Hypoxic-Ischemic Insult Alters Polyamine and Neurotransmitter Abundance in the Specific Neonatal Rat Brain Subregions.

Neonatal hypoxic-ischemic (HI) brain insult is a major cause of neonatal mortality and morbidity. To assess the underlying pathological mechanisms, we mapped the spatiotemporal changes in polyamine, amino acid, and neurotransmitter levels, following HI insult (by the Rice-Vannucci method) in the brains of seven-day-old rat pups. Matrix-assisted laser desorption/ionization mass spectrometry imaging of chemically modified small-molecule metabolites by 4-(anthracen-9-yl)-2-fluoro-1-methylpyridin-1-ium iodide revealed critical HI-related metabolomic changes of 22 metabolites in 14 rat brain subregions, much earlier than light microscopy detected signs of neuronal damage.

Exploring the Effects of Cyclosporin A to Isocyclosporin A Rearrangement on Ion Mobility Separation.

Cyclosporin A (CycA) is a peptide secondary metabolite derived from fungi that plays a crucial role in transplantation surgery. Cyclic traveling wave ion mobility mass spectrometry (IM-MS) revealed an N → O peptidyl shift in singly protonated CycA to isocyclosporin A (isoA), whereas no such isomerization was observed for doubly protonated and sodiated molecules. CycA and isoA were able to be separated by considering doubly protonated precursors using a specific ion fragment.

The Deciphering of Growth-Dependent Strategies for Quorum-Sensing Networks in .

is recognized as a significant cause of morbidity and mortality among nosocomial pathogens. In respiratory infections, acts not only as a single player but also collaborates with the opportunistic fungal pathogen . This study introduced a QS molecule portfolio as a potential new biomarker that affects the secretion of virulence factors and biofilm formation.

Killing Effect of FZB42 on a pv. (Xcc) Strain Newly Isolated from Cabbage Convar. (L.): A Metabolomic Study.

The potential use of FZB42 for biological control of various phytopathogens has been documented over the past few years, but its antagonistic interactions with xanthomonads has not been studied in detail. Novel aspects in this study consist of close observation of the death of pv. cells in a co-culture with FZB42, and quantification of lipopeptides and a siderophore, bacillibactin, involved in the killing process.