TY - JOUR
T1 - Pairwise and multimeric protein–protein docking using the lzerd program suite
AU - Esquivel-Rodriguez, Juan
AU - Filos-Gonzalez, Vianney
AU - Li, Bin
AU - Kihara, Daisuke
N1 - Publisher Copyright:
© Springer Science+Business Media New York 2014.
PY - 2014
Y1 - 2014
N2 - Physical interactions between proteins are involved in many important cell functions and are key for understanding the mechanisms of biological processes. Protein–protein docking programs provide a means to computationally construct three-dimensional (3D) models of a protein complex structure from its component protein units. A protein docking program takes two or more individual 3D protein structures, which are either experimentally solved or computationally modeled, and outputs a series of probable complex structures. In this chapter we present the LZerD protein docking suite, which includes programs for pairwise docking, LZerD and PI-LZerD, and multiple protein docking, Multi-LZerD, developed by our group. PI-LZerD takes protein docking interface residues as additional input information. The methods use a combination of shape-based protein surface features as well as physics-based scoring terms to generate protein complex models. The programs are provided as stand-alone programs and can be downloaded from http://kiharalab.org/proteindocking .
AB - Physical interactions between proteins are involved in many important cell functions and are key for understanding the mechanisms of biological processes. Protein–protein docking programs provide a means to computationally construct three-dimensional (3D) models of a protein complex structure from its component protein units. A protein docking program takes two or more individual 3D protein structures, which are either experimentally solved or computationally modeled, and outputs a series of probable complex structures. In this chapter we present the LZerD protein docking suite, which includes programs for pairwise docking, LZerD and PI-LZerD, and multiple protein docking, Multi-LZerD, developed by our group. PI-LZerD takes protein docking interface residues as additional input information. The methods use a combination of shape-based protein surface features as well as physics-based scoring terms to generate protein complex models. The programs are provided as stand-alone programs and can be downloaded from http://kiharalab.org/proteindocking .
KW - Macromolecular docking
KW - Multimeric protein docking
KW - Multiple-protein docking
KW - Protein–protein docking
KW - Protein–protein interactions
KW - Protein–protein interface prediction
UR - http://www.scopus.com/inward/record.url?scp=84907874882&partnerID=8YFLogxK
U2 - 10.1007/978-1-4939-0366-5_15
DO - 10.1007/978-1-4939-0366-5_15
M3 - Artículo
C2 - 24573484
AN - SCOPUS:84907874882
SN - 1064-3745
VL - 1137
SP - 209
EP - 234
JO - Methods in Molecular Biology
JF - Methods in Molecular Biology
ER -