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Regmi Sudip Choi Yoon Seok Kim Young Kyun Khan Md Maruf Lee Sang Hun Choi Yun Hee Cho Seung Sik Jin Ying-Yu Yoo Jin Cheol Suh Joo-Won 《Bioprocess and biosystems engineering》2020,43(2):249-259
Bioprocess and Biosystems Engineering - The β-glucanase produced from Bacillus sp. CSB55 not only depicts the potent industrial characteristics but also relates as bio-industrial catalyst... 相似文献
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Seok Hyun Song Moses Cho Inchul Park Jong‐Gyu Yoo Kyung‐Tae Ko Jihyun Hong Jongsoon Kim Sung‐Kyun Jung Maxim Avdeev Sungdae Ji Seongsu Lee Joona Bang Hyungsub Kim 《Liver Transplantation》2020,10(23)
Layered lithium–nickel–cobalt–manganese oxide (NCM) materials have emerged as promising alternative cathode materials owing to their high energy density and electrochemical stability. Although high reversible capacity has been achieved for Ni‐rich NCM materials when charged beyond 4.2 V versus Li+/Li, full lithium utilization is hindered by the pronounced structural degradation and electrolyte decomposition. Herein, the unexpected realization of sustained working voltage as well as improved electrochemical performance upon electrochemical cycling at a high operating voltage of 4.9 V in the Ni‐rich NCM LiNi0.895Co0.085Mn0.02O2 is presented. The improved electrochemical performance at a high working voltage at 4.9 V is attributed to the removal of the resistive Ni2+O rock‐salt surface layer, which stabilizes the voltage profile and improves retention of the energy density during electrochemical cycling. The manifestation of the layered Ni2+O rock‐salt phase along with the structural evolution related to the metal dissolution are probed using in situ X‐ray diffraction, neutron diffraction, transmission electron microscopy, and X‐ray absorption spectroscopy. The findings help unravel the structural complexities associated with high working voltages and offer insight for the design of advanced battery materials, enabling the realization of fully reversible lithium extraction in Ni‐rich NCM materials. 相似文献
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Yong Jun Gong Jung Woon Heo Hakji Lee Hyunjin Kim Jinil Cho Seonmi Pyo Heejun Yun Heebae Kim Sang Yoon Park Jeeyoung Yoo Youn Sang Kim 《Liver Transplantation》2020,10(27)
Li metal, which has a high theoretical specific capacity and low redox potential, is considered to the most promising anode material for next‐generation Li ion‐based batteries. However, it also exhibits a disadvantageous solid electrolyte interphase (SEI) layer problem that needs to be resolved. Herein, an advanced separator composed of reduced graphene oxide fiber attached to aramid paper (rGOF‐A) is introduced. When rGOF‐A is applied, F? anions, generated from the decomposition of the LiPF6 electrolyte during the SEI layer formation process form semi‐ionic C? F bonds along the surface of rGOF. As Li+ ions are plated, the “F‐doped” rGO surface induces the formation of LiF, which is known as a component of a chemically stable SEI, therefore it helps the Li metal anode to operate stably at a high current of 20 mA cm?2 with a high capacity of 20 mAh cm?2. The proposed rGOF‐A separator successfully achieves a stable SEI layer that could resolve the interfacial issues of the Li metal anode. 相似文献
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Keshav Kumar Nepal Tae-Jin Oh Bimala Subba Jin Cheol Yoo Jae Kyung Sohng 《Molecules and cells》2009,27(1):83-88
Amino acid homology analysis predicted that rbmD, a putative glycosyltransferase from Streptomyces ribosidificus ATCC 21294, has the highest homology with neoD in neomycin biosynthesis. S. fradiae BS1, in which the production of neomycin was abolished, was generated by disruption of the neoD gene in the neomycin producer S. fradiae. The restoration of neomycin by self complementation suggested that there was no polar effect in the mutant. In addition,
S. fradiae BS6 was created with complementation by rbmD in S. fradiae BS1, and secondary metabolite analysis by ESI/MS, LC/MS and MS/MS showed the restoration of neomycin production in S. fradiae BS6. These gene inactivation and complementation studies suggested that, like neoD, rbmD functions as a 2-N-acetlyglucosaminyltransferase and demonstrated the potential for the generation of novel aminoglycoside antibiotics using
glycosyltransferases in vivo. 相似文献
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Dong Yun Hyun Ok-Tae Kim Kyong-Hwan Bang Young-Chang Kim Nam Hee Yoo Cheol Woo Kim Jeong Hwan Lee 《Journal of Plant Biology》2009,52(6):602-608
The control of bolting time in onion is an important approach for bulb and seed production, as onion plants which bolt do
not produce marketable bulbs and seed yields are dependent on floral induction. However, genetic and molecular studies about
bolting time in onion plants have not been examined yet to date. In order to understand the regulation of bolting time in
onion plants, we conducted the genetic crosses between late bolting-type cultivar (MOS8) and very early bolting-type cultivar
(Guikum). Segregation ratio of late to very early in F2 populations indicated that this lateness trait was determined by a dominant locus. We also analyzed protein profiles in onion
plants with different bolting time by a proteomics approach. Interestingly, a protein spot with significant similarities to
chromodomains of mammalian chromo-ATPase/helicase-DNA-binding 1 or heterochromatin protein 1, which is involved in the histone
modifications, was identified. Histone methyltransferase activity was also observed in onion plants. Taken together, these
results suggest that a genetic pathway may be involved in the modulation of bolting time in onion plants, though there is
no direct evidence that this protein spot obtained by proteomics is relevant to vernalization. 相似文献