AI Article Synopsis
- Understanding complex biological structures requires integrating knowledge of their dynamic behavior and molecular machinery, particularly through advanced microscopy techniques.
- Correlative microscopy, which combines different microscopy methods (like light and electron microscopy), enhances our ability to study cells and tissues at a molecular level, allowing for more reliable observations.
- This review discusses the history and current methods of correlative microscopy, as well as future trends toward more integrative approaches in imaging and microanalysis.
Article Abstract
To genuinely understand how complex biological structures function, we must integrate knowledge of their dynamic behavior and of their molecular machinery. The combined use of light or laser microscopy and electron microscopy has become increasingly important to our understanding of the structure and function of cells and tissues at the molecular level. Such a combination of two or more different microscopy techniques, preferably with different spatial- and temporal-resolution limits, is often referred to as 'correlative microscopy'. Correlative imaging allows researchers to gain additional novel structure-function information, and such information provides a greater degree of confidence about the structures of interest because observations from one method can be compared to those from the other method(s). This is the strength of correlative (or 'combined') microscopy, especially when it is combined with combinatorial or non-combinatorial labeling approaches. In this topical review, we provide a brief historical perspective of correlative microscopy and an in-depth overview of correlative sample-preparation and imaging methods presently available, including future perspectives on the trend towards integrative microscopy and microanalysis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5418370 | PMC |
| http://dx.doi.org/10.1007/s12551-010-0035-2 | DOI Listing |
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