Exemplo n.º 1
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 def _get_docking_model(self, molecule, restraints):
     """Builds a suitable docking model for this scoring function"""
     objects = []
     coordinates = []
     parsed_restraints = {}
     atom_index = 0
     for residue in molecule.residues:
         for rec_atom in residue.atoms:
             rec_atom_type = rec_atom.residue_name + ' ' + rec_atom.name
             if rec_atom_type in DFIRE2_ATOM_TYPES:
                 objects.append(
                     DFIRE2Object(residue.number,
                                  DFIRE2_ATOM_TYPES[rec_atom_type]))
                 coordinates.append([rec_atom.x, rec_atom.y, rec_atom.z])
                 # Restraints support
                 res_id = "%s.%s.%s" % (rec_atom.chain_id, residue.name,
                                        str(residue.number))
                 if restraints and res_id in restraints:
                     try:
                         parsed_restraints[res_id].append(atom_index)
                     except:
                         parsed_restraints[res_id] = [atom_index]
                 atom_index += 1
     try:
         return DockingModel(objects,
                             SpacePoints(coordinates),
                             parsed_restraints,
                             n_modes=molecule.n_modes.copy())
     except AttributeError:
         return DockingModel(objects, SpacePoints(coordinates),
                             parsed_restraints)
Exemplo n.º 2
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    def _get_docking_model(self, molecule, restraints):
        """Builds a suitable docking model for this scoring function"""
        r3_to_numerical = {}
        for x in range(len(DFIREPotential.RES_3)):
            r3_to_numerical[DFIREPotential.RES_3[x]] = x

        atomnumber = {}
        for x in range(len(DFIREPotential.RES_3)):
            for y in range(len(DFIREPotential.atoms_in_residues[DFIREPotential.RES_3[x]])):
                name = '%s%s' % (DFIREPotential.RES_3[x], DFIREPotential.atoms_in_residues[DFIREPotential.RES_3[x]][y])
                atomnumber[name] = y

        parsed_restraints = {}
        dfire_objects = []
        atom_index = 0
        for chain in molecule.chains:
          for residue in chain.residues:
              res_id = "%s.%s.%s" % (chain.cid, residue.name, str(residue.number))
              in_restraint = False
              if restraints and res_id in restraints:
                  parsed_restraints[res_id] = []
                  in_restraint = True
              for rec_atom in residue.atoms:
                  rec_atom_type = rec_atom.residue_name + rec_atom.name
                  rnuma = r3_to_numerical[rec_atom.residue_name]
                  anuma = atomnumber[rec_atom_type]
                  dfire_objects.append(DFIREObject(residue.index, rnuma, anuma))
                  if in_restraint:
                      parsed_restraints[res_id].append(atom_index)
                  atom_index += 1
        try:
            return DockingModel(dfire_objects, molecule.copy_coordinates(), parsed_restraints, n_modes=molecule.n_modes.copy())
        except AttributeError:
            return DockingModel(dfire_objects, molecule.copy_coordinates(), parsed_restraints)
Exemplo n.º 3
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 def _get_docking_model(self, molecule, restraints):
     """Builds a suitable docking model for this scoring function"""
     pisa_objects = []
     coordinates = []
     parsed_restraints = {}
     for atom_index, atom in enumerate(molecule.atoms):
         atom_type = PISAPotential.get_atom_type(atom.name,
                                                 atom.residue_name)
         if atom_type != -1:
             atom.pisa_type = atom_type
             pisa_objects.append(atom)
             coordinates.append([atom.x, atom.y, atom.z])
             res_id = "%s.%s.%s" % (atom.chain_id, atom.residue_name,
                                    str(atom.residue_number))
             if restraints and res_id in restraints:
                 try:
                     parsed_restraints[res_id].append(atom_index)
                 except:
                     parsed_restraints[res_id] = [atom_index]
     try:
         return DockingModel(pisa_objects,
                             molecule.copy_coordinates(),
                             parsed_restraints,
                             n_modes=molecule.n_modes.copy())
     except AttributeError:
         return DockingModel(pisa_objects, molecule.copy_coordinates(),
                             parsed_restraints)
Exemplo n.º 4
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    def _get_docking_model(self, molecule, restraints):
        """Builds a suitable docking model for this scoring function"""
        parsed_restraints = {}
        ddna_objects = []
        atom_index = 0
        for chain in molecule.chains:
            for residue in chain.residues:
                res_id = "%s.%s.%s" % (chain.cid, residue.name,
                                       str(residue.number))
                in_restraint = False
                if restraints and res_id in restraints:
                    parsed_restraints[res_id] = []
                    in_restraint = True

                for rec_atom in residue.atoms:
                    try:
                        ddna_atom_type = atom_types.index(
                            atom_map[rec_atom.residue_name][rec_atom.name])
                    except KeyError:
                        raise NotSupportedInScoringError(
                            f'Atom {rec_atom.name} in residue {rec_atom.residue_name} not supported'
                        )
                    ddna_objects.append(ddna_atom_type)
                    if in_restraint:
                        parsed_restraints[res_id].append(atom_index)
                    atom_index += 1
        try:
            return DockingModel(ddna_objects,
                                molecule.copy_coordinates(),
                                parsed_restraints,
                                n_modes=molecule.n_modes.copy())
        except AttributeError:
            return DockingModel(ddna_objects, molecule.copy_coordinates(),
                                parsed_restraints)
Exemplo n.º 5
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    def _get_docking_model(self, molecule, restraints):
        """Builds a suitable docking model for this scoring function"""
        r3_to_numerical = {}
        for x in range(len(DFIREPotential.RES_3)):
            r3_to_numerical[DFIREPotential.RES_3[x]] = x

        atomnumber = {}
        for x in range(len(DFIREPotential.RES_3)):
            for y in range(
                    len(DFIREPotential.atoms_in_residues[
                        DFIREPotential.RES_3[x]])):
                name = '%s%s' % (DFIREPotential.RES_3[x], DFIREPotential.
                                 atoms_in_residues[DFIREPotential.RES_3[x]][y])
                atomnumber[name] = y

        parsed_restraints = {}
        dfire_objects = []
        atom_index = 0
        membrane = {}
        for chain in molecule.chains:
            for residue in chain.residues:
                res_id = "%s.%s.%s" % (chain.cid, residue.name,
                                       str(residue.number))
                in_restraint = False
                if restraints and res_id in restraints:
                    parsed_restraints[res_id] = []
                    in_restraint = True
                for rec_atom in residue.atoms:
                    rec_atom_type = rec_atom.residue_name + rec_atom.name
                    if rec_atom_type == 'MMBBJ':
                        # Membrane beads MMB.BJ
                        try:
                            membrane[res_id].append(atom_index)
                        except KeyError:
                            membrane[res_id] = [atom_index]
                    try:
                        rnuma = r3_to_numerical[rec_atom.residue_name]
                        anuma = atomnumber[rec_atom_type]
                        atoma = DFIREPotential.atom_res_trans[rnuma, anuma]
                        dfire_objects.append(atoma)
                        if in_restraint:
                            parsed_restraints[res_id].append(atom_index)
                        atom_index += 1
                    except KeyError:
                        raise NotSupportedInScoringError(
                            'Residue {} or atom {} not supported. '.format(
                                res_id, rec_atom.name) +
                            'DFIRE only supports standard aminoacids without hydrogens.'
                        )
        try:
            return DockingModel(dfire_objects,
                                molecule.copy_coordinates(),
                                parsed_restraints,
                                membrane,
                                n_modes=molecule.n_modes.copy())
        except AttributeError:
            return DockingModel(dfire_objects, molecule.copy_coordinates(),
                                parsed_restraints, membrane)
Exemplo n.º 6
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    def test_null_rotation_one_atom(self):
        atom1 = Atom(1, 'CA', '', 'A', 'ALA', x=2., y=2., z=2.)
        atoms = [atom1]
        docking_model = DockingModel(atoms, SpacePoints([[2., 2., 2.]]))
        q = Quaternion()
        docking_model.rotate(q)

        expected_coordinates = np.array([[2., 2., 2.]])
        assert (expected_coordinates == docking_model.coordinates).all()
Exemplo n.º 7
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    def test_translate(self):
        atom1 = Atom(1, 'CA', '', 'A', 'ALA', x=2., y=2., z=2.)
        atom2 = Atom(2, 'CB', '', 'A', 'ALA', x=0., y=0., z=0.)
        residues = [Residue('ALA', 1, [atom1, atom2])]
        docking_model = DockingModel(residues, SpacePoints([[2., 2., 2.], [0, 0, 0]]))

        docking_model.translate([-2, -2, -2])

        expected_coordinates = SpacePoints([[0, 0, 0], [-2, -2, -2]])
        assert expected_coordinates == docking_model.coordinates[0]

        expected_coordinates = SpacePoints([[-1, -1, -1]])
        assert np.allclose(expected_coordinates, docking_model.reference_points)
Exemplo n.º 8
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    def test_null_rotation(self):
        atom1 = Atom(1, 'CA', '', 'A', 'ALA', x=2., y=2., z=2.)
        atom2 = Atom(2, 'CB', '', 'A', 'ALA', x=0., y=0., z=0.)
        atom3 = Atom(3, 'C', '', 'A', 'ALA', x=0.5, y=0.5, z=0.5)
        atoms = [atom1, atom2, atom3]
        docking_model = DockingModel(atoms, SpacePoints([[2., 2., 2.], [0., 0., 0.], [0.5, 0.5, 0.5]]))
        q = Quaternion()
        docking_model.rotate(q)

        expected_coordinates = SpacePoints([[2., 2., 2.], [0., 0., 0.], [0.5, 0.5, 0.5]])
        assert expected_coordinates == docking_model.coordinates[0]

        expected_coordinates = SpacePoints([[0.833333333333, 0.833333333333, 0.833333333333]])
        assert np.allclose(expected_coordinates, docking_model.reference_points)
Exemplo n.º 9
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 def _get_docking_model(self, molecule, restraints):
     """Builds a suitable docking model for this scoring function"""
     # In model_objects we can store any coordinates object (atoms, beans, etc.)
     model_objects = []
     for residue in molecule.residues:
         for rec_atom in residue.atoms:
             model_objects.append(rec_atom)
     try:
         return DockingModel(model_objects,
                             molecule.copy_coordinates(),
                             restraints,
                             n_modes=molecule.n_modes.copy())
     except AttributeError:
         return DockingModel(model_objects, molecule.copy_coordinates(),
                             restraints)
Exemplo n.º 10
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    def test_create_model(self):
        docking_model = DockingModel(objects=self.residues,
                                     coordinates=SpacePoints([[1, 1, 1], [1.1, 1.2, 1.3]]))

        expected_coordinates = SpacePoints([[1, 1, 1], [1.1, 1.2, 1.3]])

        assert len(docking_model.objects) == 2
        assert expected_coordinates == docking_model.coordinates[0]
Exemplo n.º 11
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    def test_reference_points_singular_matrix(self):
        atom1 = Atom(1, 'CA', '', 'A', 'ALA', x=2., y=2., z=2.)
        atom2 = Atom(2, 'CB', '', 'A', 'ALA', x=0., y=0., z=0.)
        atom3 = Atom(3, 'C', '', 'A', 'ALA', x=1., y=1., z=1.)
        atoms = [atom1, atom2, atom3]
        docking_model = DockingModel(atoms, SpacePoints([[2., 2., 2.], [0., 0., 0.], [1., 1., 1.]]))

        expected_coordinates = SpacePoints([[1., 1., 1.]])

        assert expected_coordinates == docking_model.reference_points
Exemplo n.º 12
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    def _get_docking_model(self, molecule, restraints):
        """Builds a suitable docking model for this scoring function"""
        residues = [residue for chain in molecule.chains for residue in chain.residues]
        tobi_residues = []
        list_of_coordinates = []
        parsed_restraints = {}
        for structure in range(molecule.num_structures):
            coordinates = []
            for residue in residues:
                try:
                    residue_index = TOBIPotential.recognized_residues.index(residue.name)

                    cx = 0.0
                    cy = 0.0
                    cz = 0.0
                    count = 0
                    chain_id = ''
                    for atom in residue.atoms:
                        if not atom.is_hydrogen():
                            current_atom = "%s%s" % (residue.name, atom.name)
                            ax = molecule.atom_coordinates[structure][atom.index][0]
                            ay = molecule.atom_coordinates[structure][atom.index][1]
                            az = molecule.atom_coordinates[structure][atom.index][2]

                            for atom_type in range(len(TOBIPotential.atom_types)):
                                if current_atom in TOBIPotential.atom_types[atom_type]:
                                    cx += ax
                                    cy += ay
                                    cz += az
                                    count += 1
                            if atom.name == 'N':
                                coordinates.append([ax, ay, az])
                                tobi_residues.append(20)
                            if atom.name == 'O':
                                coordinates.append([ax, ay, az])
                                tobi_residues.append(21)
                            chain_id = atom.chain_id
                    cx /= float(count)
                    cy /= float(count)
                    cz /= float(count)

                    coordinates.append([cx, cy, cz])
                    tobi_residues.append(residue_index)

                    res_id = "%s.%s.%s" % (chain_id, residue.name, str(residue.number))
                    if restraints and res_id in restraints:
                        parsed_restraints[res_id] = []

                except ValueError:
                    pass
                except ZeroDivisionError:
                    continue
            list_of_coordinates.append(SpacePoints(coordinates))

        return DockingModel(tobi_residues, list_of_coordinates, parsed_restraints)
Exemplo n.º 13
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 def test_reference_points_minimum_volume_ellipsoid(self):
     atom1 = Atom(1, 'CA', '', 'A', 'ALA', x=1.2, y=-1., z=2.)
     atom2 = Atom(2, 'CB', '', 'A', 'ALA', x=0., y=0., z=0.)
     atom3 = Atom(3, 'C', '', 'A', 'ALA', x=0.5, y=3., z=0.5)
     atom4 = Atom(4, 'N', '', 'A', 'ALA', x=0.85, y=-2.5, z=0.4)
     atoms = [atom1, atom2, atom3, atom4]
     docking_model = DockingModel(atoms, SpacePoints([[1.2, -1., 2.], [0., 0., 0.],
                                                      [0.5, 3., 0.5], [0.85, -2.5, 0.4]]))
     # Only center is used now
     expected_coordinates = SpacePoints([[0.6375, -0.125, 0.725]])
     assert expected_coordinates == docking_model.reference_points
Exemplo n.º 14
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    def _get_docking_model(self, molecule, restraints):
        """Builds a suitable docking model for this scoring function"""
        list_of_coordinates = []
        not_considered_atoms = ['O', 'C', 'N', 'H']
        residues_to_remove = []
        residues = [
            residue for chain in molecule.chains for residue in chain.residues
        ]
        parsed_restraints = {}
        for structure in range(molecule.num_structures):
            coordinates = []
            for res_index, residue in enumerate(residues):
                c_x = 0.0
                c_y = 0.0
                c_z = 0.0
                count = 0
                chain_id = ''
                for atom in residue.atoms:
                    if atom.name not in not_considered_atoms:
                        c_x += molecule.atom_coordinates[structure][
                            atom.index][0]
                        c_y += molecule.atom_coordinates[structure][
                            atom.index][1]
                        c_z += molecule.atom_coordinates[structure][
                            atom.index][2]
                        count += 1
                        chain_id = atom.chain_id
                if count:
                    count = float(count)
                    coordinates.append([c_x / count, c_y / count, c_z / count])
                    res_id = "%s.%s.%s" % (chain_id, residue.name,
                                           str(residue.number))
                    if restraints and res_id in restraints:
                        parsed_restraints[res_id] = []
                else:
                    residues_to_remove.append(res_index)

            if len(residues_to_remove):
                residues = [
                    residue for res_index, residue in enumerate(residues)
                    if res_index not in residues_to_remove
                ]

            list_of_coordinates.append(SpacePoints(coordinates))

        return DockingModel(residues, list_of_coordinates, parsed_restraints)