Comparative Analysis of Polyethylene-Oxidizing Laccases: Redox Properties and Enzyme-Polyethylene Interaction Mechanism.

Laccases that oxidize low-density polyethylene (LDPE) represent a promising strategy for bioremediation purposes. To rationalize or optimize their PE-oxidative activity, two fundamental factors must be considered: the enzyme's redox potential and its binding affinity/mode towards LDPE. Indeed, a stable laccase-PE complex may facilitate a thermodynamically unfavorable electron transfer, even without redox mediators.

Reversible Perfusion Changes during Acute Attacks in Glucose Transporter Type 1 Deficiency Syndrome: A Pediatric Case Series.

Glucose transporter type 1 deficiency syndrome (GLUT1-DS) is an uncommon condition represented by an infantile-onset disorder, frequently arising from heterozygous mutations in the gene. Individuals with GLUT1-DS may present with early-onset seizures (typically manifesting before 4 years of age), developmental delay, and complex movement disorders. In fewer cases, stroke-like events or hemiplegic migraine-like symptoms are also reported, defined by unilateral paresis affecting 1 side of the body and/or one-half of the face, occasionally accompanied by speech impairment.

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.

A conserved acidic residue drives thyroxine synthesis within thyroglobulin and other protein precursors.

Thyroxine, the main hormone product of the thyroid, is produced at multiple sites within its protein precursor thyroglobulin. Each site consists of two tyrosine residues which undergo iodination and coupling, resulting in the synthesis of thyroxine at the acceptor tyrosine, where the hormone synthesis is later completed by proteolysis. Within the structurally resolved sites, the role of an essential conserved acidic residue preceding the acceptor remains elusive.