Eun Jeong Kim scite author profile

The objective of this study was to investigate the response of light emitting diodes (LEDs) at different light intensities (70 and 80 for green LEDs, 88 and 238 for red LEDs and 80 and 238 μmol m−2 s−1 for blue LEDs) at three wavelengths in lettuce leaves. Lettuce leaves were exposed to (522 nm), red (639 nm) and blue (470 nm) LEDs of different light intensities. Thylakoid multiprotein complex proteins and photosynthetic metabolism were then investigated. Biomass and photosynthetic parameters increased with an increasing light intensity under blue LED illumination and decreased when illuminated with red and green LEDs with decreased light intensity. The expression of multiprotein complex proteins including PSII-core dimer and PSII-core monomer using blue LEDs illumination was higher at higher light intensity (238 μmol m−2 s−1) and was lowered with decreased light intensity (70–80 μmol m−2 s−1). The responses of chloroplast sub-compartment proteins, including those active in stomatal opening and closing, and leaf physiological responses at different light intensities, indicated induced growth enhancement upon illumination with blue LEDs. High intensity blue LEDs promote plant growth by controlling the integrity of chloroplast proteins that optimize photosynthetic performance in the natural environment.

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Characterization of the Metabolic Flux and Apoptotic Effects of O-Hydroxyl- and N-Acyl-modified N-Acetylmannosamine Analogs in Jurkat Cells

Kim

Sampathkumar

Jones

et al. 2004

Journal of Biological Chemistry

167

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The supplementation of the sialic acid biosynthetic pathway with exogenously supplied N-acetylmannosamine (ManNAc) analogs has many potential biomedical and biotechnological applications. In this work, we explore the structure-activity relationship of ManNAc analogs on cell viability and metabolic flux into the sialic acid biosynthetic pathway to gain a better understanding of the fundamental biology underlying "glycosylation engineering" technology. A panel of ManNAc analogs bearing various modifications on the hydroxyl groups as well as substitutions at the N-acyl position was investigated. Increasing the carbon chain length of ester derivatives attached to the hydroxyl groups increased the metabolic efficiency of sialic acid production, whereas similar modification to the N-acyl group decreased efficiency. In both cases, increases in chain length decreased cell viability; DNA ladder formation, Annexin V-FITC two-dimensional flow cytometry assays, caspase-3 activation, and down-regulation of sialoglycoconjugate-processing enzymes established that the observed growth inhibition and toxicity resulted from apoptosis. Two of the panel of 12 analogs tested, specifically Ac 4 ManNLev and Ac 4 ManNHomoLev, were highly toxic. Interestingly, both of these analogs maintained a ketone functionality in the same position relative to the core monosaccharide structure, and both also inhibited flux through the sialic acid pathway (the remainder of the less toxic analogs either increased or had no measurable impact on flux). These results provide fundamental insights into the role of sialic acid metabolism in apoptosis by demonstrating that ManNAc analogs can modulate apoptosis both indirectly via hydroxylgroup effects and directly through N-acyl-group effects.The term "sialic acid engineering" refers to a technique where non-natural N-acetylmannosamine (ManNAc) 1 analogs intercept the sialic acid biosynthetic pathway and are incorporated into cellular sialoglycoconjugates in the place of sialic acid residues (Fig. 1) (1, 2). The impetus behind this strategy is to mimic nature, which uses Ͼ50 different forms of sialic acid to modulate the structure and function of sialic acid-bearing glycoproteins and lipids (3). By using synthetic N-acyl-modified ManNAc analogs, the surfaces of living cells can be endowed with novel properties not found in nature (4) that, depending on the exact analog used to perform this "submolecular microsurgery" (5), have the potential to elicit a variety of changes in the behavior of the host cell. Theoretically, the ability to modify the cell surface and recombinant sialoglycoconjugates with molecular precision has the potential to regulate any biological process governed by sialic acid, such as cell growth and differentiation, communication among different cells, recognition of soluble factors, and attachment to, or disengagement from, the extracellular matrix (6). In practice, sialic acid engineering methods have already been demonstrated to regulate cellular responses ranging from adhesion to prolif...

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NCCN Guidelines Insights: Antiemesis, Version 2.2017

Berger¹,

Ettinger²,

Aston³

et al. 2017

J Natl Compr Canc Netw

182

127

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2021 roadmap for sodium-ion batteries

Tapia‐Ruiz

Armstrong²,

Alptekin³

et al. 2021

J. Phys. Energy

173

111

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Increasing concerns regarding the sustainability of lithium sources, due to their limited availability and consequent expected price increase, have raised awareness of the importance of developing alternative energy-storage candidates that can sustain the ever-growing energy demand. Furthermore, limitations on the availability of the transition metals used in the manufacturing of cathode materials, together with questionable mining practices, are driving development towards more sustainable elements. Given the uniformly high abundance and cost-effectiveness of sodium, as well as its very suitable redox potential (close to that of lithium), sodium-ion battery technology offers tremendous potential to be a counterpart to lithium-ion batteries (LIBs) in different application scenarios, such as stationary energy storage and low-cost vehicles. This potential is reflected by the major investments that are being made by industry in a wide variety of markets and in diverse material combinations. Despite the associated advantages of being a drop-in replacement for LIBs, there are remarkable differences in the physicochemical properties between sodium and lithium that give rise to different behaviours, for example, different coordination preferences in compounds, desolvation energies, or solubility of the solid–electrolyte interphase inorganic salt components. This demands a more detailed study of the underlying physical and chemical processes occurring in sodium-ion batteries and allows great scope for groundbreaking advances in the field, from lab-scale to scale-up. This roadmap provides an extensive review by experts in academia and industry of the current state of the art in 2021 and the different research directions and strategies currently underway to improve the performance of sodium-ion batteries. The aim is to provide an opinion with respect to the current challenges and opportunities, from the fundamental properties to the practical applications of this technology.

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Histogram analysis of apparent diffusion coefficient at 3.0t: Correlation with prognostic factors and subtypes of invasive ductal carcinoma

Kim

Park

et al. 2015

Magnetic Resonance Imaging

106

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Eun Jeong Kim

Influence of Green, Red and Blue Light Emitting Diodes on Multiprotein Complex Proteins and Photosynthetic Activity under Different Light Intensities in Lettuce Leaves (Lactuca sativa L.)

Characterization of the Metabolic Flux and Apoptotic Effects of O-Hydroxyl- and N-Acyl-modified N-Acetylmannosamine Analogs in Jurkat Cells

NCCN Guidelines Insights: Antiemesis, Version 2.2017

2021 roadmap for sodium-ion batteries

Histogram analysis of apparent diffusion coefficient at 3.0t: Correlation with prognostic factors and subtypes of invasive ductal carcinoma

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