Harnessing Oxetane and Azetidine Sulfonyl Fluorides for Opportunities in Drug Discovery.

Four-membered heterocycles such as oxetanes and azetidines represent attractive and emergent design options in medicinal chemistry due to their small and polar nature and potential to significantly impact the physiochemical properties of drug molecules. The challenging preparation of these derivatives, especially in a divergent manner, has severely limited their combination with other medicinally and biologically important groups. Consequently, there is a substantial demand for mild and effective synthetic strategies to access new oxetane and azetidine derivatives and molecular scaffolds.

Property Prediction for Complex Compounds Using Structure-Free Mendeleev Encoding and Machine Learning.

Predicting the properties for unseen materials exclusively on the basis of the chemical formula before synthesis and characterization has advantages for research and resource planning. This can be achieved using suitable structure-free encoding and machine learning methods, but additional processing decisions are required. In this study, we compare a variety of structure-free materials encodings and machine learning algorithms to predict the structure/property relationships of battery materials.

Reconstructing a Meaningful Self: The Identity Work of People Living With Chronic Disease.

With the escalating number of people diagnosed with chronic disease globally, research aimed at supporting their adjustment and coping is invaluable. Reconstructing a sense of self is core to the psychosocial adjustment of people with chronic disease (PwCD), and meaning making is central to their coping with the diagnosis. Despite the growing number of PwCD living productive lives, their identity work is underexplored.

Spontaneously Immortalised Nonhuman Primate Müller Glia Cell Lines as Source to Explore Retinal Reprogramming Mechanisms for Cell Therapies.

Cell replacement therapies for ocular diseases characterised by photoreceptors degeneration are challenging due to poor primary cell survival in culture. A stable retinal cell source to replace lost photoreceptors holds promise. Müller glia cells play a pivotal role in retinal homoeostasis by providing metabolic and structural support to retinal neurons, preventing aberrant photoreceptors migration, and facilitating safe glutamate uptake.