TY - JOUR
T1 - Computational study of the impact of nucleotide variations on highly conserved proteins
T2 - In the case of actin
AU - Duong, Ha T.T.
AU - Suzuki, Hirofumi
AU - Katagiri, Saki
AU - Shibata, Mayu
AU - Arai, Misae
AU - Yura, Kei
N1 - Funding Information:
This research is partly supported by Basis for Supporting Innovative Drug Discovery and Life Science Research (BINDS) [JP21am0101065] from Japan Agency for Medical Research and Development (AMED). The calculation in this research was conducted on Chaen, the supercomputer of the Center for Interdisciplinary AI and Data Science at Ochanomizu University.
Publisher Copyright:
© 2022 THE BIOPHYSICAL SOCIETY OF JAPAN.
PY - 2022
Y1 - 2022
N2 - Sequencing of individual human genomes enables studying relationship among nucleotide variations, amino acid substitutions, effect on protein structures and diseases. Many studies have found general tendencies, for instance, that pathogenic variations tend to be found in the buried regions of the protein structures, that benign variations tend to be found on the surface of the proteins, and that variations on evolutionary conserved residues tend to be pathogenic. These tendencies were deduced from globular proteins with standard evolutionary changes in amino acid sequences. In this study, we investigated the variation distribution on actin, one of the highly conserved proteins. Many nucleotide variations and three-dimensional structures of actin have been registered in databases. By combining those data, we found that variations buried inside the protein were rather benign and variations on the surface of the protein were pathogenic. This idiosyncratic distribution of the variation impact is likely ascribed to the extensive use of the surface of the protein for protein-protein interactions in actin.
AB - Sequencing of individual human genomes enables studying relationship among nucleotide variations, amino acid substitutions, effect on protein structures and diseases. Many studies have found general tendencies, for instance, that pathogenic variations tend to be found in the buried regions of the protein structures, that benign variations tend to be found on the surface of the proteins, and that variations on evolutionary conserved residues tend to be pathogenic. These tendencies were deduced from globular proteins with standard evolutionary changes in amino acid sequences. In this study, we investigated the variation distribution on actin, one of the highly conserved proteins. Many nucleotide variations and three-dimensional structures of actin have been registered in databases. By combining those data, we found that variations buried inside the protein were rather benign and variations on the surface of the protein were pathogenic. This idiosyncratic distribution of the variation impact is likely ascribed to the extensive use of the surface of the protein for protein-protein interactions in actin.
KW - VUS
KW - conservation
KW - pathogenic variation
KW - protein three-dimensional structure
KW - protein-protein interaction
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U2 - 10.2142/BIOPHYSICO.BPPB-V19.0025
DO - 10.2142/BIOPHYSICO.BPPB-V19.0025
M3 - Comment/debate
AN - SCOPUS:85137579462
SN - 1349-2942
VL - 19
JO - Biophysics and physicobiology
JF - Biophysics and physicobiology
M1 - e190025
ER -