Drosophila Models Rediscovered with Super-Resolution Microscopy

• Published in: Cells (Basel, Switzerland) Vol. 10; no. 8; p. 1924
• Main Authors: Szikora, Szilárd, Görög, Péter, Kozma, Csaba, Mihály, József
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 29.07.2021; MDPI
• Subjects: Animals; Centrosome - metabolism; Centrosome - ultrastructure; Centrosomes; Drosophila; Drosophila - metabolism; Drosophila - ultrastructure; Electrophysiology; Insects; Labeling; Lasers; Light; Microscopes; Microscopy; Microscopy, Fluorescence - methods; Models, Biological; nanoscopy; Review; Sarcomeres; Sarcomeres - metabolism; Sarcomeres - ultrastructure; SIM; Single Molecule Imaging - methods; SMLM; STED; super-resolution microscopy; nanoscopy; Drosophila; SIM; STED; active zone; centrosome; SMLM; sarcomere; super-resolution microscopy
• ISSN: 2073-4409; 2073-4409
• DOI: 10.3390/cells10081924

With the advent of super-resolution microscopy, we gained a powerful toolbox to bridge the gap between the cellular- and molecular-level analysis of living organisms. Although nanoscopy is broadly applicable, classical model organisms, such as fruit flies, worms and mice, remained the leading subjects because combining the strength of sophisticated genetics, biochemistry and electrophysiology with the unparalleled resolution provided by super-resolution imaging appears as one of the most efficient approaches to understanding the basic cell biological questions and the molecular complexity of life. Here, we summarize the major nanoscopic techniques and illustrate how these approaches were used in Drosophila model systems to revisit a series of well-known cell biological phenomena. These investigations clearly demonstrate that instead of simply achieving an improvement in image quality, nanoscopy goes far beyond with its immense potential to discover novel structural and mechanistic aspects. With the examples of synaptic active zones, centrosomes and sarcomeres, we will explain the instrumental role of super-resolution imaging pioneered in Drosophila in understanding fundamental subcellular constituents.