Study of Brain Cells in Neurodegenerative Diseases: Raman Microspectroscopy and Scanning Ion-Conductance Microscopy.

Unlabelled: was to identify differences in the structure of the neuronal process network as well as the composition and functional state of cells by studying the bodies and processes of rat brain neurons and astrocytes obtained from pluripotent stem cells of healthy donors and patients with hereditary Parkinson's disease by using a complex of modern high-precision methods such as Raman microspectroscopy, surface-enhanced Raman microspectroscopy, and scanning ion-conductance microscopy.

Materials And Methods: By using Raman spectroscopy and scanning ion-conductance microscopy, the researchers studied the morphology and state of molecules in rat brain neurons and astrocytes induced from pluripotent stem cells of healthy donors and patients with hereditary Parkinson's disease.

Results: The researchers established that typical bands of Raman and surface-enhanced Raman spectra of neurons and astrocytes allowed studying the distribution and conformation of a series of biological molecules (proteins, lipids, cytochromes) in healthy and unhealthy states.

The flexible chain: regulation of structure and activity of ETC complexes defines rate of ATP synthesis and sites of superoxide generation.

This review highlights current insights into the regulation of the mitochondrial respiratory chain (electron transport chain, ETC) activity. The regulation of ETC properties optimizes ATP synthesis and controls the generation of the superoxide anion radical (O ) which can be converted into other reactive oxygen species (ROS) playing a dual role by initiating signaling cascades or contributing to oxidative stress. We examine how ETC activity is influenced by the structure and conformation of its complexes, their allosteric or post-translational modifications, and their interactions with membrane lipids.

An improved method for whole-mount hybridization in regenerating tails of tadpoles.

Whole-mount hybridization (WISH) is a widely used method that supports the concept of "seeing is believing" by enabling the visualization of gene expression patterns in whole-mount multicellular samples or sections. This technique is essential in the study of epimorphic regeneration in cold-blooded vertebrates, where complex three-dimensional organs such as tails, limbs, and eyes are completely restored after loss. The tadpoles of the frog serve as a convenient model for studying regeneration, as they can regenerate their tails within a week after amputation.

Characterization of Extracellular Vesicles by Sulfophosphovanillin Colorimetric Assay and Raman Spectroscopy.

Background: Detailed characterization of extracellular vesicles (EVs) is crucial for their application in medical diagnostics. However, the complexity of their chemical composition and the heterogeneity of EV populations make their characterization challenging. Here we describe two analytical procedures that can help overcome this challenge.