Exemple #1
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    def test_bad_init_parameterization(self):
        """
        It checks that a call to the parameterize function with a Molecule
        unsuccessfully initialized raises an Exception.
        """
        FORCEFIELD_NAME = 'openff_unconstrained-1.1.1.offxml'
        LIGAND_PATH = SET_OF_LIGAND_PATHS[0]
        ligand_path = get_data_file_path(LIGAND_PATH)

        molecule = Molecule()
        with pytest.raises(Exception):
            molecule.parameterize(FORCEFIELD_NAME)

        rdkit_toolkit = RDKitToolkitWrapper()
        molecule._rdkit_molecule = rdkit_toolkit.from_pdb(ligand_path)
        molecule._off_molecule = None

        with pytest.raises(Exception):
            molecule.parameterize(FORCEFIELD_NAME)

        openforcefield_toolkit = OpenForceFieldToolkitWrapper()
        molecule._off_molecule = openforcefield_toolkit.from_rdkit(molecule)
        molecule._rdkit_molecule = None

        with pytest.raises(Exception):
            molecule.parameterize(FORCEFIELD_NAME)
Exemple #2
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    def _initialize_from_smiles(self, smiles):
        """
        It initializes a molecule from a SMILES tag.

        Parameters
        ----------
        smiles : str
            The SMILES tag to construct the molecule structure with
        """
        self._initialize()
        print(' - Constructing molecule from a SMILES tag with RDKit')

        rdkit_toolkit = RDKitToolkitWrapper()
        self._rdkit_molecule = rdkit_toolkit.from_smiles(smiles)

        # TODO not sure if stereochemistry assignment from 3D is still necessary
        # RDKit must generate stereochemistry specifically from 3D coords
        # rdkit_toolkit.assign_stereochemistry_from_3D(self)

        # Set molecule name according to the SMILES tag
        if self.name == '':
            self.set_name(smiles)

        openforcefield_toolkit = OpenForceFieldToolkitWrapper()

        self._off_molecule = openforcefield_toolkit.from_rdkit(self)
Exemple #3
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    def _initialize_from_smiles(self, smiles):
        """
        It initializes a molecule from a SMILES tag.

        Parameters
        ----------
        smiles : str
            The SMILES tag to construct the molecule structure with
        """
        logger = Logger()
        logger.info(' - Initializing molecule from a SMILES tag')
        self._initialize()

        logger.info('   - Loading molecule from RDKit')
        rdkit_toolkit = RDKitToolkitWrapper()
        self._rdkit_molecule = rdkit_toolkit.from_smiles(smiles)

        # TODO not sure if stereochemistry assignment from 3D is still necessary
        # RDKit must generate stereochemistry specifically from 3D coords
        # rdkit_toolkit.assign_stereochemistry_from_3D(self)

        # Set molecule name according to the SMILES tag
        if self.name == '':
            logger.info('   - Setting molecule name to \'{}\''.format(smiles))
            self.set_name(smiles)

        logger.info('   - Representing molecule with the Open Force Field ' +
                    'Toolkit')
        openforcefield_toolkit = OpenForceFieldToolkitWrapper()
        self._off_molecule = openforcefield_toolkit.from_rdkit(self)
Exemple #4
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    def to_pdb_file(self, path):
        """
        It writes the molecule to a PDB file.

        Parameters
        ----------
        path : str
            Path to write to
        """
        rdkit_toolkit = RDKitToolkitWrapper()
        rdkit_toolkit.to_pdb_file(self, path)
Exemple #5
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    def set_conformer(self, conformer):
        """
        It sets a new conformer to the molecule.

        Parameters
        ----------
        conformer : an RDKit.Chem.rdchem.Conformer object
            The conformer to set to the molecule
        """
        rdkit_toolkit = RDKitToolkitWrapper()
        rdkit_toolkit.set_conformer(self, conformer)
Exemple #6
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    def get_pdb_atom_names(self):
        """
        It returns the PDB atom names of all the atoms in the molecule.

        Returns
        -------
        pdb_atom_names : str
            The PDB atom names of all the atoms in this Molecule object
        """
        rdkit_toolkit = RDKitToolkitWrapper()

        return rdkit_toolkit.get_atom_names(self)
Exemple #7
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    def _ipython_display_(self):
        """
        It returns a RDKit molecule with an embeded 2D representation.

        Returns
        -------
        representation_2D : a IPython display object
            It is displayable RDKit molecule with an embeded 2D
            representation
        """
        from IPython.display import display

        rdkit_toolkit = RDKitToolkitWrapper()
        return display(rdkit_toolkit.get_2D_representation(self))
Exemple #8
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    def _build_atoms(self):
        """It builds the atoms of the molecule."""
        # PELE needs underscores instead of whitespaces
        pdb_atom_names = {(i, ): name.replace(' ', '_',)
                          for i, name in enumerate(self.get_pdb_atom_names())}

        OPLS_types = {i: 'OFFT'
                      for i in self.parameters.get_vdW_parameters().keys()}

        # TODO Which is the purpose of unknown value? Is it important?
        unknowns = {i: None
                    for i in self.parameters.get_vdW_parameters().keys()}

        # TODO Create z-matrix from 3D coordinates

        coords = RDKitToolkitWrapper().get_coordinates(self)

        sigmas = self.parameters.get_vdW_sigmas()

        if all([sigma is None for sigma in sigmas.values()]):
            sigmas = self.parameters.get_vdW_sigmas_from_rmin_halves()

        epsilons = self.parameters.get_vdW_epsilons()

        # TODO Find a way to assign implicit solvent parameters to atoms with OFF
        born_radii = {i: None
                      for i in self.parameters.get_vdW_parameters().keys()}

        # TODO Doublecheck later this relation
        SASA_radii = {i: j / 2.0 for i, j in sigmas.items()}

        # TODO Find a way to assign implicit solvent parameters to atoms with OFF
        nonpolar_gammas = {i: None for i in
                           self.parameters.get_vdW_parameters().keys()}
        nonpolar_alphas = {i: None for i in
                           self.parameters.get_vdW_parameters().keys()}

        for index in self.parameters.get_vdW_parameters().keys():
            assert len(index) == 1, 'Index should be a tupple of length 1'
            atom = Atom(index=int(index[0]),
                        PDB_name=pdb_atom_names[index],
                        OPLS_type=OPLS_types[index],
                        unknown=unknowns[index],
                        x=coords[index][0],
                        y=coords[index][1],
                        z=coords[index][2],
                        sigma=sigmas[index],
                        epsilon=epsilons[index],
                        charge=self.off_molecule.partial_charges[index],
                        born_radius=born_radii[index],
                        SASA_radius=SASA_radii[index],
                        nonpolar_gamma=nonpolar_gammas[index],
                        nonpolar_alpha=nonpolar_alphas[index])
            self._add_atom(atom)
Exemple #9
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    def _initialize_from_pdb(self, path):
        """
        It initializes a molecule with the molecule structure read from
        a PDB file.

        Parameters
        ----------
        path : str
            The path to a PDB with the molecule structure
        """
        self._initialize()
        print(' - Loading molecule from RDKit')

        rdkit_toolkit = RDKitToolkitWrapper()
        self._rdkit_molecule = rdkit_toolkit.from_pdb(path)

        # RDKit must generate stereochemistry specifically from 3D coords
        rdkit_toolkit.assign_stereochemistry_from_3D(self)

        # Set molecule name according to PDB name
        if self.name == '':
            from pathlib import Path
            name = Path(path).stem
            self.set_name(name)

        # Set molecule tag according to PDB's residue name
        if self.tag == 'UNK':
            tag = rdkit_toolkit.get_residue_name(self)
            self.set_tag(tag)

        openforcefield_toolkit = OpenForceFieldToolkitWrapper()

        self._off_molecule = openforcefield_toolkit.from_rdkit(self)
Exemple #10
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    def _initialize_from_pdb(self, path):
        """
        It initializes a molecule with the molecule structure read from
        a PDB file.

        Parameters
        ----------
        path : str
            The path to a PDB with the molecule structure
        """
        logger = Logger()
        logger.info(' - Initializing molecule from PDB')
        self._initialize()

        logger.info('   - Loading molecule from RDKit')
        rdkit_toolkit = RDKitToolkitWrapper()
        self._rdkit_molecule = rdkit_toolkit.from_pdb(path)

        # Use RDKit template, if any, to assign the connectivity to
        # the current Molecule object
        if self.connectivity_template is not None:
            logger.info('   - Assigning connectivity from template')
            rdkit_toolkit.assign_connectivity_from_template(self)

        # RDKit must generate stereochemistry specifically from 3D coords
        logger.info('   - Assigning stereochemistry from 3D coordinates')
        rdkit_toolkit.assign_stereochemistry_from_3D(self)

        # Set molecule name according to PDB name
        if self.name == '':
            from pathlib import Path
            name = Path(path).stem
            logger.info('   - Setting molecule name to \'{}\''.format(name))
            self.set_name(name)

        # Set molecule tag according to PDB's residue name
        if self.tag == 'UNK':
            tag = rdkit_toolkit.get_residue_name(self)
            logger.info('   - Setting molecule tag to \'{}\''.format(tag))
            self.set_tag(tag)

        logger.info('   - Representing molecule with the Open Force Field ' +
                    'Toolkit')
        openforcefield_toolkit = OpenForceFieldToolkitWrapper()
        self._off_molecule = openforcefield_toolkit.from_rdkit(self)