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2 000 new building blocks are synthesized monthly. Here is an important update to our MedChem Highlights from March 2024
Recent News
29 April 2024
Press Release
Kemptthal, Switzerland and Kyiv, Ukraine, April 29, 2024: Synple Chem, an innovative developer of integrated automated chemical synthesis solutions, announced today a strategic partnership with Enamine, a world-renowned supplier of building blocks. The partners agreed to jointly develop a new chemical space by fueling the world’s largest collection of building blocks provided by Enamine to Synple Chem’s reaction outcome prediction tools. Researchers will be able to download the resulting compound library and search it using their workflows. Selected compounds will be synthesized by Synple Chem’s automated synthesis platform.
11 April 2024
Press Release
Cambridge, UK and Kyiv, Ukraine, 11 April 2024: Metrion Biosciences Limited (“Metrion”), the specialist ion channel and cardiac safety screening contract research organisation (CRO) and drug discovery company, and Enamine Ltd (“Enamine”), the global leader in supplying small molecules and early drug discovery services, announced that Metrion has enhanced its High Throughput Screening (HTS) services with the addition of access to Enamine’s compound libraries.
27 March 2024
Press Release
March, 2024, Kyiv, Ukraine. Enamine Ltd, the global leader in supplying small molecules and early drug discovery services, announces the expansion of its library synthesis capabilities with a focus on Enamine REAL compounds to further support the growing demands of agricultural and pharmaceutical companies, research institutes, and drug discovery centers.
J. Enzyme Inhib. Med. Chem.
2020, 35 (1), 306‑310
DOI:
10.1080/14756366.2019.1698562
Krasavin M.; Kalinin S.; Zozulya S.; Gryniukova A.; Borysko P.; Angeli A.; Supuran C.
The differential scanning fluorimetry (DSF) screening of 5.692 fragments in combination with benzenesulfonamide (BSA) against bovine carbonic anhydrase (bCA) delivered >100 hits that either caused, on their own, a significant thermal shift (ΔTm, °C) in the protein melting temperature or significantly influenced the thermal shift observed for BSA alone. Three hits based on 1,2,3-triazole moiety represent the periphery of the recently reported potent inhibitors of hCA II, IX and XII which were efficacious in vivo. Such a re-discovery of suitable BSA periphery essentially validates the new fragment-based approach to the discovery of future CAIs. Structures of other validated fragment hits are reported.