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NTIS 바로가기大韓化粧品學會誌 = Journal of the society of cosmetic scientists of Korea, v.47 no.2, 2021년, pp.139 - 145
서유리 ((주)바이오솔루션) , 이광수 ((주)바이오솔루션) , 강용원 ((주)바이오솔루션)
Plant-derived exosome-like nanovesicles (PELNs) are known to include various biological activities and possess high biocompatibility. Because PELNs can influence immune responses, cell differentiation, and proliferation regulation, they can be applied in multiple industries. However, the studies on ...
K. S. Lee, S. Shin, E. Cho, W. K. Im, S. H. Jeon, Y. Kim, D. Park, M. Frechet, H. Chajra, and E. Jung, nc886, a non-coding RNA, inhibits UVB-induced MMP-9 and COX-2 expression via the PKR pathway in human keratinocytes, Biochem Biophys Res Commun, 512(4), 647 (2019).
B. K. Armstrong and A. Kricker, The epidemiology of UV induced skin cancer, J Photochem Photobiol B, 63(1-3), 8 (2001).
M. B. Hogan, K. Peele, and N. W. Wilson, Skin barrier function and its importance at the start of the atopic march, J Allergy (Cairo), 2012, 901940 (2012).
A. Barbulova, F. Apone, and G. Colucci, Plant cell cultures as source of cosmetic active ingredients, Cosmetics, 1(2), 94 (2014).
B. Gyorgy, T. G. Szabo, M. Pasztoi, Z. Pal, P. Misjak, B. Aradi, V. Laszlo, E. Pallinger, E. Pap, A. Kittel, G. Nagy, A. Falus, and E. I. Buzas, Membrane vesicles, current state-of-the-art: emerging role of extracellular vesicles, Cell Mol L ife Sci, 68(16), 2667 (2011).
M. Zhang, E. Viennois, C. Xu, and D. Merlin, Plant derived edible nanoparticles as a new therapeutic approach against diseases, Tissue barriers, 4(2), e1134415 (2016).
S. Rome, Biological properties of plant-derived extracellular vesicles, Food Funct., 10(2), 529 (2019).
R. Lee, H. J. Ko, K. Kim, Y. Sohn, S. Y. Min, J. A. Kim, D. Na, and J. H. Yeon, Anti-melanogenic effects of extracellular vesicles derived from plant leaves and stems in mouse melanoma cells and human healthy skin, J Extracell Vesicles, 9(1), 1703480 (2020).
J. Wu, H. Gao, L. Zhao, X. Liao, F. Chen, Z. Wang, and X. Hu, Chemical compositional characterization of some apple cultivars, Food Chemistry, 103(1) 88 (2007).
M. Liaudanskas, P. Viskelis, D. Kviklys, R. Raudonis, and V. Janulis, A comparative study of phenolic content in apple fruits, Int. J. Food. Prop., 18(5), 945 (2015).
L. Jong, Characterization of soy protein nanoparticles prepared by high shear microfluidization, J. Dispers. Sci. Technol., 34(4), 469 (2013).
P. Zhang, J. C. Yeo, and C. T. Lim, Advances in technologies for purification and enrichment of extracellular vesicles, SLAS Technol., 24(5), 477 (2019).
Y. Cui, J. Gao, Y. He, and L. Jiang, Plant extracellular vesicles, Protoplasma, 257(1), 3 (2020).
A. E. Kalinin, A. V. Kajava, and P. M. Steinert, Epithelial barrier function: assembly and structural features of the cornified cell envelope, Bioessays, 24(9), 789 (2002).
G. J. Fisher, S. Kang, J. Varani, Z. Bata-Csorgo, Y. Wan, S. Datta, and J. J. Voorhees, Mechanisms of photoaging and chronological skin aging, Arch Dermatol., 138(11), 1462 (2002).
E. Woith, G. Guerriero, J. F. Hausman, J. Renaut, C. C. Leclercq, C. Weise, S. Legay, A. Weng, and M. F. Melzig, Plant extracellular vesicles and nanovesicles: focus on secondary metabolites, proteins and lipids with perspectives on their potential and sources, Int. J. Mol. Sci, 22(7), 3719 (2021).
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