Carbohydrate conversion in spent coffee grounds: pretreatment strategies and novel enzymatic cocktail to produce value-added saccharides and prebiotic mannooligosaccharides.

Background: Spent coffee grounds (SCG) are the most abundant waste byproducts generated from coffee beverage production worldwide. Typically, these grounds are seen as waste and end up in landfills. However, SCG contain valuable compounds that can be valorized and used in different applications.

Structural insights into temperature-dependent dynamics of METPsc1, a miniaturized electron-transfer protein.

The design of protein-metal complexes is rapidly advancing, with applications spanning catalysis, sensing, and bioremediation. We report a comprehensive investigation of METPsc1, a Miniaturized Electron Transfer Protein, in complex with cadmium. This study elucidates the impact of metal coordination on protein folding and structural dynamics across temperatures from 100 K to 300 K.

Turn-Adopting Peptidomimetic as a Formyl Peptide Receptor-1 Antagonist.

The design, synthesis, and characterization of a new peptidomimetic acting as a formyl peptide receptor (FPR1) antagonist (N-19004) are herein reported. The molecule has been identified with docking studies of the highly potent FPR1 antagonist UPARANT on human receptor. N-19004 recapitulates all pharmacophoric groups necessary for recognition into a minimal structure, with a crucial role of the 2,6-diamino-thiophenyl scaffold mimicking the positions of Cα atoms of Arg residues in the turned Arg-Aib-Arg segment of UPARANT.

Synthesis of Natural and Sugar-Modified Nucleosides Using the Iodine/Triethylsilane System as -Glycosidation Promoter.

The reagent system based on the combined use of EtSiH/I acts as an efficient -glycosidation promoter for the synthesis of natural and sugar-modified nucleosides. An analysis of reaction stereoselectivity in the absence of C2-positioned stereodirecting groups revealed high selectivity with six-membered substrates, depending on the nucleophilic character of the nucleobase or based on anomerization reactions. The synthetic utility of the EtSiH/I-mediated -glycosidation reaction was highlighted by its use in the synthesis of the investigational drug apricitabine.

Peptides and metal ions: A successful marriage for developing artificial metalloproteins.

The mutual relationship between peptides and metal ions enables metalloproteins to have crucial roles in biological systems, including structural, sensing, electron transport, and catalytic functions. The effort to reproduce or/and enhance these roles, or even to create unprecedented functions, is the focus of protein design, the first step toward the comprehension of the complex machinery of nature. Nowadays, protein design allows the building of sophisticated scaffolds, with novel functions and exceptional stability.