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Tien‑Hsin Chuang,Kun‑Hung Li,Pei‑Fang Li,Chang‑Hsien Yang 한국식물생명공학회 2018 Plant biotechnology reports Vol.12 No.2
An Eustoma grandiflorum APETALA1 (EgAP1) gene showing high homology to the SQUA subfamily of MADS-box genes was isolated and characterized. EgAP1, containing a conserved euAP1 motif at the C-terminus, showed high sequence identity to Antirrhinum majus SQUAMOSA in the SQUA subfamily. EgAP1 mRNA was detected in the leaf and expressed significantly higher in young flower buds than in mature flower buds. In flowers, EgAP1 mRNA was strongly detected in sepal, weakly detected in petal and was absent in stamen and carpel. Transgenic Arabidopsis plants ectopically expressing EgAP1 flowered early and produced terminal flowers. In addition, the conversion of petals into stamen-like structures was also observed in 35S::EgAP1 flowers. 35S::EgAP1 was able to complement the ap1 flower defects by restoring the defect for sepal formation and significantly increasing second whorl petal production in Arabidopsis ap1 mutant plants. These results revealed that EgAP1 is the APETALA1 homolog in E. grandiflorum and that the function of EgAP1 is involved in floral induction and flower formation.
Jin, Zhen,Nguyen, Kim Tien,Go, Gwangjun,Kang, Byungjeon,Min, Hyun-Ki,Kim, Seok-Jae,Kim, Yun,Li, Hao,Kim, Chang-Sei,Lee, Seonmin,Park, Sukho,Kim, Kyu-Pyo,Huh, Kang Moo,Song, Jihwan,Park, Jong-Oh,Choi, American Chemical Society 2019 NANO LETTERS Vol.19 No.12
<P>Nanorobots are safe and exhibit powerful functionalities, including delivery, therapy, and diagnosis. Therefore, they are in high demand for the development of new cancer therapies. Although many studies have contributed to the progressive development of the nanorobot system for anticancer drug delivery, these systems still face some critical limitations, such as potentially toxic materials in the nanorobots, unreasonable sizes for passive targeting, and the lack of several essential functions of the nanorobot for anticancer drug delivery including sensing, active targeting, controlling drug release, and sufficient drug loading capacity. Here, we developed a multifunctional nanorobot system capable of precise magnetic control, sufficient drug loading for chemotherapy, light-triggered controlled drug release, light absorption for photothermal therapy, enhanced magnetic resonance imaging, and tumor sensing. The developed nanorobot system exhibits an <I>in vitro</I> synergetic antitumor effect of photothermal therapy and chemotherapy and outstanding tumor-targeting efficiency in both <I>in vitro</I> and <I>in vivo</I> environments. The results of this study encourage further explorations of an efficient active drug delivery system for cancer treatment and the development of nanorobot systems for other biomedical applications.</P> [FIG OMISSION]</BR>
Ta-Hsin Chou,Kuei-Yuan Cheng,Chih-Chieh Su,Tien-Li Chang,Chih-Wei Hsieh,Jen-Hui Tsai 한국정밀공학회 2010 International Journal of Precision Engineering and Vol.11 No.4
The transparent conducting oxide (TCO) film is a significant component in flat panel display industry, applied for flexible display, e-paper, and touch panel. The TCO materials have high refractive index, so the phenomenon of high reflectance is the major issue and needs solved in present and future market. In this study, the structure and process of new lower reflection TCO hybrid film is introduced. The laser interference lithography and UV nanoimprint are combined for fabrication of sub-wavelength structures on PET film, then the tin-doped indium oxide (ITO) deposited on structures. Finally, the best result of this hybrid film is reflectance reduced to 3.3% at wavelength 550nm, just 13% of the original film, and the resistance of ITO layer is 1.05x10-3 Ω-cm. This result is useful for the TCO film applied in low reflection demand products in the future.