Quantifying the local resolution of cryo-EM density maps | Nature Methods

November 14, 2017

Quantifying the local resolution of #cryoEM density maps
https://www.Nature.com/articles/nmeth.2727 “Theory…based on the following idea: a L Angstrom feature exists at a pt…if a 3D local sinusoid of wavelength L is statistically detectable above noise at that point.”

QT:{{”
We propose a mathematical theory and an efficient algorithm for measuring local resolution that address all of the above limitations. The theory (Online Methods) is based on the following idea: a λ-Å feature exists at a point in the volume if a three-dimensional (3D) local sinusoid of wavelength λ is statistically detectable above noise at that point. A likelihood-ratio hypothesis test of the local sinusoid versus noise can detect this feature at a given P value (typically P = 0.05). We define the local resolution at a point as the smallest λ at which the local sinusoid is detectable, and we account for multiple testing with an FDR procedure.
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