Hinge Analysis

From Info

(Difference between revisions)
Jump to: navigation, search
Line 1: Line 1:
We have a number of resources available for hinge analysis.
We have a number of resources available for hinge analysis.
-
[http://stonehinge.molmovdb.org/ StoneHinge '''(currently under construction)''']: StoneHinge is a hinge prediction algorithm that performs a network-based analysis of a single protein structure to detect hinge regions. StoneHinge incorporates both ProFlex, which uses the FIRST constraint counting algorithm, and DomDecomp, which uses Gaussian Normal Mode analysis.
+
[http://stonehinge.molmovdb.org/ StoneHinge '''''(currently under construction)''''']: StoneHinge is a hinge prediction algorithm that performs a network-based analysis of a single protein structure to detect hinge regions. StoneHinge incorporates both ProFlex, which uses the FIRST constraint counting algorithm, and DomDecomp, which uses Gaussian Normal Mode analysis.
[http://molmovdb.org/cgi-bin/submit-flexoracle.cgi HingeMaster]: The new HingeMaster server predicts hinge locations in single protein structures. The algorithm combines FlexOracle, TLSMD, StoneHingeP and NSHP hinge predictors for maximum accuracy
[http://molmovdb.org/cgi-bin/submit-flexoracle.cgi HingeMaster]: The new HingeMaster server predicts hinge locations in single protein structures. The algorithm combines FlexOracle, TLSMD, StoneHingeP and NSHP hinge predictors for maximum accuracy

Revision as of 05:17, 18 April 2016

We have a number of resources available for hinge analysis.

StoneHinge (currently under construction): StoneHinge is a hinge prediction algorithm that performs a network-based analysis of a single protein structure to detect hinge regions. StoneHinge incorporates both ProFlex, which uses the FIRST constraint counting algorithm, and DomDecomp, which uses Gaussian Normal Mode analysis.

HingeMaster: The new HingeMaster server predicts hinge locations in single protein structures. The algorithm combines FlexOracle, TLSMD, StoneHingeP and NSHP hinge predictors for maximum accuracy

RigidFinder: performs comparison of two protein conformations with the aim of identifying movable rigid regions.

TACE calculates pseudo-torsion angle changes in backbone structures given a pair of conformations.

Personal tools