Title :
Elastic image registration to fully explore macromolecular dynamics by electron microscopy
Author :
Qiyu Jin ; Sanchez Sorzano, Carlos Oscar ; Callebaut, Isabelle ; Tama, Florence ; Jonic, Slavica
Author_Institution :
IMPMC, UPMC, Paris, France
Abstract :
Structural changes are critical for biological functions of proteins and describing conformational changes in large macromolecular complexes is a major challenge. We have recently developed a hybrid method (HEMNMA) combining transmission electron microscopy (EM), normal mode analysis (NMA), and image analysis to study macromolecular dynamics. NMA is traditionally used to study macromolecular motions while HEMNMA provides insight into actual conformational changes seen by EM. HEMNMA uses normal modes to elastically align EM images with a reference structure in order to determine the conformations present in images and evaluate their pertinence. In this paper, we show how HEMNMA can be used with an atomic-resolution reference structure, using as an example the study of the conformational dynamics of Tomato Bushy Stunt Virus.
Keywords :
biology computing; image motion analysis; image registration; intramolecular mechanics; macromolecules; microorganisms; proteins; transmission electron microscopy; EM images; HEMNMA; NMA; Tomato Bushy Stunt virus; atomic-resolution reference structure; biological functions; conformational changes; conformational dynamics; elastic image registration; image analysis; macromolecular complexes; macromolecular dynamics; macromolecular motions; normal mode analysis; proteins; structural changes; transmission electron microscopy; Assembly; Electron microscopy; Image resolution; Proteins; Three-dimensional displays; dynamics; elastic registration; electron microscopy; macromolecules; structure;
Conference_Titel :
Image Processing (ICIP), 2014 IEEE International Conference on
Conference_Location :
Paris
DOI :
10.1109/ICIP.2014.7025416
