K
Ki Woo Kim
Researcher at Kyungpook National University
Publications - 133
Citations - 4266
Ki Woo Kim is an academic researcher from Kyungpook National University. The author has contributed to research in topics: Epicuticular wax & Scanning electron microscope. The author has an hindex of 27, co-authored 127 publications receiving 3729 citations. Previous affiliations of Ki Woo Kim include Seoul National University & Jeju National University.
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Antibacterial Activity and Mechanism of Action of the Silver Ion in Staphylococcus aureus and Escherichia coli
TL;DR: The results of the present study suggest that silver ions may cause S. aureus and E. coli bacteria to reach an ABNC state and eventually die.
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Silicon-induced cell wall fortification of rice leaves: a possible cellular mechanism of enhanced host resistance to blast.
TL;DR: Silicon-induced cell wall fortification of rice leaves may be closely associated with enhanced host resistance to blast, and silicon was prevalent throughout the leaf surface, with relatively small deposition on stomatal guard cells in silicon-treated plants.
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Novel threadlike structures (Bonghan ducts) inside lymphatic vessels of rabbits visualized with a Janus Green B staining method
TL;DR: The specific staining of the JGB suggests that these threadlike structures inside lymphatic vessels have a high density of mitochondria in their cells and/or nerve-like properties, either of which may provide important clues to their physiological function.
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Electron microscopic study of novel threadlike structures on the surfaces of mammalian organs.
Byung Cheon Lee,Jung Sun Yoo,Vyacheslav Ogay,Ki Woo Kim,Harald Dobberstein,Kwang-Sup Soh,Byung Soo Chang +6 more
TL;DR: The ultrastructures of novel threadlike structures and corpuscles on the surfaces of internal organs of rats were investigated using electron microscopy and SEM images were obtained for the first time to reveal the detailed structure of the NTSs that were only recently discovered.
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Measurement of flow speed in the channels of novel threadlike structures on the surfaces of mammalian organs.
Baeckkyoung Sung,Min-Su Kim,Byung Cheon Lee,Jung Sun Yoo,Sang-Hee Lee,Youn Joong Kim,Ki Woo Kim,Kwang-Sup Soh +7 more
TL;DR: It was shown that the liquid flow through the NTSs could be due to peristaltic motion of the NTS itself, and a quantitative analysis of the flow speed has been undertaken applying a simplified windkessel model.