Automated Engineering Protein Dynamics via Loop Grafting: Improving Renilla Luciferase Catalysis [0.03%]
通过环嫁接自动化工程蛋白质动力学:提高海肾荧光素酶催化活性
Joan Planas-Iglesias,Marika Majerova,Daniel Pluskal et al.
Joan Planas-Iglesias et al.
Engineering protein dynamics is a challenging and unsolved problem in protein design. Loop transplantation or loop grafting has been previously employed to transfer dynamic properties between proteins. We recently released a LoopGrafter Web...
Correction for "Reformulating Reactivity Design for Data-Efficient Machine Learning" [0.03%]
《通过重新设计反应性以实现数据高效的机器学习》的更正
Toby Lewis-Atwell,Daniel Beechey,Özgür Şimşek et al.
Toby Lewis-Atwell et al.
[This corrects the article DOI: 10.1021/acscatal.3c02513.]. © 2025 The Authors. Published by American Chemical Society.
Published Erratum
ACS catalysis. 2025 Feb 5;15(4):2959-2960. DOI:10.1021/acscatal.5c00556 2025
Structural and Functional Analysis of Heparosan Synthase 2 from Pasteurella multocida (PmHS2) to Improve the Synthesis of Heparin [0.03%]
多重破伤风杆状菌(PmHS2)肝素合成酶2的结构和功能分析以提高肝素合成能力
Eduardo Stancanelli,Juno A Krahn,Elizabeth Viverette et al.
Eduardo Stancanelli et al.
Heparin is a widely used drug to treat thrombotic disorders in hospitals. Heparosan synthase 2 from Pasteurella multocida (PmHS2) is a key enzyme used for the chemoenzymatic synthesis of heparin oligosaccharides. It has both activities: glu...
Christopher W Davis,Yanrong Li,Yu Zhang et al.
Christopher W Davis et al.
We have achieved the arenophile-mediated, copper-catalyzed dearomative trans-1,2-carboamination of nonactivated arenes with alkyl organometallic nucleophiles. This simple and practical procedure was used to prepare diverse, stereochemically...
Electrocatalytic CO2 Reduction to Methanol on Pt(111) Modified with a Pd Monolayer [0.03%]
单层Pd修饰的Pt(111)电催化CO2还原制甲醇反应
Aleksandra Wawrzyniak,Marc T M Koper
Aleksandra Wawrzyniak
Electrochemical carbon dioxide (CO2) conversion to value-added, highly reduced chemicals such as methanol (CH3OH) is a promising possibility for producing renewable fuel and simultaneous CO2 recycling. However, this process remains a challe...
Correction to "Fe-Doped Ni-Based Catalysts Surpass Ir-Baselines for Oxygen Evolution Due to Optimal Charge-Transfer Characteristics" [0.03%]
关于“由于最佳电荷转移特性,加铁的镍基催化剂在析氧反应中超越了铱基基准线”的更正
Mai-Anh Ha,Shaun M Alia,Andrew G Norman et al.
Mai-Anh Ha et al.
[This corrects the article DOI: 10.1021/acscatal.4c04489.]. © 2025 The Authors. Published by American Chemical Society.
Published Erratum
ACS catalysis. 2025 Jan 27;15(3):2515. DOI:10.1021/acscatal.5c00322 2025
Practical Synthesis of Chiral Ferrocenenylphosphino-Gold(I) Catalysts and NEST Analysis of the Enantioinduction [0.03%]
手性的费米咯磷金(I)催化剂的合成及其NEST对映体感应分析
Pablo Mora,Imma Escofet,Maria Besora et al.
Pablo Mora et al.
The concise modular synthesis of a family of monodentate 1,2-disubstituted ferrocene ligands containing a diaryl phosphine and a 2-aryl indole is described. Their gold(I) complexes were applied to the enantioselective gold(I)-catalyzed form...
Understanding Catalytic Enantioselective C-H Bond Oxidation at Nonactivated Methylenes Through Predictive Statistical Modeling Analysis [0.03%]
通过预测性统计建模分析理解非活化亚甲基卡宾的催化对映选择性C-H键氧化反应
Arnau Call,Andrea Palone,Jordan P Liles et al.
Arnau Call et al.
Enantioselective C(sp3)-H bond oxidation is a powerful strategy for installing functionality in C(sp3)-H rich molecules. Site- and enantioselective oxidation of strong C-H bonds in monosubstituted cyclohexanes with hydrogen peroxide catalyz...
Reuben B Leveson-Gower,Laura Tiessler-Sala,Henriette J Rozeboom et al.
Reuben B Leveson-Gower et al.
The evolution of a promiscuous enzyme for its various activities often results in catalytically specialized variants. This is an important natural mechanism to ensure the proper functioning of natural metabolic networks. It also acts as bot...
Time-Domain NMR: Generating Unique Insights into the Characterization of Heterogeneous Catalysis in Liquid Phase [0.03%]
时域NMR:在液相中生成关于多相催化的独特见解以表征其性质
Murilo T Suekuni,Carmine D&#x;Agostino,Alan M Allgeier
Murilo T Suekuni
Time-domain (TD) nuclear magnetic resonance (NMR) comprises a family of tools for characterizing wetted porosity and surface area, fluid-catalyst surface adsorption energy, liquid distribution in packed beds, and transport of fluids in cata...