Towards green, scalable peptide synthesis: leveraging DEG-crosslinked polystyrene resins to overcome hydrophobicity challenges.

Diethylene glycol dimethacrylate (DEG)-crosslinked polystyrene (PS) resin offers a promising alternative to traditional divinyl benzene (DVB)-PS resin for solid-phase peptide synthesis (SPPS), particularly for challenging sequences with hydrophobic or bulky amino acids. DEG-PS resin's reduced hydrophobicity and enhanced flexibility improve synthesis efficiency, yielding peptides up to 28 residues with higher purities and yields compared to DVB-PS. In various syntheses, DEG-PS outperformed DVB-PS resin, with higher purities and yields for challenging peptides such as ABC analogue (73.

Promoting the Efficacy of Deferiprone-Gallium-Protoporphyrin (IX) against Intracellular Infection with Lipid Liquid Crystalline Nanoparticles.

Nontuberculous mycobacteria (NTM) are among the recalcitrant bacterial strains that cause difficult-to-treat infections for patients with chronic underlying pulmonary conditions. The bacteria's intrinsic resistance to various antibiotics and their ability to infect macrophages enable them to overcome both the host immune response and standard antibiotics. Unconventional approaches to treating NTM-mediated infections are required.

Siderophores as tools and treatments.

In the search for iron, an essential element in many biochemical processes, microorganisms biosynthesise dedicated chelators, known as siderophores, to sequester iron from their environment and actively transport the siderophore complex into the cell. This process has been implicated in bacterial pathogenesis and exploited through siderophore-antibiotic conjugates as a method for selective antibiotic delivery. Here we review this Trojan-horse approach including design considerations and potential in diagnostics and infection imaging.