Litcius/Paper detail

Diffuse X-ray scattering from correlated motions in a protein crystal

Steve P. Meisburger, David A. Case, Nozomi Ando

2020Nature Communications51 citationsDOIOpen Access PDF

Abstract

Protein dynamics are integral to biological function, yet few techniques are sensitive to collective atomic motions. A long-standing goal of X-ray crystallography has been to combine structural information from Bragg diffraction with dynamic information contained in the diffuse scattering background. However, the origin of macromolecular diffuse scattering has been poorly understood, limiting its applicability. We present a finely sampled diffuse scattering map from triclinic lysozyme with unprecedented accuracy and detail, clearly resolving both the inter- and intramolecular correlations. These correlations are studied theoretically using both all-atom molecular dynamics and simple vibrational models. Although lattice dynamics reproduce most of the diffuse pattern, protein internal dynamics, which include hinge-bending motions, are needed to explain the short-ranged correlations revealed by Patterson analysis. These insights lay the groundwork for animating crystal structures with biochemically relevant motions.

Topics & Concepts

ScatteringTriclinic crystal systemIntramolecular forceMolecular dynamicsCrystallographyDiffractionPhysicsChemical physicsLimitingMolecular physicsProtein crystallizationProtein dynamicsCrystal structureStatistical physicsChemistryOpticsQuantum mechanicsThermodynamicsCrystallizationEngineeringMechanical engineeringEnzyme Structure and FunctionProtein Structure and DynamicsCrystallography and Radiation Phenomena
Diffuse X-ray scattering from correlated motions in a protein crystal | Litcius