Exemplo n.º 1
0
    def _get_schema(self):
        """Returns the schema that describes this workflow.

        Returns
        -------
        WorkflowSchema
            The schema that describes this workflow.
        """
        schema = WorkflowSchema()

        schema.id = self.uuid
        schema.protocol_schemas = [
            copy.deepcopy(x.schema) for x in self._protocols
        ]

        if self._final_value_source != UNDEFINED:
            schema.final_value_source = self._final_value_source.copy()

        schema.outputs_to_store = copy.deepcopy(self._outputs_to_store)

        return schema
Exemplo n.º 2
0
    def default_yank_schema(existing_schema=None):
        """Returns the default calculation schema to use when estimating
        this class of property from direct simulations.

        Parameters
        ----------
        existing_schema: SimulationSchema, optional
            An existing schema whose settings to use. If set,
            the schema's `workflow_schema` will be overwritten
            by this method.

        Returns
        -------
        SimulationSchema
            The schema to follow when estimating this property.
        """

        calculation_schema = SimulationSchema()

        if existing_schema is not None:
            assert isinstance(existing_schema, SimulationSchema)
            calculation_schema = copy.deepcopy(existing_schema)

        schema = WorkflowSchema(
            property_type=HostGuestBindingAffinity.__name__)
        schema.id = "{}{}".format(HostGuestBindingAffinity.__name__, "Schema")

        # Initial coordinate and topology setup.
        filter_ligand = miscellaneous.FilterSubstanceByRole("filter_ligand")
        filter_ligand.input_substance = ProtocolPath("substance", "global")

        filter_ligand.component_roles = [Component.Role.Ligand]
        # We only support substances with a single guest ligand.
        filter_ligand.expected_components = 1

        schema.protocols[filter_ligand.id] = filter_ligand.schema

        # Construct the protocols which will (for now) take as input a set of host coordinates,
        # and generate a set of charges for them.
        filter_receptor = miscellaneous.FilterSubstanceByRole(
            "filter_receptor")
        filter_receptor.input_substance = ProtocolPath("substance", "global")

        filter_receptor.component_roles = [Component.Role.Receptor]
        # We only support substances with a single host receptor.
        filter_receptor.expected_components = 1

        schema.protocols[filter_receptor.id] = filter_receptor.schema

        # Perform docking to position the guest within the host.
        perform_docking = coordinates.BuildDockedCoordinates("perform_docking")

        perform_docking.ligand_substance = ProtocolPath(
            "filtered_substance", filter_ligand.id)
        perform_docking.receptor_coordinate_file = ProtocolPath(
            "receptor_mol2", "global")

        schema.protocols[perform_docking.id] = perform_docking.schema

        # Solvate the docked structure using packmol
        filter_solvent = miscellaneous.FilterSubstanceByRole("filter_solvent")
        filter_solvent.input_substance = ProtocolPath("substance", "global")
        filter_solvent.component_roles = [Component.Role.Solvent]

        schema.protocols[filter_solvent.id] = filter_solvent.schema

        solvate_complex = coordinates.SolvateExistingStructure(
            "solvate_complex")
        solvate_complex.max_molecules = 1000

        solvate_complex.substance = ProtocolPath("filtered_substance",
                                                 filter_solvent.id)
        solvate_complex.solute_coordinate_file = ProtocolPath(
            "docked_complex_coordinate_path", perform_docking.id)

        schema.protocols[solvate_complex.id] = solvate_complex.schema

        # Assign force field parameters to the solvated complex system.
        build_solvated_complex_system = forcefield.BaseBuildSystem(
            "build_solvated_complex_system")

        build_solvated_complex_system.force_field_path = ProtocolPath(
            "force_field_path", "global")

        build_solvated_complex_system.coordinate_file_path = ProtocolPath(
            "coordinate_file_path", solvate_complex.id)
        build_solvated_complex_system.substance = ProtocolPath(
            "substance", "global")

        build_solvated_complex_system.charged_molecule_paths = [
            ProtocolPath("receptor_mol2", "global")
        ]

        schema.protocols[build_solvated_complex_system.
                         id] = build_solvated_complex_system.schema

        # Solvate the ligand using packmol
        solvate_ligand = coordinates.SolvateExistingStructure("solvate_ligand")
        solvate_ligand.max_molecules = 1000

        solvate_ligand.substance = ProtocolPath("filtered_substance",
                                                filter_solvent.id)
        solvate_ligand.solute_coordinate_file = ProtocolPath(
            "docked_ligand_coordinate_path", perform_docking.id)

        schema.protocols[solvate_ligand.id] = solvate_ligand.schema

        # Assign force field parameters to the solvated ligand system.
        build_solvated_ligand_system = forcefield.BaseBuildSystem(
            "build_solvated_ligand_system")

        build_solvated_ligand_system.force_field_path = ProtocolPath(
            "force_field_path", "global")

        build_solvated_ligand_system.coordinate_file_path = ProtocolPath(
            "coordinate_file_path", solvate_ligand.id)
        build_solvated_ligand_system.substance = ProtocolPath(
            "substance", "global")

        schema.protocols[build_solvated_ligand_system.
                         id] = build_solvated_ligand_system.schema

        # Employ YANK to estimate the binding free energy.
        yank_protocol = yank.LigandReceptorYankProtocol("yank_protocol")

        yank_protocol.thermodynamic_state = ProtocolPath(
            "thermodynamic_state", "global")

        yank_protocol.number_of_iterations = 2000
        yank_protocol.steps_per_iteration = 500
        yank_protocol.checkpoint_interval = 10

        yank_protocol.verbose = True

        yank_protocol.force_field_path = ProtocolPath("force_field_path",
                                                      "global")

        yank_protocol.ligand_residue_name = ProtocolPath(
            "ligand_residue_name", perform_docking.id)
        yank_protocol.receptor_residue_name = ProtocolPath(
            "receptor_residue_name", perform_docking.id)

        yank_protocol.solvated_ligand_coordinates = ProtocolPath(
            "coordinate_file_path", solvate_ligand.id)
        yank_protocol.solvated_ligand_system = ProtocolPath(
            "parameterized_system", build_solvated_ligand_system.id)

        yank_protocol.solvated_complex_coordinates = ProtocolPath(
            "coordinate_file_path", solvate_complex.id)
        yank_protocol.solvated_complex_system = ProtocolPath(
            "parameterized_system", build_solvated_complex_system.id)

        schema.protocols[yank_protocol.id] = yank_protocol.schema

        # Define where the final values come from.
        schema.final_value_source = ProtocolPath("free_energy_difference",
                                                 yank_protocol.id)

        calculation_schema.workflow_schema = schema
        return calculation_schema