meshi.energy.simpleEnergyTerms.compositeTorsions.ramachandran
Class RamachandranCreator

java.lang.Object
  meshi.energy.EnergyCreator
      meshi.energy.simpleEnergyTerms.compositeTorsions.ramachandran.RamachandranCreator

All Implemented Interfaces:

MeshiPotential, KeyWords

public class RamachandranCreator
extends EnergyCreator
implements KeyWords, MeshiPotential

The Ramachandran energy calculates the probability of each amino acid to be in a specific position at the (phi,psi) torsion space.

Field Summary

private static RamachandranParametersList

parametersList

Fields inherited from class meshi.energy.EnergyCreator

key, term, weight, weightWasSet

Fields inherited from interface meshi.util.KeyWords

AA_SEQUENCE, ACCESIBILITY_SEQUENCE, ALINMENT_FILE_PATH, ALL_CA, ALPHA_ANGLE_ENERGY, ALPHA_TORSION_ENERGY, ANGLE_ENERGY, ANGLE_X, ANGLE_Z, ATOMIC_PAIRWISE_PMF_SUMMA_ENERGY, BEAUTIFY_PROBLEMATIC_RANGE, BFGS, BOND_ENERGY, BUFFER_SIZE, CA_CLASH_DISTANCE, CA_LONG_DISTANCE, CA_MODEL, CA_SHORT_DISTANCE, CA_TETHER_ENERGY, CALPHA_HYDROGEN_BONDS, CALPHA_HYDROGEN_BONDS_PLANE, CASP_GROUP, CG, CHECK_INTERLOOP_DISTANCE, CLASH_DISTANCE, COMPOSITE_PROPENSITY_ENERGY, CONSENSUS_ENERGY, CONSTRICT, COOPERATIVE_ATOMIC_PAIRWISE_PMF_SUMMA_ENERGY, COOPERATIVE_ATOMIC_PAIRWISE_PMF_SUMMA_FILENAME, COOPERATIVE_PERATOM_SUMMA_ENERGY, COOPERATIVE_PERATOM_SUMMA_FILENAME, COOPERATIVE_PROPENSITY_ENERGY, COOPERATIVE_PROPENSITY_FILENAME, COOPERATIVE_RAMACHANDRAN_ENERGY, COOPERATIVE_RAMACHANDRAN_FILENAME, COOPERATIVE_Z_PROPENSITY_ENERGY, COOPERATIVE_Z_PROPENSITY_FILENAME, COOPERATIVE_Z_RAMACHANDRAN_ENERGY, COOPERATIVE_Z_RAMACHANDRAN_FILENAME, COOPERATIVE_Z_SUMMA_ENERGY, COOPERATIVE_Z_SUMMA_FILENAME, CORPUS_FILE_NAME, CSAonly_FILES_LOCATION_PATH, CUTOFF, CYLINDER_ENERGY, DICTIONARY_KEY, DIELECTRIC_CONSTANT, DISTANCE_CONSTRAINT_PCA, DISTANCE_CONSTRAINTS_ENERGY, DISTANCE_CONSTRAINTS_MASK, DISTANCE_FROM_CENTROID_ENERGY, DRESSER_FRAGMENTS, EDM_ENERGY, EDM_ENERGY_FILE_NAME, ELECTROSTATICS, END, EXCLUDED_VOL, FINAL_TEMPERATURE, FIX_C_TERMINAL, FIX_N_TERMINAL, FLAT_RAMACH_ENERGY, FREE_FINAL_MINIMIZATION, GRID_EDGE, HYDROGEN_BONDS, HYDROGEN_BONDS_ANGLES, HYDROGEN_BONDS_PAIRS, HYDROGEN_BONDS_PLANE, INFLATE_ENERGY, INITIAL_TEMPERATURE, INPUT_FILE, INTER_SEGMENT_FACTOR, INTER_SEGMENT_TOLERANCE, INTRA_SEGMENT_FACTOR, INTRA_SEGMENT_TOLERANCE, ITERATIONS_ALLATOM, ITERATIONS_BACKBONE, ITERATIONS_CA, KEY_KEY, KOEHL_FILE, LBFGS, LENNARD_JONES, LENNARD_JONES_CA, LINEAR_RG, LOOP1, LOOP2, LOOSEN_EDGE_LENGTH, MAX_ANGLE, MAX_CLASHES, MAX_DISTANCE, MAX_RUN_TIME, MAX_STEPS, MAX_WIDTH_OF_HAIRPIN, MCM, MCM_PERTURBATION, MESHILOG_KEY, METHOD, MIN_WIDTH_OF_HAIRPIN, MINIMIZATION_LOOP, MINIMIZE, MODE, MODEL, MODEL_DSSP, MODEL_NUMBER, N_ATOMS, N_TRIES, NON_FROZEN_BOND_DEPTH, NON_FROZEN_RADIUS, NONE, NUMBER, NUMBER_OF_CA_ITERATIONS, NUMBER_OF_CHAINS, NUMBER_OF_MODELS, NUMBER_OF_RUNS, OFF, ON, OPTIMIZER, OUT_OFPLANE_ENERGY, OUTPUT_FILE_NAME, OUTPUT_FILE_PATH, PARAMETERS_DIRECTORY, PDB_FILE, PLANE_ENERGY, PROPENSITY_TORSION_ENERGY, R_MAX, RAMACHANDRAN_SIDECHAIN_ENERGY, REFERENCE, RELAX, REPORT_EVERY, RESTART_EVERY, RMS_TARGET, ROTAMER_LIBRARY, SATURATION, SECONDARY_STRUCTURE, SEED, SEQUENCE, SHOTGUN_MODEL, SMOOTH_ROTAMER_LIBRARY_ENERGY, SOLVATE_ENERGY, SS_NAME, SS_SEQUENCE, STEEPEST_DECENT, STEPS, STRICT_CLASHES, STRUCTURE_NAMES, SUPERIMPOSE, SYMMETRY_ENERGY, TARGET_FILE_PATH, TARGET_NAME, TARGET_SEQUENCE, TEMPLATE_DISTANCE_CONSTRAINTS, TEMPLATE_DSSP, TEMPLATE_ENERGY, TEMPLATE_FILE_PATH, TEMPLATE_NAME, TEMPLATE_STRUCTURE, TEMPLATE_TARGET_ALIGNMENT, TETHER_ENERGY, TOLERANCE, TOPOLOGY_MAP, TWO_TORSIONS_ENERGY, UN_WARP_ENERGY, UNSATISFIED_CUTTOF, UP_TO_CUTOFF, USE_FAST_ARCCOS, VALUE_KEY, VOLUME_CONSTRAINT, WARP_ENERGY, WARP_STEP_SIZE, WARP_THRESHOLD, WEIGHT, WIDTH_OF_HAIRPIN

Fields inherited from interface meshi.parameters.MeshiPotential

ACCESSIBLE, ALPHA_ANGLE_PARAMETERS, ALPHA_TORSION_PARAMETERS, ANGLE_PARAMETERS, ATOMIC_PAIRWISE_PMF_SUMMA_PARAMETERS, BOND_PARAMETERS, BURIED, COIL, COMPOSITE_PROPENSITY_2D_PARAMETERS, COMPOSITE_PROPENSITY_2D_WITH_PP_PARAMETERS, COMPOSITE_PROPENSITY_PARAMETERS, COMPOSITE_TORSIONS_PARAMETERS, CONTACTS_ENVIRONMENT_PARAMETERS, CONTACTS_PARAMETERS, COOPERATIVE_ATOMIC_PAIRWISE_PMF_SUMMA_PARAMETERS, COOPERATIVE_PROPENSITY_PARAMETERS, COOPERATIVE_RAMACHANDRAN_PARAMETERS, ELECTROSTATICS_PARAMETERS, EXCLUDED_VOL_PARAMETERS, FLAT_RAMACH_PARAMETERS, HELIX, HELIX_OR_COIL, HYDROGEN_BONDS_PAIRS_BETA_PARAMETERS, HYDROGEN_BONDS_PAIRS_HELIX_PARAMETERS, HYDROGEN_BONDS_PAIRS_PARAMETERS_SURFACE, LENNARD_JONES_PARAMETERS, LENNARD_JONES_PARAMETERS_BACKBONE, LENNARD_JONES_PARAMETERS_CA, LJ_ENVIRONMENT_PARAMETERS, LJ_ENVIRONMENT_PARAMETERS_BACKBONE, LJ_ENVIRONMENT_PARAMETERS_CA, ONE_ANGLE_PARAMETERS, OUT_OF_PLANE_PARAMETERS, PLANE_PARAMETERS, PROPENSITY_ANGLE_PARAMETERS, PROPENSITY_TORSION_PARAMETERS, SHEET, SHEET_OR_COIL, SOLVATE_LONG_HB_PARAMETERS, SOLVATE_MINIMIZE_HB_PARAMETERS, SOLVATE_NOHB_PARAMETERS, SOLVATE_PARAMETERS, SOLVATE_SC_PARAMETERS, TWO_ANGLES_PARAMETERS, TWO_TORSIONS_PARAMETERS

Constructor Summary

RamachandranCreator()

RamachandranCreator(double weight)

Method Summary

AbstractEnergy

createEnergyTerm(Protein protein, DistanceMatrix distanceMatrix, CommandList commands) Where each sub class gets the chance to show what it knows.

Methods inherited from class meshi.energy.EnergyCreator

getParametersDirectory, getWeight, parametersDirectory, term, toString, weight, weightWasSet

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Field Detail

parametersList

private static RamachandranParametersList parametersList

Constructor Detail

RamachandranCreator

public RamachandranCreator(double weight)

RamachandranCreator

public RamachandranCreator()

Method Detail

createEnergyTerm

public AbstractEnergy createEnergyTerm(Protein protein,
                                       DistanceMatrix distanceMatrix,
                                       CommandList commands)

Description copied from class: EnergyCreator

Where each sub class gets the chance to show what it knows. Offers a standard interface to many energy functions that have different requirements.

Specified by:

createEnergyTerm in class EnergyCreator