Пример #1
0
    def test_ring_center_and_normal(self):
        mol = parse_smiles("c1ccccc1")
        R = 1.5
        for i in range(6):
            atom = mol.GetAtom(i+1)
            atom.SetVector(R*math.cos(2*math.pi*i/6),
                           R*math.sin(2*math.pi*i/6),
                           0.0)
        for ring in ob.OBMolRingIter(mol):
            break

        center = ob.vector3()
        norm1 = ob.vector3()
        norm2 = ob.vector3()
        ring.findCenterAndNormal(center, norm1, norm2)
        self.assertZero(center.GetX())
        self.assertZero(center.GetY())
        self.assertZero(center.GetZ())

        self.assertZero(norm1.GetX())
        self.assertZero(norm1.GetY())
        self.assertClose(norm1.GetZ(), 1.0)

        self.assertZero(norm2.GetX())
        self.assertZero(norm2.GetY())
        self.assertClose(norm2.GetZ(), -1.0)
Пример #2
0
def _compute_cation_pi(protein, ligand, protein_cation_pi, ligand_cation_pi):
    for protein_ring in ob.OBMolRingIter(protein):
        if protein_ring.IsAromatic():
            protein_ring_center = _compute_ring_center(protein, protein_ring)
            protein_ring_normal = _compute_ring_normal(protein, protein_ring)
            for atom in ob.OBMolAtomIter(ligand):
                if np.abs(atom.GetFormalCharge() -
                          1.0) < 0.01 or '+' in atom.GetType():
                    cation_position = np.array([atom.x(), atom.y(), atom.z()])
                    if _is_cation_pi(cation_position, protein_ring_center,
                                     protein_ring_normal):
                        protein_cation_pi = _update_feature_dict(
                            protein_cation_pi, idxs=protein_ring._path)
                        ligand_cation_pi = _update_feature_dict(
                            ligand_cation_pi, indices=[atom.GetIndex()])
    return protein_cation_pi, ligand_cation_pi
Пример #3
0
def _compute_pi_stack(protein_xyz,
                      protein,
                      ligand_xyz,
                      ligand,
                      pairwise_distances=None,
                      dist_cutoff=4.4,
                      angle_cutoff=30.):
    '''
  Pseudocode: 

  for each ring in ligand:
    if it is aromatic: 
      for each ring in protein:
        if it is aromatic:
          compute distance between centers
          compute angle. 
          if it counts as parallel pi-pi: 
            for each atom in ligand and in protein, 
              add to list of atom indices 
          if it counts as pi-T:
            for each atom in ligand and in protein:
              add to list of atom indices
  '''
    protein_pi_parallel = {}
    protein_pi_t = {}
    ligand_pi_parallel = {}
    ligand_pi_t = {}

    for protein_ring in ob.OBMolRingIter(protein):
        if protein_ring.IsAromatic():
            protein_ring_center = _compute_ring_center(protein, protein_ring)
            protein_ring_normal = _compute_ring_normal(protein, protein_ring)

            ligand_pi_parallel_idxs = set()
            ligand_pi_t_idxs = set()
            for ligand_ring in ob.OBMolRingIter(ligand):
                if ligand_ring.IsAromatic():

                    ligand_ring_center = _compute_ring_center(
                        ligand, ligand_ring)
                    ligand_ring_normal = _compute_ring_normal(
                        ligand, ligand_ring)

                    if _is_pi_parallel(protein_ring_center,
                                       protein_ring_normal, ligand_ring_center,
                                       ligand_ring_normal):
                        protein_pi_parallel = _update_feature_dict(
                            protein_pi_parallel, idxs=protein_ring._path)

                        ligand_idxs_to_update = list(
                            set(ligand_ring._path) - ligand_pi_parallel_idxs)
                        ligand_pi_parallel = _update_feature_dict(
                            ligand_pi_parallel, idxs=ligand_idxs_to_update)
                        ligand_pi_parallel_idxs.update(set(ligand_ring._path))

                    if _is_pi_t(protein_ring_center, protein_ring_normal,
                                ligand_ring_center, ligand_ring_normal):
                        protein_pi_t = _update_feature_dict(
                            protein_pi_t, idxs=protein_ring._path)

                        ligand_idxs_to_update = list(
                            set(ligand_ring._path) - ligand_pi_t_idxs)
                        ligand_pi_t = _update_feature_dict(
                            ligand_pi_t, idxs=ligand_idxs_to_update)
                        ligand_pi_t_idxs.update(set(ligand_ring._path))

    return (protein_pi_t, protein_pi_parallel, ligand_pi_t, ligand_pi_parallel)