Volume 198, Issue 10, 2023, Page 822-835
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In silico molecular docking study and nano TiO2-SiO2 catalyzed microwave facilitated synthesis of new bis(α-aminophosphonates) as potential anti-diabetic agents
Microwave assisted, Cu-catalyzed synthesis of sulfonamides using sodium sulfinates and amines
Adsorption of arsenate from groundwater through a fixed bed using iron-coated natural fibres: reusability and sorbent characterisation
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Current Trends of Analytical Techniques for Total Alkalinity Measurement in Water Samples: A Review
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Understanding the positive effects of dissolved Fe2+ and limited aeration on selenate removal from water by nano zero-valent iron supported on biochar
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Pre-processing Applied to Instrumental Data in Analytical Chemistry: A Brief Review of the Methods and Examples
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Crystal Structures of Diaryl Hydrazone and Sulfone Stabilizers in Complex with an Amyloidogenic Light Chain Reveal an Alternate Ligand‐Binding Cavity
Abstract
Stabilization of amyloidogenic immunoglobulin light chains (LCs) by binding of small molecule “kinetic stabilizers” is under development as a novel treatment for light chain amyloidosis. From a high-throughput screen, we previously identified 16 full-length (FL) LC stabilizers from five distinct chemotypes. We then obtained structural biological information on two classes of hits, coumarins and hydantoins, revealing that both chemotypes bind to a pocket at the VL−VL interface of the FL LC dimer. Here, we report crystal structures of three screening hits from two other chemotypes, diaryl hydrazones and sulfones, in complex with an amyloidogenic FL LC. While two of these hits bind to the previously identified pocket, one diaryl hydrazone binds to a different pocket bisected by the C2 symmetry axis of the dimer. These data further expand on the FL LC stabilizer-binding surface that could be used in design of more potent FL LC aggregation inhibitors.
Assessment of antioxidant and DPPH free radical scavenging activity of 1,2-dithiole-3-thione derivatives by using cyclic voltammetry, spectroscopic, and molecular docking studies
Correction
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