Super-Resolution Imaging Reveals the Nanoscale Distributions of Dystroglycan and Integrin Itga7 in Zebrafish Muscle Fibers.
Komala ShivannaMary AstumianPrakash RautVinh-Nhan NgoSamuel T HessClarissa A HenryPublished in: Biomedicines (2023)
Cell signaling is determined partially by the localization and abundance of proteins. Dystroglycan and integrin are both transmembrane receptors that connect the cytoskeleton inside muscle cells to the extracellular matrix outside muscle cells, maintaining proper adhesion and function of muscle. The position and abundance of Dystroglycan relative to integrins is thought to be important for muscle adhesion and function. The subcellular localization and quantification of these receptor proteins can be determined at the nanometer scale by FPALM super-resolution microscopy. We used FPALM to determine localizations of Dystroglycan and integrin proteins in muscle fibers of intact zebrafish ( Danio rerio ). Results were consistent with confocal imaging data, but illuminate further details at the nanoscale and show the feasibility of using FPALM to quantify interactions of two proteins in a whole organism.
Keyphrases
- high speed
- atomic force microscopy
- high resolution
- skeletal muscle
- extracellular matrix
- induced apoptosis
- cell migration
- stem cells
- pseudomonas aeruginosa
- machine learning
- cell therapy
- bone marrow
- mesenchymal stem cells
- mass spectrometry
- high throughput
- photodynamic therapy
- biofilm formation
- staphylococcus aureus
- deep learning
- candida albicans
- single molecule
- binding protein
- pi k akt
- label free