Preserving Information and Integrity in Cryo-EM: A Fourier-Space Deposition Approach

Current guidelines for depositing cryogenic electron microscopy single particle reconstruction (cryo-EM SPR) data require submission of unfiltered, unmasked, and unsharpened raw half-maps. The Fourier Shell Correlation (FSC) between the half-maps is then used as a proxy for the signal-to-noise ratio (SNR) to estimate the reconstruction’s resolution. This policy was introduced to enable independent validation of reported resolutions. Although developed to safeguard data integrity and minimize bias, these guidelines do not account for specific features of modern cryo-EM processing software, in particular weighting schemes that are not retained in half-map depositions and yet in general are necessary to recapitulate resolution estimates. As a results, resolution estimates and other validation statistics based on half-maps FSC may be under- or overestimated. Here, we describe the limitations of the current deposition guidelines and propose an alternative: depositing cryo-EM results in Fourier (reciprocal) space together with the mandatory deposit of molecular masks or their descriptors. This approach addresses the current limitations, preserves critical information from the reconstruction process, and better supports downstream analyses.