AI Article Synopsis
- Amyloid-beta aggregates, significant in Alzheimer's disease, pose challenges in understanding their nanoscale structures and behaviors.
- The study utilizes time-lapse single-molecule orientation-localization microscopy (SMOLM) to analyze the orientations of Nile blue molecules on fibrils, linking the architecture of these fibrils to their growth and decay patterns.
- Findings indicate that well-ordered, stable fibrils have aligned orientations, while increased disorder and heterogeneity in fibril structures correlate with more dynamic remodeling processes.
Article Abstract
Amyloid-beta aggregates are characteristic signatures of Alzheimer's disease, but probing how their nanoscale architectures influence their growth and decay remains challenging using current technologies. Here, we apply time-lapse single-molecule orientation-localization microscopy (SMOLM) to measure the orientations and rotational "wobble" of Nile blue (NB) molecules transiently binding to fibrils. We quantify correlations between fibril architectures, measured by SMOLM, and their growth and decay visualized by single-molecule localization microscopy (SMLM). We discover that stable fibrils tend to be well-ordered, signified by well-aligned NB orientations and small wobble. SMOLM also shows that increasing order and disorder are signatures of growing and decaying fibrils, respectively. We also observe SMLM-invisible fibril remodeling, including steady growth and decay patterns that conserve -sheet organization. SMOLM reveals that increased heterogeneity in fibril architectures is correlated with more dynamic remodeling and that large-scale fibril remodeling tends to originate from local regions that exhibit strong heterogeneity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10996564 | PMC |
| http://dx.doi.org/10.1101/2024.03.24.586510 | DOI Listing |
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