Multi-photon Excitation Imaging of Dynamic Processes in Living Cells and Tissues
Overview
Pharmacology
Physiology
Authors
Affiliations
Over the past decade, two-photon microscopy has successfully made the transition from the laser laboratory into a true biological research setting. This has been due in part to the recent development of turnkey ultrafast laser systems required for two-photon microscopy, allowing ease of use in nonspecialist laboratories. The advantages of two-photon microscopy over conventional optical sectioning techniques are for greater imaging depths and reduced overall phototoxicity, as such enabling noninvasive intra-vital imaging of cellular and subcellular processes. Greater understanding of these advantages has allowed this technique to be more effectively utilized in a biological research setting. This review will cover the recent widespread uses of two-photon microscopy and highlight the wide range of physiological studies enabled in fields such as neurosciences, developmental biology, immunology, cancer biology, and endocrinology.
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Shiby E, Reddy K, Kumar J Front Chem. 2022; 10:904676.
PMID: 35711953 PMC: 9194556. DOI: 10.3389/fchem.2022.904676.
Bae S, Yoo J, Choe Y, Kwak S, Choi J, Jung J Theranostics. 2021; 11(6):2522-2533.
PMID: 33456557 PMC: 7806478. DOI: 10.7150/thno.49121.
Light up the embryos: knock-in reporter generation for mouse developmental biology.
Gu B Anim Reprod. 2020; 17(3):e20200055.
PMID: 33029220 PMC: 7534580. DOI: 10.1590/1984-3143-AR2020-0055.
Embryo-Based Large Fragment Knock-in in Mammals: Why, How and What's Next.
Erwood S, Gu B Genes (Basel). 2020; 11(2).
PMID: 32013077 PMC: 7073597. DOI: 10.3390/genes11020140.
Multifunctional in vivo imaging of pancreatic islets during diabetes development.
Li G, Wu B, Ward M, Chong A, Mukherjee S, Chen S J Cell Sci. 2016; 129(14):2865-75.
PMID: 27270669 PMC: 4958299. DOI: 10.1242/jcs.190843.