Your search keyword '"Gabi Pragier"' showing total 2 results

1. A common lines approach for ab-initio modeling of cyclically-symmetric molecules

Author

Gabi Pragier and Yoel Shkolnisky

Subjects

Computational Geometry (cs.CG), FOS: Computer and information sciences, Imagination, Cryo-electron microscopy, media_common.quotation_subject, Ab initio, Rotational symmetry, FOS: Physical sciences, 010103 numerical & computational mathematics, 92-08, 62-07, 62P10, 01 natural sciences, Theoretical Computer Science, symbols.namesake, FOS: Mathematics, Statistical physics, Mathematics - Numerical Analysis, 0101 mathematics, Mathematical Physics, Mathematics, media_common, Orientation (computer vision), Applied Mathematics, Numerical Analysis (math.NA), Computational Physics (physics.comp-ph), Computer Science Applications, 010101 applied mathematics, Noise, Fourier transform, Signal Processing, symbols, Particle, Computer Science - Computational Geometry, Physics - Computational Physics

Abstract

One of the challenges in single particle reconstruction in cryo-electron microscopy is to find a three-dimensional model of a molecule using its two-dimensional noisy projection-images. In this paper, we propose a robust "angular reconstitution" algorithm for molecules with $n$-fold cyclic symmetry, that estimates the orientation parameters of the projections-images. Our suggested method utilizes self common lines which induce identical lines within the Fourier transform of each projection-image. We show that the location of self common lines admits quite a few favorable geometrical constraints, thus allowing to detect them even in a noisy setting. In addition, for molecules with higher order rotational symmetry, our proposed method exploits the fact that there exist numerous common lines between any two Fourier transformed projection-images of such molecules, thus allowing to determine their relative orientation even under high levels of noise. The efficacy of our proposed method is demonstrated using numerical experiments conducted on simulated and experimental data.

Published

2019

2. A Graph Partitioning Approach to Simultaneous Angular Reconstitution

Author

Gabi Pragier, Yoel Shkolnisky, Xiuyuan Cheng, and Ido Greenberg

Subjects

0301 basic medicine, Noise measurement, business.industry, media_common.quotation_subject, Graph partition, Ambiguity, Iterative reconstruction, Article, Computer Science Applications, Rendering (computer graphics), law.invention, 03 medical and health sciences, Computational Mathematics, 030104 developmental biology, law, Signal Processing, Line graph, Computer vision, Tomography, Artificial intelligence, business, Assignment problem, Algorithm, media_common, Mathematics

Abstract

One of the primary challenges in single particle reconstruction with cryo-electron microscopy is to find a three-dimensional model of a molecule using its noisy two-dimensional projection-images. As the imaging orientations of the projection-images are unknown, we suggest a common-lines-based method to simultaneously estimate the imaging orientations of all images that is independent of the distribution of the orientations. Since the relative orientation of each pair of images may only be estimated up to a two-way handedness ambiguity, we suggest an efficient procedure to consistently assign the same handedness to all relative orientations. This is achieved by casting the handedness assignment problem as a graph-partitioning problem. Once a consistent handedness of all relative orientations is determined, the orientations corresponding to all projection-images are determined simultaneously, thus rendering the method robust to noise. Our proposed method has also the advantage of allowing one to incorporate confidence information regarding the trustworthiness of each relative orientation in a natural manner. We demonstrate the efficacy of our approach using simulated clean and noisy data.

Published

2016