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A microtubule RELION-based pipeline for cryo-EM image processing.


ABSTRACT: Microtubules are polar filaments built from ??-tubulin heterodimers that exhibit a range of architectures in vitro and in vivo. Tubulin heterodimers are arranged helically in the microtubule wall but many physiologically relevant architectures exhibit a break in helical symmetry known as the seam. Noisy 2D cryo-electron microscopy projection images of pseudo-helical microtubules therefore depict distinct but highly similar views owing to the high structural similarity of ?- and ?-tubulin. The determination of the ??-tubulin register and seam location during image processing is essential for alignment accuracy that enables determination of biologically relevant structures. Here we present a pipeline designed for image processing and high-resolution reconstruction of cryo-electron microscopy microtubule datasets, based in the popular and user-friendly RELION image-processing package, Microtubule RELION-based Pipeline (MiRP). The pipeline uses a combination of supervised classification and prior knowledge about geometric lattice constraints in microtubules to accurately determine microtubule architecture and seam location. The presented method is fast and semi-automated, producing near-atomic resolution reconstructions with test datasets that contain a range of microtubule architectures and binding proteins.

SUBMITTER: Cook AD 

PROVIDER: S-EPMC6961209 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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A microtubule RELION-based pipeline for cryo-EM image processing.

Cook Alexander D AD   Manka Szymon W SW   Wang Su S   Moores Carolyn A CA   Atherton Joseph J  

Journal of structural biology 20191011 1


Microtubules are polar filaments built from αβ-tubulin heterodimers that exhibit a range of architectures in vitro and in vivo. Tubulin heterodimers are arranged helically in the microtubule wall but many physiologically relevant architectures exhibit a break in helical symmetry known as the seam. Noisy 2D cryo-electron microscopy projection images of pseudo-helical microtubules therefore depict distinct but highly similar views owing to the high structural similarity of α- and β-tubulin. The de  ...[more]

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