Jin Kyeong Kim scite author profile

Protein G is an antibody binding protein, which specifically targets the Fc region of an antibody. It therefore has been widely used to immobilize different types of antibodies in numerous immunoassays. Here, we have engineered Streptococcus protein G to contain various numbers of cysteine residues at the N-terminus and therefore to form well-oriented protein G films on bare gold. SPR and SPR imaging analyses indicated that a gold surface treated with cysteine-tagged protein G possesses a superior antibody binding ability compared to one treated with tag-free protein G. AFM images indicated a higher surface coverage by antibody binding on the cysteine-tagged protein G surface than the intact protein G surface. The proper orientation of cysteine-tagged protein G on a gold surface also afforded better orientation of immobilized antibodies, resulting in enhanced antigen detection. Moreover, the protein G surfaces maintained their high antibody binding ability during multiple rounds of antibody interaction tests. The cysteine-tagged protein G constructed in this study can be a valuable link for oriented antibody immobilization in a variety of immunosensors.

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Prevention of postsurgical tissue adhesion by anti‐inflammatory drug‐loaded pluronic mixtures with sol–gel transition behavior

Kim

Song

et al. 2005

J Biomedical Materials Res

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Sol-gel transition temperature-controllable Pluronic F127/F68 mixtures including mildly crosslinked alginate and nonsteroidal anti-inflammatory drug (ibuprofen) were prepared to evaluate their potential as tissue adhesion barrier gels. The sol-gel transition temperatures of the Pluronic mixtures could be controlled by adjusting F127/F68 ratio and polymer concentration. The mildly crosslinked alginate with still flow property provided the residence stability of Pluronic mixture gels in the body. Ibuprofen was loaded in Pluronic mixtures to reduce inflammatory response in the body and, thus, to prevent tissue adhesion. The gelation temperatures of the Pluronic mixtures were not affected by the alginate but lowered by the addition of ibuprofen. The in vitro drug release behavior and in vivo peritoneal tissue adhesion of the Pluronic mixtures with the sol-gel transition just below body temperatures were investigated. The drug release behavior from the ibuprofen (1 wt%)-loaded Pluronic mixture gels at 37 degrees C was examined using a membrane-less dissolution model. The drug in the mixture gels was released continuously up to about 45-65% of the total loading amount during the first 7 days. For in vivo evaluation of tissue anti-adhesion potential, the Pluronic mixtures with/without drug were coated on the peritoneal wall defects of rats and their tissue adhesion extents and tissue reactions (inflammatory response, granulation tissue formation, and toxicity in organs) were compared. It was observed that ibuprofen has a positive effect for the peritoneal tissue anti-adhesion. The Pluronic F127/F68/alginate/ibuprofen mixture gel (25 wt% of F127/F68 [7/3], 1 wt% ibuprofen) was highly effective for the prevention of peritoneal tissue adhesion and showed a relatively low inflammatory response and non-toxicity, and thus can be a good candidate material as a coatable or injectable tissue adhesion barrier gel.

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Multifunctional Silica Nanocapsule with a Single Surface Hole

Lim

Kim

Noh

et al. 2009

Small

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Multifunctional silica nanocapsules containing magnetic nanoparticles and fluorescent quantum dots with a single surface hole fabricated by a single‐step emulsion‐mediated process are described. The silica nanocapsules (see images) are easily internalized by phagocytic dendritic cells and show a high potential as bimodal imaging contrast agents (for fluorescence and magnetic resonance imaging) in vivo as well as in vitro.

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Adaptogenic effects of Panax ginseng on modulation of immune functions

Ratan

Youn

Kwak

et al. 2021

Journal of Ginseng Research

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Plasmonic Magnetic Nanostructure for Bimodal Imaging and Photonic‐Based Therapy of Cancer Cells

et al. 2007

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Artemisinins are proposed to act in the malaria parasite cytosol by oxidizing dihydroflavin cofactors of redox‐active flavoenzymes, and under aerobic conditions by inducing their autoxidation. Perturbation of redox homeostasis coupled with the generation of reactive oxygen species (ROS) ensues. Ascorbic acid–methylene blue (MB), N‐benzyl‐1,4‐dihydronicotinamide (BNAH)–MB, BNAH–lumiflavine, BNAH–riboflavin (RF), and NADPH–FAD–E. coli flavin reductase (Fre) systems at pH 7.4 generate leucomethylene blue (LMB) and reduced flavins that are rapidly oxidized in situ by artemisinins. These oxidations are inhibited by the 4‐aminoquinolines piperaquine (PPQ), chloroquine (CQ), and others. In contrast, the arylmethanols lumefantrine, mefloquine (MFQ), and quinine (QN) have little or no effect. Inhibition correlates with the antagonism exerted by 4‐aminoquinolines on the antimalarial activities of MB, RF, and artemisinins. Lack of inhibition correlates with the additivity/synergism between the arylmethanols and artemisinins. We propose association via π complex formation between the 4‐aminoquinolines and LMB or the dihydroflavins; this hinders hydride transfer from the reduced conjugates to the artemisinins. The arylmethanols have a decreased tendency to form π complexes, and so exert no effect. The parallel between chemical reactivity and antagonism or additivity/synergism draws attention to the mechanism of action of all drugs described herein. CQ and QN inhibit the formation of hemozoin in the parasite digestive vacuole (DV). The buildup of heme–FeIII results in an enhanced efflux from the DV into the cytosol. In addition, the lipophilic heme–FeIII complexes of CQ and QN that form in the DV are proposed to diffuse across the DV membrane. At the higher pH of the cytosol, the complexes decompose to liberate heme–FeIII. The quinoline or arylmethanol reenters the DV, and so transfers more heme–FeIII out of the DV. In this way, the 4‐aminoquinolines and arylmethanols exert antimalarial activities by enhancing heme–FeIII and thence free FeIII concentrations in the cytosol. The iron species enter into redox cycles through reduction of FeIII to FeII largely mediated by reduced flavin cofactors and likely also by NAD(P)H–Fre. Generation of ROS through oxidation of FeII by oxygen will also result. The cytotoxicities of artemisinins are thereby reinforced by the iron. Other aspects of drug action are emphasized. In the cytosol or DV, association by π complex formation between pairs of lipophilic drugs must adversely influence the pharmacokinetics of each drug. This explains the antagonism between PPQ and MFQ, for example. The basis for the antimalarial activity of RF mirrors that of MB, wherein it participates in redox cycling that involves flavoenzymes or Fre, resulting in attrition of NAD(P)H. The generation of ROS by artemisinins and ensuing Fenton chemistry accommodate the ability of artemisinins to induce membrane damage and to affect the parasite SERCA PfATP6 Ca2+ transporter. Thus, the effect exerted by artemisinins...

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Jin Kyeong Kim

Direct Immobilization of Protein G Variants with Various Numbers of Cysteine Residues on a Gold Surface

Prevention of postsurgical tissue adhesion by anti‐inflammatory drug‐loaded pluronic mixtures with sol–gel transition behavior

Multifunctional Silica Nanocapsule with a Single Surface Hole

Adaptogenic effects of Panax ginseng on modulation of immune functions

Plasmonic Magnetic Nanostructure for Bimodal Imaging and Photonic‐Based Therapy of Cancer Cells

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