Real‐Time Visualization of Microtubule and Protofilament‐Scale Dynamics in Multi‐Microtubule Arrays by Atomic Force Microscopy

Author:

Wijeratne Sithara S.12,Subramanian Radhika12

Affiliation:

1. Department of Molecular Biology Massachusetts General Hospital Boston Massachusetts

2. Department of Genetics Harvard Medical School Boston Massachusetts

Abstract

AbstractMicrotubules, polymers of α, β‐tubulin heterodimers, are organized into multi‐microtubule arrays for diverse cellular functions. The dynamic properties of microtubule arrays govern their structural and functional properties. While numerous insights into the biophysical mechanisms underlying microtubule organization have been gleaned from in vitro reconstitution studies, the assays are largely restricted to visualization of single or pairs of microtubules. Thus, the dynamic processes underlying the remodeling of multi‐microtubule arrays remain poorly understood. Recent work shows that Atomic Force Microscopy (AFM) enables the visualization of nanoscale dynamics within multi‐microtubule 2D arrays. In this assay, electrostatic interactions permit the non‐specific adsorption of microtubule arrays to mica. AFM imaging in tapping mode, a gentle method of imaging, allows the visualization of microtubules and protofilaments without sample damage. The height information captured by AFM imaging enables the tracking of structural changes in microtubules and protofilaments within multi‐microtubule arrays over time. The experimental data from the method described here reveal previously unseen modes of nanoscale dynamics in microtubule bundles formed by the microtubule‐crosslinking protein PRC1 in the presence of the depolymerase MCAK. The observations demonstrate the potential of AFM imaging in transforming our understanding of the fundamental cellular process by which multi‐microtubule arrays are dynamically assembled and disassembled. © 2023 Wiley Periodicals LLC.This article was corrected on 06 June 2023. See the end of the full text for details.Basic Protocol: Sample preparation and real‐time visualization of microtubule arrays by atomic force microscopyAlternate Protocol: Protocol for coating surface with poly‐L‐lysine and immobilizing microtubules

Publisher

Wiley

Subject

Medical Laboratory Technology,Health Informatics,General Pharmacology, Toxicology and Pharmaceutics,General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Neuroscience

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