Institution
Jilin University
Education•Changchun, China•
About: Jilin University is a education organization based out in Changchun, China. It is known for research contribution in the topics: Catalysis & Apoptosis. The organization has 101453 authors who have published 88966 publications receiving 1444456 citations. The organization is also known as: Jílín Dàxué.
Topics: Catalysis, Apoptosis, Cancer, Adsorption, Cell growth
Papers published on a yearly basis
Papers
More filters
••
TL;DR: The crystal structure of the GlpG core domain indicates that, in intramembrane proteolysis, the scission of peptide bonds takes place within the hydrophobic environment of the membrane bilayer.
Abstract: Escherichia coli GlpG is an integral membrane protein that belongs to the widespread rhomboid protease family. Rhomboid proteases, like site-2 protease (S2P) and gamma-secretase, are unique in that they cleave the transmembrane domain of other membrane proteins. Here we describe the 2.1 A resolution crystal structure of the GlpG core domain. This structure contains six transmembrane segments. Residues previously shown to be involved in catalysis, including a Ser-His dyad, and several water molecules are found at the protein interior at a depth below the membrane surface. This putative active site is accessible by substrate through a large 'V-shaped' opening that faces laterally towards the lipid, but is blocked by a half-submerged loop structure. These observations indicate that, in intramembrane proteolysis, the scission of peptide bonds takes place within the hydrophobic environment of the membrane bilayer. The crystal structure also suggests a gating mechanism for GlpG that controls substrate access to its hydrophilic active site.
353 citations
••
TL;DR: The two long-puzzling low high-pressure phases as seven- and eightfold monoclinic structures are solved through particle-swarm optimization technique on crystal structure prediction, which provides a route to find alloys made of nonmetallic elements for a variety of applications.
Abstract: Being a best known thermoelectric material and a topological insulator at ambient condition, magic bismuth telluride (${\mathrm{Bi}}_{2}{\mathrm{Te}}_{3}$) under pressure transforms into several superconducting phases, whose structures remain unsolved for decades. Here, we have solved the two long-puzzling low high-pressure phases as seven- and eightfold monoclinic structures, respectively, through particle-swarm optimization technique on crystal structure prediction. Above 14.4 GPa, we experimentally discovered that ${\mathrm{Bi}}_{2}{\mathrm{Te}}_{3}$ unexpectedly develops into a Bi-Te substitutional alloy by adopting a body-centered cubic disordered structure stable at least up to 52.1 GPa. The continuously monoclinic distortion leads to the ultimate formation of the Bi-Te alloy, which is attributed to the $\mathrm{Bi}\ensuremath{\rightarrow}\mathrm{Te}$ charge transfer under pressure. Our research provides a route to find alloys made of nonmetallic elements for a variety of applications.
353 citations
••
TL;DR: Biodegradable poly(L-lactide) (PLA) ultrafine fibers containing nanosilver particles were prepared via electrospinning and showed antibacterial activities (microorganism reduction) against Staphylococcus aureus and Escherichia coli because of the presence of the silver nanoparticles.
352 citations
••
TL;DR: The most recent attempts of building monolayers of rotaxanes/pseudorotaxanes on surfaces are presented, providing stimuli-induced macroscopic effects and further understanding on the switchable host-guest systems at interfaces.
Abstract: CONSPECTUS: For device miniaturization, nanotechnology follows either the "top-down" approach scaling down existing larger-scale devices or the "bottom-up' approach assembling the smallest possible building blocks to functional nanoscale entities. For synthetic nanodevices, self-assembly on surfaces is a superb method to achieve useful functions and enable their interactions with the surrounding world. Consequently, adaptability and responsiveness to external stimuli are other prerequisites for their successful operation. Mechanically interlocked molecules such as rotaxanes and catenanes, and their precursors, that is, molecular switches and supramolecular switches including pseudorotaxanes, are molecular machines or prototypes of machines capable of mechanical motion induced by chemical signals, biological inputs, light or redox processes as the external stimuli. Switching of these functional host-guest systems on surfaces becomes a fundamental requirement for artificial molecular machines to work, mimicking the molecular machines in nature, such as proteins and their assemblies operating at dynamic interfaces such as the surfaces of cell membranes. Current research endeavors in material science and technology are focused on developing either a new class of materials or materials with novel/multiple functionalities by shifting host-guest chemistry from solution phase to surfaces. In this Account, we present our most recent attempts of building monolayers of rotaxanes/pseudorotaxanes on surfaces, providing stimuli-induced macroscopic effects and further understanding on the switchable host-guest systems at interfaces. Biocompatible versions of molecular machines based on synthetic macrocycles, such as cucurbiturils, pillararenes, calixarenes, and cyclodextrins, have been employed to form self-assembled monolayers of gates on the surfaces of mesoporous silica nanoparticles to regulate the controlled release of cargo/drug molecules under a range of external stimuli, such as light, pH variations, competitive binding, and enzyme. Rotaxanes have also been assembled onto the surfaces of gold nanodisks and microcantilevers to realize active molecular plasmonics and synthetic molecular actuators for device fabrication and function. Pillararenes have been successfully used to control and aid the synthesis of gold nanoparticles, semiconducting quantum dots, and magnetic nanoparticles. The resulting organic-inorganic hydrid nanomaterials have been successfully used for controlled self-assembly, herbicide sensing and detection, pesticide removal, and so forth, taking advantage of the selective binding of pillarenes toward target molecules. Cyclodextrins have also been successfully functionalized onto the surface of gold nanoparticles to serve as recycling extractors for C60. Many interesting prototypes of nanodevices based on synthetic macrocycles and their host-guest chemistry have been constructed and served for different potential applications. This Account will be a summary of the efforts made mainly by us, and others, on the host-guest chemistry of synthetic macrocyclic compounds on the surfaces of different solid supports.
352 citations
••
TL;DR: In this paper, the authors used geochemical and isotope data of three granitic plutons (Xinhuatun, Lamashan and Yiershi) to determine the proportion of mantle to crustal components in the generation of the voluminous granitoids.
351 citations
Authors
Showing all 101943 results
Name | H-index | Papers | Citations |
---|---|---|---|
Yang Yang | 171 | 2644 | 153049 |
Yury Gogotsi | 171 | 956 | 144520 |
Lei Jiang | 170 | 2244 | 135205 |
Gang Chen | 167 | 3372 | 149819 |
Dongyuan Zhao | 160 | 872 | 106451 |
Rui Zhang | 151 | 2625 | 107917 |
Xiaodong Wang | 135 | 1573 | 117552 |
Avelino Corma | 134 | 1049 | 89095 |
Jie Liu | 131 | 1531 | 68891 |
Shuai Liu | 129 | 1095 | 80823 |
Yang Liu | 129 | 2506 | 122380 |
Sheng Dai | 122 | 985 | 63472 |
Xin Wang | 121 | 1503 | 64930 |
Simon A. Wilde | 118 | 390 | 45547 |
Shaojun Dong | 118 | 873 | 57337 |