Optimized analysis for sensitive detection and analysis of single proteins via interferometric scattering microscopy

It has been shown that interferometric detection of Rayleigh scattering (iSCAT) can reach an exquisite sensitivity for label-free detection of nano-matter, down to single proteins. The sensitivity of iSCAT detection is intrinsically limited by shot noise, which can be indefinitely improved by employing higher illumination power or longer integration times. In practice, however, a large speckle-like background and technical issues in the experimental setup limit the attainable signal-to-noise ratio. Strategies and algorithms in data analysis are, thus, crucial for extracting quantitative results from weak signals, e.g. regarding the mass (size) of the detected nano-objects or their positions. In this article, we elaborate on some algorithms for processing iSCAT data and identify some key technical as well as conceptual issues that have to be considered when recording and interpreting the data. The discussed methods and analyses are made available in the extensive python-based platform, PiSCAT(6).

Automated summary

This article discusses the sensitivity of interferometric detection of Rayleigh scattering (iSCAT) and emphasizes the importance of data analysis strategies and algorithms. The impact of speckle-like background and technical issues on the signal-to-noise ratio is discussed.