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    Reactive chemistry for covalent probe and therapeutic development - 1 year(s) ago

    Bioactive small molecules that form covalent bonds with a target protein are important tools for basic research and can be highly effective drugs. This review highlights reactive groups found in a collection of thiophilic and oxophilic drugs that mediate pharmacological activity through a covalent mechanism of action (MOA). We describe the application of advanced proteomic and bioanalytical…

    Source: Trends in Pharmacological Sciences
    Categories: General Medicine News, Latest Headlines
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      Check out this review in @Trendsinpharma "Reactive chemistry for covalent probe and therapeutic development" from R. Justin Grams and Ku-Lung Hsu @ChemistryUVA @Hsu_Lab_UVa @GramsJustin #ACSSpring2023 https://t.co/uCPLm57Exz

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    Copper-catalyzed electrochemical C–H fluorination - 1 year(s) ago

    We report the systematic development of an electrochemical method that translates stoichiometric C–H fluorination reactivity of a copper(III) fluoride complex into a catalytic process. The challenges associated with a highly reactive copper(III) species are addressed by the judicious selection of electrolyte, fluoride source, and sacrificial electron acceptor. The catalyst-controlled C–H…

    Source: Chem Catalysis
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      Check out this article "Copper-catalyzed electrochemical C–H fluorination" by @ZhangLabOSU & colleagues, pubished in @ChemCatalysis #ACSSpring2023 https://t.co/48b5X81wDM

  • Mashup Score: 1
    Conformational emissive states in dual-state emitters with benzotriazole acceptors - 1 year(s) ago

    We developed two molecules based on carbazole and benzotriazole that display brightly emissive properties in both the solution and solid state. The dual-state emission property is facilitated by their twisted structures suppressing the nonradiative pathway caused by deleterious π-π interactions. Moreover, the experimental and theoretical data reveal that high-viscosity media inhibit a…

    Source: Matter
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      Online now in @Matter_CP "Conformational emissive states in dual-state emitters with benzotriazole acceptors" - check out the collaboration by @lianbtd9, @FedeJHernandez, MarioRgz, @JimenezLab, @RCrespoOtero, @MolinaGroup@Matter_CP #ACSSpring2023 https://t.co/Uxi7BQOGGJ

  • Mashup Score: 1
    Developing the Cannabinoid Receptor 2 (CB2) pharmacopoeia: past, present, and future - 1 year(s) ago

    Cannabinoid Receptor 2 (CB2) is a G protein-coupled receptor (GPCR) with considerable, though as yet unrealised, therapeutic potential. Promising preclinical data supports the applicability of CB2 activation in autoimmune and inflammatory diseases, pain, neurodegeneration, and osteoporosis. A diverse pharmacopoeia of cannabinoid ligands is available, which has led to considerable advancements in…

    Source: Trends in Pharmacological Sciences
    Categories: General Medicine News, Latest Headlines
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      Check out this review on developing the CB2 pharmacopoeia, by Zak M. Whiting, Jiazhen Yin, Sara M. de la Harpe, Andrea J. Vernall & Natasha L. Grimsey @andreav_otago @otago @AucklandUni @ramtash @Trendsinpharma #ACSSpring2023 https://t.co/MB2zLvhz45

  • Mashup Score: 3
    2D conjugated metal-organic framework as a proton-electron dual conductor - 1 year(s) ago

    Proton-electron dual conductors with a well-defined structure allow for efficient charge transport while promoting a fundamental understanding of dual conduction. Herein, we present Zn-HHTP-H2O, a proton-electron dual-conducting MOF, which serves as a functionalizable platform. We found that substituting H2O with urea leaves electrical conductivity nearly the same while increasing proton…

    Source: Chem
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      Check out Jihye Park (@JPdaCheerleader) & colleagues' work on 2D conjugated metal-organic framework as a proton-electron dual conductor - read the full article in @Chem_CP #ACSSpring2023 https://t.co/y9CwNFfqHF

  • Mashup Score: 2
    Stabilization of unprecedented crystal phases of metal nanomaterials - 1 year(s) ago

    The crystal structure of metal NMs is a crucial factor in determining corresponding physical and chemical properties [1–4], indicating that phase control and investigating new-type crystal structures (not represented by well-known crystal structures) are quite important for developing new functions as well as enhancing well-known properties. For that purpose, NMs are attractive because the phase…

    Source: Trends in Chemistry
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      Out now in @TrendsChemistry "Stabilization of unprecedented crystal phases of metal nanomaterials" authored by Toshiharu Teranishi @univkyoto & others #ACSSpring2023 https://t.co/LxYeRuDqHx

  • Mashup Score: 0
    Reticular chemistry for the rational design of mechanically robust mesoporous merged-net metal-organic frameworks - 1 year(s) ago

    Mechanical stability plays a key role in the practical applications of metal-organic frameworks (MOFs). This study provides new insight into the design of high-mechanical-stability MOFs by merging two mechanically fragile frameworks into a more robust framework. A mesoporous MOF with high mechanical stability was synthesized by combining the topological merged-net approach and the introduction of…

    Source: Matter
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      Check this study in @Matter_CP assessing the impact of merging nets on the mechanically stability of MOFs. @HaoJiang15 @o_shekhah @Norahalsadun @Eddaoudi_FMD3@Matter_CP #ACSSpring2023 https://t.co/MdlZER7MdJ

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