Abstract

The technique of using naturally occurring light-emitting reactants (photoproteins and luciferases] that have been extracted from a wide range of animals is known as bioluminescence imaging, or BLI. This imaging offers important details on the location and functional state of regenerative cells inserted into various disease-modeling animals. Reports on gene expression patterns, cell motions, and even the actions of individual biomolecules in whole tissues and live animals have all been made possible by bioluminescence. Generally speaking, bioluminescent light in animals may be found down to a few centimetres, while the precise limit depends on the signal's brightness and the detector's sensitivity. We can now spatiotemporally visualize cell behaviors in any body region of a living animal in a time frame process, including proliferation, apoptosis, migration, and immunological responses, thanks to BLI. The biological applications of in vivo BLI in nondestructively monitoring biological processes in intact small animal models are reviewed in this work, along with some of the advancements that will make BLI a more versatile molecular imaging tool.

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