lu,Fangyuan Zhang,Weimin Jiang,Bo Qiu,Erdi Gao,Xiaofen Sun,Kexuan Tang 한국식물생명공학회 2013 Plant biotechnology reports Vol.7 No.3
Artemisinin is an endoperoxide sesquiterpenelactone isolated from the aerial parts of Artemisia annua L.,and is presently the most potent anti-malarial drug. Owingto the low yield of artemisinin from A. annua as well as thewidespread application of artemisinin-based combinationtherapy recommended by the World Health Organization,the global demand for artemisinin is substantially increasingand is therefore rendering artemisinin in short supply. An economical way to increase artemisinin production is toincrease the content of artemisinin in A. annua. In thisstudy, three key genes in the artemisinin biosynthesispathway, encoding farnesyl diphosphate synthase, amorpha-4, 11-diene C-12 oxidase and its redox partner cytochromeP450 reductase, were over-expressed in A. annuathrough Agrobacterium-mediated transformation. Thetransgenic lines were confirmed by Southern blotting andthe over-expressions of the genes were demonstrated byreal-time PCR assays. The HPLC analysis showed that theartemisinin contents in transgenic lines were increasedsignificantly, with the highest one found to be 3.6-foldhigher (2.9 mg/g FW) than that of the control. Theseresults demonstrate that multigene engineering is aneffective way to enhance artemisinin content in A. annua.
Efficient CRISPR/Cas9-mediated gene editing of the ZjEIN2 gene in Zoysia japonica
Kim Jin Hee,Park Mi-Young,wang lanshuo,Doan Phan Phuong Thao,Yuan Yueyue,이효연,김정식 한국식물생명공학회 2024 Plant biotechnology reports Vol.18 No.2
CRISPR/Cas9-based targeted gene editing has emerged as a versatile tool for deciphering gene function and improving traits in plants. However, this technique has not been applied to Zoysia japonica, a prominent warm-season turfgrass widely used for green spaces. Leaf senescence, a vital process affecting crop quality, occurs in Z. japonica during late growth, diminish- ing its aesthetic value and performance. In this study, we adeptly employed CRISPR/Cas9-mediated gene editing to create Z. japonica exhibiting delayed leaf senescence by targeting the ZjEIN2 gene, a crucial regulator of ethylene-mediated senes- cence. Precise gene editing, which generated knockout mutations in ZjEIN2, led to delayed leaf senescence in both dark and ethylene treatment conditions. This provided strong evidence for ZjEIN2’s role in leaf senescence regulation. These findings highlight the potential of CRISPR/Cas9-mediated gene editing as a biotechnological strategy to enhance anti-senescence traits in Z. japonica and potentially other crops. This study carries significant implications for sustainable agriculture and turfgrass management, offering promising avenues for future applications and research.