Amortized Inference for Heterogeneous Reconstruction in Cryo-EMDownload PDF

Published: 31 Oct 2022, 18:00, Last Modified: 12 Oct 2022, 15:07NeurIPS 2022 AcceptReaders: Everyone
Keywords: Cryo-electron microscopy, 3D Reconstruction, Neural Scene Representation
TL;DR: We propose an amortized method, validated on experimental cryo-EM datasets, to reconstruct the 3D structures of biomolecules and analyze their deformations.
Abstract: Cryo-electron microscopy (cryo-EM) is an imaging modality that provides unique insights into the dynamics of proteins and other building blocks of life. The algorithmic challenge of jointly estimating the poses, 3D structure, and conformational heterogeneity of a biomolecule from millions of noisy and randomly oriented 2D projections in a computationally efficient manner, however, remains unsolved. Our method, cryoFIRE, performs ab initio heterogeneous reconstruction with unknown poses in an amortized framework, thereby avoiding the computationally expensive step of pose search while enabling the analysis of conformational heterogeneity. Poses and conformation are jointly estimated by an encoder while a physics-based decoder aggregates the images into an implicit neural representation of the conformational space. We show that our method can provide one order of magnitude speedup on datasets containing millions of images, without any loss of accuracy. We validate that the joint estimation of poses and conformations can be amortized over the size of the dataset. For the first time, we prove that an amortized method can extract interpretable dynamic information from experimental datasets.
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