TY - JOUR
T1 - Ab initio prediction of the three-dimensional structure of a de novo designed protein
T2 - A double-blind case study
AU - Klepeis, John L.
AU - Wei, Yinan
AU - Hecht, Michael H.
AU - Floudas, Christodoulos A.
PY - 2005/2/15
Y1 - 2005/2/15
N2 - Ab initio structure prediction and de novo protein design are two problems at the forefront of research in the fields of structural biology and chemistry. The goal of ab initio structure prediction of proteins is to correctly characterize the 3D structure of a protein using only the amino acid sequence as input. De novo protein design involves the production of novel protein sequences that adopt a desired fold. In this work, the results of a double-blind study are presented in which a new ab initio method was successfully used to predict the 3D structure of a protein designed through an experimental approach using binary patterned combinatorial libraries of de novo sequences. The predicted structure, which was produced before the experimental structure was known and without consideration of the design goals, and the final NMR analysis both characterize this protein as a 4-helix bundle. The similarity of these structures is evidenced by both small RMSD values between the coordinates of the two structures and a detailed analysis of the helical packing.
AB - Ab initio structure prediction and de novo protein design are two problems at the forefront of research in the fields of structural biology and chemistry. The goal of ab initio structure prediction of proteins is to correctly characterize the 3D structure of a protein using only the amino acid sequence as input. De novo protein design involves the production of novel protein sequences that adopt a desired fold. In this work, the results of a double-blind study are presented in which a new ab initio method was successfully used to predict the 3D structure of a protein designed through an experimental approach using binary patterned combinatorial libraries of de novo sequences. The predicted structure, which was produced before the experimental structure was known and without consideration of the design goals, and the final NMR analysis both characterize this protein as a 4-helix bundle. The similarity of these structures is evidenced by both small RMSD values between the coordinates of the two structures and a detailed analysis of the helical packing.
KW - Binary patterning
KW - Four-helix bundle
KW - Optimization
KW - Protein design
KW - Protein folding
KW - Structure prediction
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U2 - 10.1002/prot.20338
DO - 10.1002/prot.20338
M3 - Article
C2 - 15609306
AN - SCOPUS:12944263648
SN - 0887-3585
VL - 58
SP - 560
EP - 570
JO - Proteins: Structure, Function and Genetics
JF - Proteins: Structure, Function and Genetics
IS - 3
ER -