TY - JOUR
T1 - FIRT
T2 - Filtered iterative reconstruction technique with information restoration
AU - Chen, Yu
AU - Zhang, Yan
AU - Zhang, Kai
AU - Deng, Yuchen
AU - Wang, Shengliu
AU - Zhang, Fa
AU - Sun, Fei
N1 - Publisher Copyright:
© 2016 The Authors
PY - 2016/7/1
Y1 - 2016/7/1
N2 - Electron tomography (ET) combining subsequent sub-volume averaging has been becoming a unique way to study the in situ 3D structures of macromolecular complexes. However, information missing in electron tomography due to limited angular sampling is still the bottleneck in high-resolution electron tomography application. Here, based on the understanding of smooth nature of biological specimen, we present a new iterative image reconstruction algorithm, FIRT (filtered iterative reconstruction technique) for electron tomography by combining the algebra reconstruction technique (ART) and the nonlinear diffusion (ND) filter technique. Using both simulated and experimental data, in comparison to ART and weight back projection method, we proved that FIRT could generate a better reconstruction with reduced ray artifacts and significant improved correlation with the ground truth and partially restore the information at the non-sampled angular region, which was proved by investigating the 90° re-projection and by the cross-validation method. This new algorithm will be subsequently useful in the future for both cellular and molecular ET with better quality and improved structural details.
AB - Electron tomography (ET) combining subsequent sub-volume averaging has been becoming a unique way to study the in situ 3D structures of macromolecular complexes. However, information missing in electron tomography due to limited angular sampling is still the bottleneck in high-resolution electron tomography application. Here, based on the understanding of smooth nature of biological specimen, we present a new iterative image reconstruction algorithm, FIRT (filtered iterative reconstruction technique) for electron tomography by combining the algebra reconstruction technique (ART) and the nonlinear diffusion (ND) filter technique. Using both simulated and experimental data, in comparison to ART and weight back projection method, we proved that FIRT could generate a better reconstruction with reduced ray artifacts and significant improved correlation with the ground truth and partially restore the information at the non-sampled angular region, which was proved by investigating the 90° re-projection and by the cross-validation method. This new algorithm will be subsequently useful in the future for both cellular and molecular ET with better quality and improved structural details.
KW - Algebra reconstruction technique
KW - Electron tomography
KW - Filtered iterative reconstruction technique
KW - Information restoration
KW - Nonlinear diffusion filter
UR - http://www.scopus.com/inward/record.url?scp=84965075865&partnerID=8YFLogxK
U2 - 10.1016/j.jsb.2016.04.015
DO - 10.1016/j.jsb.2016.04.015
M3 - Article
C2 - 27134004
AN - SCOPUS:84965075865
SN - 1047-8477
VL - 195
SP - 49
EP - 61
JO - Journal of Structural Biology
JF - Journal of Structural Biology
IS - 1
ER -