摘要: Super-resolution microscopy techniques have overcome the limit of optical diffraction. Recently, the Bayesian analysis of Bleaching and Blinking data (3B) method has emerged as an important tool to obtain super-resolution fluorescence images. 3B uses the change in information caused by adding or removing fluorophores in the cell to fit the data. When adding a new fluorophore, 3B selects a random initial position, optimizes this position and then determines its reliability. However, the fluorophores are not evenly distributed in the entire image region, and the fluorescence intensity at a given position positively correlates with the probability of observing a fluorophore at this position. In this paper, we present a Bayesian analysis of Bleaching and Blinking microscopy method based on fluorescence intensity distribution (FID3B). We utilize the intensity distribution to select more reliable positions as the initial positions of fluorophores. This approach can improve the reconstruction results and significantly reduce the computational time. We validate the performance of our method using both simulated data and experimental data from cellular structures. The results confirm the effectiveness of our method.
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期刊:
PROTEIN & CELL
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分类:
生物学
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生物物理学
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细胞生物学
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引用:
ChinaXiv:201605.01445
(或此版本
ChinaXiv:201605.01445V1)
DOI:10.12074/201605.01445V1
CSTR:32003.36.ChinaXiv.201605.01445.V1
- 推荐引用方式:
Xu, Fan,Liu, Zhiyong,Zhang, Fa,Xu, Fan,Zhang, Mingshu,Xu, Pingyong.(2016).Bayesian localization microscopy based on intensity distribution of fluorophores.中国生物工程预印本出版平台.[ChinaXiv:201605.01445]
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