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981.
Functionalized Graphene as a Gatekeeper for Chiral Molecules: An Alternative Concept for Chiral Separation 下载免费PDF全文
Andreas W. Hauser Narbe Mardirossian Julien A. Panetier Martin Head‐Gordon Alexis T. Bell Peter Schwerdtfeger 《Angewandte Chemie (International ed. in English)》2014,53(37):9957-9960
We propose a new method of chiral separation using functionalized nanoporous graphene as an example. Computational simulations based on density functional theory show that the attachment of a suitable chiral “bouncer” molecule to the pore rim prevents the passage of the undesired enantiomer while letting its mirror image through. 相似文献
982.
Artificial Accelerators of the Molecular Chaperone Hsp90 Facilitate Rate‐Limiting Conformational Transitions 下载免费PDF全文
Bettina K. Zierer Matthias Weiwad Martin Rübbelke Lee Freiburger Gunter Fischer Oliver R. Lorenz Michael Sattler Klaus Richter Johannes Buchner 《Angewandte Chemie (International ed. in English)》2014,53(45):12257-12262
The molecular chaperone Hsp90 undergoes an ATP‐driven cycle of conformational changes in which large structural rearrangements precede ATP hydrolysis. Well‐established small‐molecule inhibitors of Hsp90 compete with ATP‐binding. We wondered whether compounds exist that can accelerate the conformational cycle. In a FRET‐based screen reporting on conformational rearrangements in Hsp90 we identified compounds. We elucidated their mode of action and showed that they can overcome the intrinsic inhibition in Hsp90 which prevents these rearrangements. The mode of action is similar to that of the co‐chaperone Aha1 which accelerates the Hsp90 ATPase. However, while the two identified compounds influence conformational changes, they target different aspects of the structural transitions. Also, the binding site determined by NMR spectroscopy is distinct. This study demonstrates that small molecules are capable of triggering specific rate‐limiting transitions in Hsp90 by mechanisms similar to those in protein cofactors. 相似文献
983.
Carbon Dioxide as a Protecting Group: Highly Efficient and Selective Catalytic Access to Cyclic cis‐Diol Scaffolds 下载免费PDF全文
Victor Laserna Dr. Giulia Fiorani Dr. Christopher J. Whiteoak Dr. Eddy Martin Eduardo Escudero‐Adán Prof. Dr. Arjan W. Kleij 《Angewandte Chemie (International ed. in English)》2014,53(39):10416-10419
The efficient and highly selective formation of a wide range of (hetero)cyclic cis‐diol scaffolds using aminotriphenolate‐based metal catalysts is reported. The key intermediates are cyclic carbonates, which are obtained in high yield and with high levels of diastereo‐ and chemoselectivity from the parent oxirane precursors and carbon dioxide. Deprotection of the carbonate structures affords synthetically useful cis‐diol scaffolds with different ring sizes that incorporate various functional groups. This atom‐efficient method allows the simple construction of diol synthons using inexpensive and accessible precursors and green metal catalysts and showcases the use of CO2 as a temporary protecting group. 相似文献
984.
A Dual‐Color Far‐Red to Near‐Infrared Firefly Luciferin Analogue Designed for Multiparametric Bioluminescence Imaging 下载免费PDF全文
Dr. Amit P. Jathoul Dr. Helen Grounds Prof. James C. Anderson Dr. Martin A. Pule 《Angewandte Chemie (International ed. in English)》2014,53(48):13059-13063
Red‐shifted bioluminescent emitters allow improved in vivo tissue penetration and signal quantification, and have led to the development of beetle luciferin analogues that elicit red‐shifted bioluminescence with firefly luciferase (Fluc). However, unlike natural luciferin, none have been shown to emit different colors with different luciferases. We have synthesized and tested the first dual‐color, far‐red to near‐infrared (nIR) emitting analogue of beetle luciferin, which, akin to natural luciferin, exhibits pH dependent fluorescence spectra and emits bioluminescence of different colors with different engineered Fluc enzymes. Our analogue produces different far‐red to nIR emission maxima up to λmax=706 nm with different Fluc mutants. This emission is the most red‐shifted bioluminescence reported without using a resonance energy transfer acceptor. This improvement should allow tissues to be more effectively probed using multiparametric deep‐tissue bioluminescence imaging. 相似文献
985.
Jens Mohr Prof. Dr. Martin Oestreich 《Angewandte Chemie (International ed. in English)》2014,53(48):13278-13281
The hydrogenation of oximes and oxime ethers is usually hampered by N? O bond cleavage, hence affording amines rather than hydroxylamines. The boron Lewis acid B(C6F5)3 is found to catalyze the chemoselective hydrogenation of oxime ethers at elevated or even room temperature under 100 bar dihydrogen pressure. The use of the triisopropylsilyl group as a protecting group allows for facile liberation of the free hydroxylamines. 相似文献
986.
Andrea Kunfermann Matthias Witschel Boris Illarionov Ren Martin Matthias Rottmann H. Wolfgang Hffken Michael Seet Wolfgang Eisenreich Hans‐Joachim Knlker Markus Fischer Adelbert Bacher Michael Groll Franois Diederich 《Angewandte Chemie (International ed. in English)》2014,53(8):2235-2239
The enzymes of the non‐mevalonate pathway for isoprenoid biosynthesis have been identified as attractive targets with novel modes of action for the development of herbicides for crop protection and agents against infectious diseases. This pathway is present in many pathogenic organisms and plants, but absent in mammals. By using high‐throughput screening, we identified highly halogenated marine natural products, the pseudilins, to be inhibitors of the third enzyme, IspD, in the pathway. Their activity against the IspD enzymes from Arabidopsis thaliana and Plasmodium vivax was determined in photometric and NMR‐based assays. Cocrystal structures revealed that pseudilins bind to an allosteric pocket by using both divalent metal ion coordination and halogen bonding. The allosteric mode of action for preventing cosubstrate (CTP) binding at the active site was elucidated. Pseudilins show herbicidal activity in plant assays and antiplasmodial activity in cell‐based assays. 相似文献
987.
Joseph J. Chen Dr. Martin Hürlimann Dr. Jeffrey Paulsen Dr. Denise Freed Dr. Soumyajit Mandal Dr. Yi‐Qiao Song 《Chemphyschem》2014,15(13):2676-2681
Crude oils, which are complex mixtures of hydrocarbons, can be characterized by nuclear magnetic resonace diffusion and relaxation methods to yield physical properties and chemical compositions. In particular, the field dependence, or dispersion, of T1 relaxation can be used to investigate the presence and dynamics of asphaltenes, the large molecules primarily responsible for the high viscosity in heavy crudes. However, the T2 relaxation dispersion of crude oils, which provides additional insight when measured alongside T1, has yet to be investigated systematically. Here we present the field dependence of T1‐T2 correlations of several crude oils with disparate densities. While asphaltene and resin‐containing crude oils exhibit significant T1 dispersion, minimal T2 dispersion is seen in all oils. This contrasting behavior between T1 and T2 cannot result from random molecular motions, and thus, we attribute our dispersion results to highly correlated molecular dynamics in asphaltene‐containing crude oils. 相似文献
988.
989.
Dr. Jianyan Lin Xin Du Prof. Dr. Martin Rahm Dr. Hong Yu Prof. Dr. Haiyang Xu Prof. Dr. Guochun Yang 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(23):9240-9247
Fluorination is a proven method for challenging the limits of chemistry, both structurally and electronically. Here we explore computationally how pressures below 300 GPa affect the fluorination of several transition metals. A plethora of new structural phases are predicted along with the possibility for synthesizing four unobserved compounds: TcF7, CdF3, OsF8, and IrF8. The Ir and Os octaflourides are both predicted to be stable as quasi-molecular phases with an unusual cubic ligand coordination, and both compounds formally correspond to a high oxidation state of +8. Electronic-structure analysis reveals that otherwise unoccupied 6p levels are brought down in energy by the combined effects of pressure and a strong ligand field. The valence expansion of Os and Ir enables ligand-to-metal F 2p→M 6p charge transfer that strengthens M−F bonds and decreases the overall bond polarity. The lower stability of IrF8, and the instability of PtF8 and several other compounds below 300 GPa, is explained by the occupation of M−F antibonding orbitals in octafluorides with a metal-valence-electron count exceeding 8. 相似文献