Bacterioferritin nanocage structures uncover the biomineralization process in ferritins.

Iron is an essential element involved in various metabolic processes. The ferritin family of proteins forms nanocage assembly and is involved in iron oxidation, storage, and mineralization. Although several structures of human ferritins and bacterioferritins have been solved, there is still no complete structure that shows both the trapped Fe-biomineral cluster and the nanocage.

KasQ an Epimerase Primes the Biosynthesis of Aminoglycoside Antibiotic Kasugamycin and KasF/H Acetyltransferases Inactivate Its Activity.

Kasugamycin (KSM), an aminoglycoside antibiotic, is composed of three chemical moieties: D--inositol, kasugamine and glycine imine. Despite being discovered more than 50 years ago, the biosynthetic pathway of KSM remains an unresolved puzzle. Here we report a structural and functional analysis for an epimerase, KasQ, that primes KSM biosynthesis rather than the previously proposed KasF/H, which instead acts as an acetyltransferase, inactivating KSM.

Theoretical Study of Intermolecular Interactions between Critical Residues of Membrane Protein MraY and Promising Antibiotic Muraymycin D2.

Phospho--acetylmuramoyl-pentapeptide translocase (MraY) from is the binding target for the nucleotide antibiotic muraymycin D2 (MD2). MraY in the presence of the MD2 ligand has been crystallized and released, while the interactions between the ligand and active-site residues remain less quantitatively and qualitatively defined. We characterized theoretically the key residues involved in noncovalent interactions with MD2 in the MraY active site.

Chemoenzymatic Synthesis and Biological Evaluation for Bioactive Molecules Derived from Bacterial Benzoyl Coenzyme A Ligase and Plant Type III Polyketide Synthase.

Plant type III polyketide synthases produce diverse bioactive molecules with a great medicinal significance to human diseases. Here, we demonstrated versatility of a stilbene synthase (STS) from , which can accept various non-physiological substrates to form unnatural polyketide products. Three enzymes (4-coumarate CoA ligase, malonyl-CoA synthetase and engineered benzoate CoA ligase) along with synthetic chemistry was practiced to synthesize starter and extender substrates for STS.

In silico structure-based design of enhanced peptide inhibitors targeting RNA polymerase PA-PB1 interaction.

Developing antivirals for influenza A virus (FluA) has become more challenging due to high range of antigenic mutation and increasing numbers of drug-resistant viruses. Finding a selective inhibitor to target highly conserved region of protein-protein interactions interface, thereby increasing its efficiency against drug resistant virus could be highly beneficial. In this study, we used in silico approach to derive FluAPep1 from highly conserved region, PA-PB1 interface and generated 121 FluAPep1 analogues.

Capillary hydrodynamic chromatography reveals temporal profiles of cell aggregates.

Microbial cells are known to form aggregates. Such aggregates can be found in various matrices; for example, functional drinks. Capillary hydrodynamic chromatography (HDC) enables separation of particles by size using nanoliter-scale volumes of samples.