Super-resolution microscopy (SRM) comprises a suite of techniques well-suited to probing the nanoscale landscape of genomic function and dysfunction. Offering the specificity and sensitivity that has made conventional fluorescence microscopy a cornerstone technique of biological research, SRM allows for spatial resolutions as good as 10 nanometers. Moreover, single molecule localization microscopies (SMLMs) enable examination of individual molecular targets and nanofoci allowing for the characterization of subpopulations within a single cell. This review describes how key advances in both SRM techniques and sample preparation have enabled unprecedented insights into DNA structure and function, and highlights many of these new discoveries. Ongoing development and application of these novel, highly interdisciplinary SRM assays will continue to expand the toolbox available for research into the nanoscale genomic landscape.
Funding
DRW is the recipient of an Australian Research Council Discovery Early Career Research Award (DE200100584) funded by the Australian Government. TDMB acknowledges support from the Australian Research Council (DP170104477). ER acknowledges funding support from the National Institute of Health (1R35GM134947-01, 1P01CA247773-01/5491), American Cancer Society (RSG DMC-16-241-01-DMC) and the V foundation for Cancer Research (D2018-020).
History
Publication Date
2021-07-01
Journal
Methods and Applications in Fluorescence
Volume
9
Issue
3
Article Number
032002
Pagination
21p.
Publisher
IOP Publishing
ISSN
2050-6120
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