AbstractMany proteins contain flexible structures such as loops and hinged domains. A simple root mean square deviation (RMSD) alignment of two different conformations of the same protein can be skewed by the difference between the mobile regions. To overcome this problem, we have developed a novel method to overlay two protein conformations by their atomic coordinates using a Gaussian-weighted RMSD (wRMSD) fit. The algorithm is based on the Kabsch least-squares method and determines an optimal transformation between two molecules by calculating the minimal weighted deviation between the two coordinate sets. Unlike other techniques that choose subsets of residues to overlay, all atoms are included in the wRMSD overlay. Atoms that barely mov...
Protein structures are routinely compared by their root-mean-square deviation (RMSD) in atomic coord...
Abstract Background Structural alignment is an important step in protein comparison. Well-establishe...
Backgound:Techniques for comparison and optimum superimposition of protein structures are indispensa...
Abstract Background The conventional superposition methods use an ordinary least squares (LS) fit fo...
Abstract Background Protein structure comparison is a central issue in structural bioinformatics. Th...
International audienceThe root mean square deviation (RMSD) and the least RMSD are two widely used s...
Background The conventional superposition methods use an ordinary least squares (LS) fit for structu...
An appropriate structural superposition identifies similarities and differences between homologous p...
In the study of globular protein conformations, one customarily measures the similarity in three-dim...
BackgroundMost existing formulations of protein structure comparison are based on detailed atomic le...
RMSD. In other words, the distance RMSD is very sensitive to local difference. To eliminate the infl...
Quantification of statistical significance is essential for the interpretation of protein struc-tura...
Despite its well-documented limitations, the root-mean-square-distance (rmsd) between pairs of equiv...
The three-dimensional structure of a protein molecule provides significant insight into its biologic...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
Protein structures are routinely compared by their root-mean-square deviation (RMSD) in atomic coord...
Abstract Background Structural alignment is an important step in protein comparison. Well-establishe...
Backgound:Techniques for comparison and optimum superimposition of protein structures are indispensa...
Abstract Background The conventional superposition methods use an ordinary least squares (LS) fit fo...
Abstract Background Protein structure comparison is a central issue in structural bioinformatics. Th...
International audienceThe root mean square deviation (RMSD) and the least RMSD are two widely used s...
Background The conventional superposition methods use an ordinary least squares (LS) fit for structu...
An appropriate structural superposition identifies similarities and differences between homologous p...
In the study of globular protein conformations, one customarily measures the similarity in three-dim...
BackgroundMost existing formulations of protein structure comparison are based on detailed atomic le...
RMSD. In other words, the distance RMSD is very sensitive to local difference. To eliminate the infl...
Quantification of statistical significance is essential for the interpretation of protein struc-tura...
Despite its well-documented limitations, the root-mean-square-distance (rmsd) between pairs of equiv...
The three-dimensional structure of a protein molecule provides significant insight into its biologic...
Motivation: Aligning and comparing protein structures is important for understanding their evolution...
Protein structures are routinely compared by their root-mean-square deviation (RMSD) in atomic coord...
Abstract Background Structural alignment is an important step in protein comparison. Well-establishe...
Backgound:Techniques for comparison and optimum superimposition of protein structures are indispensa...