108 Individual-particle electron tomography: a method for studying macromolecule dynamics

Abstract

In solution, macromolecules are naturally flexible and dynamic. Dynamic personalities and structural heterogeneities of macromolecules are essential to understanding their proper function (Karplus & Kuriyan, 2005). However, structural determination of dynamic/heterogeneous macromolecules is limited by current technology such as: X-ray crystallography, nuclear magnetic resonance spectrum, small angle scattering, and electron microscopy single-particle reconstruction. A common weakness of all current techniques is requiring an averaged signal from thousands to millions of different macromolecules. Using averaged “signal” must involve in an assumption that macromolecules remain in identical structures or few identical conformations. This assumption is a good estimate for some macromolecule that have a rigid body, but not for most macromolecules that have “soft”, flexible, and dynamic body, such as lipoproteins and antibodies. An ideal approach for structure determination regardless of macromolecular dynamics is to use non-averaged signal, i.e. the signal from a single macromolecule itself. We developed a ‘‘focused electron tomography reconstruction’’ (FETR) algorithm to improve the resolution by decreasing the reconstructing image size so that it contains only a single-instance macromolecule (Zhang & Ren, 2012). FETR can tolerate certain levels of image distortion and measuring tilt-errors, and can also precisely determine the translational parameters via an iterative refinement process that contains a series of automatically generated dynamic filters and masks. Since this approach can obtain the structure of a single-instance macromolecule, we named it individual-particle electron tomography (IPET) as a new robust strategy/approach that does not require a pre-given initial model, class averaging of multiple molecules or an extended ordered lattice, but can tolerate small tilt-errors for high-resolution single ‘‘snapshot’’ of molecule structure determination (Zhang & Ren, 2012). FETR/IPET provides a completely new opportunity for a single-macromolecule structure determination, and could be used to study the dynamic character, equilibrium fluctuation, to reveal macromolecular mechanism, and even to track the intermediate state of the reaction of macromolecules (Zhang et al., 2010; Zhang & Ren, 2010).