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排序方式: 共有518条查询结果,搜索用时 15 毫秒
511.
Silicon - This work investigates the effect of insitu formed TiB2 particles on tribological behaviour of Al-Si/Mg2Si hybrid composites. For this purpose, different amount of TiB2 particles (0, 1,... 相似文献
512.
Dr. Geqing Wang Dr. Biswaranjan Mohanty Dr. Martin L. Williams Dr. Bradley C. Doak Dr. Rabeb Dhouib A/Prof. Makrina Totsika Dr. Róisín M. McMahon Dr. Gaurav Sharma Dr. Dan Zheng Dr. Matthew R. Bentley Dr. Yanni Ka-Yan Chin Dr. James Horne Dr. David K. Chalmers A/Prof. Begoña Heras Prof. Martin J. Scanlon 《ChemMedChem》2022,17(6):e202100673
DsbA enzymes catalyze oxidative folding of proteins that are secreted into the periplasm of Gram-negative bacteria, and they are indispensable for the virulence of human pathogens such as Vibrio cholerae and Escherichia coli. Therefore, targeting DsbA represents an attractive approach to control bacterial virulence. X-ray crystal structures reveal that DsbA enzymes share a similar fold, however, the hydrophobic groove adjacent to the active site, which is implicated in substrate binding, is shorter and flatter in the structure of V. cholerae DsbA (VcDsbA) compared to E. coli DsbA (EcDsbA). The flat and largely featureless nature of this hydrophobic groove is challenging for the development of small molecule inhibitors. Using fragment-based screening approaches, we have identified a novel small molecule, based on the benzimidazole scaffold, that binds to the hydrophobic groove of oxidized VcDsbA with a KD of 446±10 μM. The same benzimidazole compound has ∼8-fold selectivity for VcDsbA over EcDsbA and binds to oxidized EcDsbA, with KD>3.5 mM. We generated a model of the benzimidazole complex with VcDsbA using NMR data but were unable to determine the structure of the benzimidazole bound EcDsbA using either NMR or X-ray crystallography. Therefore, a structural basis for the observed selectivity is unclear. To better understand ligand binding to these two enzymes we crystallized each of them in complex with a known ligand, the bile salt sodium taurocholate. The crystal structures show that taurocholate adopts different binding poses in complex with VcDsbA and EcDsbA, and reveal the protein-ligand interactions that stabilize the different modes of binding. This work highlights the capacity of fragment-based drug discovery to identify inhibitors of challenging protein targets. In addition, it provides a starting point for development of more potent and specific VcDsbA inhibitors that act through a novel anti-virulence mechanism. 相似文献
513.
Silicon - The nanosheet Field Effect Transistors (FETs) are the promising device architecture for sub - 5nm technology node as per the International Roadmap for Devices and Systems (IRDS) 2020 and... 相似文献
514.
Tyagi Gaurav Routroy Srikanta Singhal Anupam Bhunia Dipendu Lahoti Mukund 《Clean Technologies and Environmental Policy》2023,25(3):825-843
Clean Technologies and Environmental Policy - Life cycle assessment (LCA) of novel fired clay bricks with synergistic co-valorization of nickel-chrome plating sludge (NCPS) and fly ash (FA) is... 相似文献
515.
Silicon - Glasses and glass-ceramics were prepared from agro-food waste ashes via melt-quench technique and converted into glass ceramics by heat treatment at 900 °C for... 相似文献
516.
Gaurav Kumar Naimat K. Bari Jagadish P. Hazra Dr. Sharmistha Sinha 《Chembiochem : a European journal of chemical biology》2022,23(9):e202100694
A classic example of an all-protein natural nano-bioreactor, the bacterial microcompartment is a prokaryotic organelle that confines enzymes in a small volume enveloped by an outer protein shell. These protein compartments metabolize specific organic molecules, allowing bacteria to survive in restricted nutrient environments. In this work, 1,2-propanediol utilization microcompartment (PduMCP) was used as a model to study the effect of molecular confinement on the stability and catalytic activity of native enzymes in the microcompartment. A combination of enzyme assays, spectroscopic techniques, binding assays, and computational analysis were used to evaluate the impact of the major shell protein PduBB′ on the stability and activity of PduMCP′s signature enzyme, dioldehydratase PduCDE. While free PduCDE shows ∼45 % reduction in its optimum activity (activity at 37 °C) when exposed to a temperature of 45 °C, it retains similar activity up to 50 °C when encapsulated within PduMCP. PduBB′, a major component of the outer shell of PduMCP, preserves the catalytic efficiency of PduCDE under thermal stress and prevents temperature-induced unfolding and aggregation of PduCDE in vitro. We observed that while both PduB and PduB′ interact with the enzyme with micromolar affinity, only the PduBB′ combination influences its activity and stability, highlighting the importance of the unique PduBB′ combination in the functioning of PduMCP. 相似文献
517.
Ashley M. Conley Rachel A. Dziatko Karl S. Westendorff Anna Sviripa Stephanie M. Guthrie Zhuo Chen Kevin H. Stone Arthur E. Bragg Christopher Paolucci Joshua J. Choi Gaurav Giri 《Advanced functional materials》2023,33(47):2303232
Singlet fission, a process by which one singlet exciton is converted into two lower energy triplet excitons, is sensitive to the degree of electronic coupling within a molecular packing structure. Variations in molecular packing can be detrimental to triplet formation and triplet–triplet separation, ultimately affecting the harvesting of triplets for electricity in organic photovoltaic devices. Here, six phase-pure molecular packing structures of 6,13-bis(triisopropylsilylethynyl)pentacene (TIPS-pentacene) with varying optoelectronic properties are isolated using 2D lead halide perovskites as tunable, crystalline surfaces for crystallization. Transient absorption spectroscopy reveals that while triplet formation is fast (<100 fs) regardless of template structure, the increased ordering in perovskite-templated samples speeds up triplet–triplet separation and recombination, providing evidence that the benefits of phase-purity offset minor variations in molecular packing. Molecular dynamics modeling of the interface reveals that perovskite-templating allows for closer packing of TIPS-pentacene molecules for all perovskite templates. With an extensive number of organic molecule-perovskite pairings, this work provides a methodology to use ordered, periodic surfaces to elucidate structure–property relationships of small organic molecules in order to adjust structural or optoelectronic responses, such as molecular packing and singlet fission. 相似文献
518.
Marie Collin Dale P. Prentice Ross R. Arnold Kirk Ellison Magdalena Balonis Dante Simonetti Gaurav N. Sant 《Journal of the American Ceramic Society》2023,106(10):6330-6341
The “U-phase,” a sodium-containing (alumino-ferrite-monosubstituent) AFm phase, has been observed to form in sodium-enriched highly alkaline cementitious systems, for example, of relevance to nuclear waste, and saline industrial brine management. But, minimal information is available of the U-phase's (e.g., solubility or thermodynamic properties) due to its limited stability and its tendency to transform into ettringite or monosulfoaluminate. Herein, the U-phase was systematically synthesized at four temperatures (5, 15, 25, and 50°C) and fully characterized in terms of its thermochemical properties. The average composition of the synthesized U-phase (4CaO·Al2O3·1.85SO3·0.85Na2O·12H2O) deviates slightly from typical disclosures in the literature. The solubility product of the U-phase formation was measured from conditions of oversaturation. The measured thermodynamic data accurately predicted experimental observations of U-phase formation in cementitious environments. In general, it was noted that the U-phase forms and persists (i.e., remains stable) at pH > 13.7 and [Na+] concentrations superior to 1 mol/L. 相似文献