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Kim, Jong Guk,Kim, Youngmin,Noh, Yuseong,Lee, Seonhwa,Kim, Yoongon,Kim, Won Bae American Chemical Society 2018 ACS APPLIED MATERIALS & INTERFACES Vol.10 No.6
<P>In this paper, bifunctional catalysts consisting of perovskite LaCo0.8Fe0.2O3 nanowires (LCFO NWs) with reduced graphene oxide (rGO) sheets were prepared for use in lithiumoxygen (LiO2) battery cathodes. The prepared LCFO@rGO composite was explored as a cathode catalyst for LiO2 batteries, resulting in an outstanding discharge capacity (ca. 7088.2 mAh g(-1)) at the first cycle. Moreover, a high stability of the O-2-cathode with the LCFO@rGO catalyst was achieved over 56 cycles under the capacity limit of 500 mAh g(-1) with a rate of 200 mA g(-1), as compared to the Ketjenblack carbon and LCFO NWs. The enhanced electrochemical performance suggests that these hybrid composites of perovskite LCFO NWs with rGO nanosheets could be a perspective bifunctional catalyst for the cathode oxygen reduction and oxygen evolution reactions in the development of next-generation LiO2 battery cathodes.</P>
( Youngmin Yoon ),( Hyumwoo Kim ),( Sunae Han ),( Hyungnam Kim ),( Donghyun Kim ),( Ran Hong ),( Hyunlee Kim ),( Jonghoon Chung ),( Byungchul Shin ) 대한내과학회 2014 대한내과학회 추계학술대회 Vol.2014 No.1
Acute tubular necrosis (ATN) is a syndrome of intrinsic renal injury secondary to ischemic or toxic causes without parenchymal damages and usually non-oliguira. A 20- year old man presented with acute anuric renal failure preceded by 2 days of watery diarrhea. He had been anuria for 36hr with intravenous fiuid therapy. Oliguria persisted for 10 days and he required hemodialysis support for 6 days before renal recovery. He denied the use of any regular medication and any intravenous drug use. Renal biopsy revealed severe ATN. Histopathologic findings were marked desquamation of proximal tubular epithelial cells with intact distal tubules and normal glomeruli. We report an unusual case of ATN with anuria and clinically severe features.
Kim, Hyeong Seok,Jang, Jin-Young,Han, Youngmin,Lee, Kyoung Bun,Joo, Ijin,Lee, Doo-Ho,Kim, Jae Ri,Kim, Hongbeom,Kwon, Wooil,Kim, Sun-Whe The Korean Surgical Society 2017 Annals of Surgical Treatment and Research(ASRT) Vol.93 No.4
<P><B>Purpose</B></P><P>Neoadjuvant treatment may provide improved survival outcomes for patients with borderline resectable pancreatic cancer (BRPC). The purpose of this study is to evaluate the clinical outcomes of neoadjuvant treatment and to identify prognostic factors.</P><P><B>Methods</B></P><P>Forty patients who met the National Comprehensive Cancer Network definition of BRPC and received neoadjuvant treatment followed by surgery between 2007 and 2015 were evaluated. Prospectively collected clinicopathological outcomes were analyzed retrospectively.</P><P><B>Results</B></P><P>The mean age was 61.7 years and the male-to-female ratio was 1.8:1. Twenty-six, 3, and 11 patients received gemcitabine-based chemotherapy, 5-fluorouracil, and FOLFIRINOX, respectively. The 2-year survival rate (2YSR) was 36.6% and the median overall survival (OS) was 20 months. Of the 40 patients, 34 patients underwent resection and the 2YSR was 41.2% while the 2YSR of patients who did not undergo resection was 16.7% (P = 0.011). The 2YSR was significantly higher in patients who had partial response compared to stable disease (60.6% <I>vs</I>. 24.3%, P = 0.038), in patients who did than did not show a CA 19-9 response after neoadjuvant treatment (40.5% <I>vs</I>. 0%, P = 0.039) and in patients who did than did not receive radiotherapy (50.8% <I>vs</I>. 25.3%, P = 0.036). Five patients had local recurrence and 17 patients had systemic recurrence with a median disease specific survival of 15 months.</P><P><B>Conclusion</B></P><P>Neoadjuvant treatment followed by resection is effective for BRPC. Pancreatectomy and neoadjuvant treatment response may affect survival. Effective systemic therapy is needed to improve long-term survival since systemic metastasis accounts for a high proportion of recurrence.</P>
Kim, Tae Wu,Yang, Cheolhee,Kim, Youngmin,Kim, Jong Goo,Kim, Jeongho,Jung, Yang Ouk,Jun, Sunhong,Lee, Sang Jin,Park, Sungjun,Kosheleva, Irina,Henning, Robert,van Thor, Jasper J.,Ihee, Hyotcherl The Royal Society of Chemistry 2016 Physical chemistry chemical physics Vol.18 No.13
<P>Real-time probing of structural transitions of a photoactive protein is challenging owing to the lack of a universal time-resolved technique that can probe the changes in both global conformation and light-absorbing chromophores of the protein. In this work, we combine time-resolved X-ray solution scattering (TRXSS) and transient absorption (TA) spectroscopy to investigate how the global conformational changes involved in the photoinduced signal transduction of photoactive yellow protein (PYP) is temporally and spatially related to the local structural change around the light-absorbing chromophore. In particular, we examine the role of internal proton transfer in developing a signaling state of PYP by employing its E46Q mutant (E46Q-PYP), where the internal proton transfer is inhibited by the replacement of a proton donor. The comparison of TRXSS and TA spectroscopy data directly reveals that the global conformational change of the protein, which is probed by TRXSS, is temporally delayed by tens of microseconds from the local structural change of the chromophore, which is probed by TA spectroscopy. The molecular shape of the signaling state reconstructed from the TRXSS curves directly visualizes the three-dimensional conformations of protein intermediates and reveals that the smaller structural change in E46Q-PYP than in wild-type PYP suggested by previous studies is manifested in terms of much smaller protrusion, confirming that the signaling state of E46Q-PYP is only partially developed compared with that of wildtype PYP. This finding provides direct evidence of how the environmental change in the vicinity of the chromophore alters the conformational change of the entire protein matrix.</P>
Kim, Tae Wu,Lee, Jae Hyuk,Choi, Jungkweon,Kim, Kyung Hwan,van Wilderen, Luuk J.,Guerin, Laurent,Kim, Youngmin,Jung, Yang Ouk,Yang, Cheolhee,Kim, Jeongho,Wulff, Michael,van Thor, Jasper J.,Ihee, Hyotch American Chemical Society 2012 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.134 No.6
<P>Photoreceptor proteins play crucial roles in receiving light stimuli that give rise to the responses required for biological function. However, structural characterization of conformational transition of the photoreceptors has been elusive in their native aqueous environment, even for a prototype photoreceptor, photoactive yellow protein (PYP). We employ pump probe X-ray solution scattering to probe the structural changes that occur during the photocycle of PYP in a wide time range from 3.16 mu s to 300 ms. By the analysis of both kinetics and structures of the intermediates, the structural progression of the protein in the solution phase is vividly visualized. We identify four structurally distinct intermediates and their associated five time constants and reconstructed the molecular shapes of the four intermediates from time-independent, species-associated difference scattering curves. The constructed structures of the intermediates show the large conformational changes such as the protrusion of N-terminus, which is restricted in the crystalline phase due to the crystal contact and thus could not be clearly observed by X-ray crystallography. The protrusion of the N-terminus and the protein volume gradually increase with the progress of the photocycle and becomes maximal in the final intermediate, which is proposed to be the signaling state. The data not only reveal that a common kinetic mechanism is applicable to both the crystalline and the solution phases, but also provide direct evidence for how the sample environment influences structural dynamics and the reaction rates of the PYP photocycle.</P>
Kim, Kyung Hwan,Muniyappan, Srinivasan,Oang, Key Young,Kim, Jong Goo,Nozawa, Shunsuke,Sato, Tokushi,Koshihara, Shin-ya,Henning, Robert,Kosheleva, Irina,Ki, Hosung,Kim, Youngmin,Kim, Tae Wu,Kim, Jeongh American Chemical Society 2012 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.134 No.16
<P/><P>Proteins serve as molecular machines in performing their biological functions, but the detailed structural transitions are difficult to observe in their native aqueous environments in real time. For example, despite extensive studies, the solution-phase structures of the intermediates along the allosteric pathways for the transitions between the relaxed (R) and tense (T) forms have been elusive. In this work, we employed picosecond X-ray solution scattering and novel structural analysis to track the details of the structural dynamics of wild-type homodimeric hemoglobin (HbI) from the clam <I>Scapharca inaequivalvis</I> and its F97Y mutant over a wide time range from 100 ps to 56.2 ms. From kinetic analysis of the measured time-resolved X-ray solution scattering data, we identified three structurally distinct intermediates (I<SUB>1</SUB>, I<SUB>2</SUB>, and I<SUB>3</SUB>) and their kinetic pathways common for both the wild type and the mutant. The data revealed that the singly liganded and unliganded forms of each intermediate share the same structure, providing direct evidence that the ligand photolysis of only a single subunit induces the same structural change as the complete photolysis of both subunits does. In addition, by applying novel structural analysis to the scattering data, we elucidated the detailed structural changes in the protein, including changes in the heme–heme distance, the quaternary rotation angle of subunits, and interfacial water gain/loss. The earliest, R-like I<SUB>1</SUB> intermediate is generated within 100 ps and transforms to the R-like I<SUB>2</SUB> intermediate with a time constant of 3.2 ± 0.2 ns. Subsequently, the late, T-like I<SUB>3</SUB> intermediate is formed via subunit rotation, a decrease in the heme–heme distance, and substantial gain of interfacial water and exhibits ligation-dependent formation kinetics with time constants of 730 ± 120 ns for the fully photolyzed form and 5.6 ± 0.8 μs for the partially photolyzed form. For the mutant, the overall kinetics are accelerated, and the formation of the T-like I<SUB>3</SUB> intermediate involves interfacial water loss (instead of water entry) and lacks the contraction of the heme–heme distance, thus underscoring the dramatic effect of the F97Y mutation. The ability to keep track of the detailed movements of the protein in aqueous solution in real time provides new insights into the protein structural dynamics.</P>