Exemplo n.º 1
0
    def _get_inputs(self, rxn_list, pickaxe):
        """rxn_list will be pickaxe eventually"""
        # Get reactions information
        def get_cpd_smiles(cpd_id):
            return pickaxe.compounds[cpd_id]["SMILES"]

        reactions_info = {}
        for rxn_id in rxn_list:
            rxn = pickaxe.reactions[rxn_id]
            reactants = [
                get_cpd_smiles(v[1]) for v in rxn["Reactants"] if v[1].startswith("C")
            ]
            products = [
                get_cpd_smiles(v[1]) for v in rxn["Products"] if v[1].startswith("C")
            ]

            pairs = product(reactants, products)
            reactions_info[rxn["_id"]] = list(pairs)

        # Process this information
        input_info = {}
        input_fails = {}
        for rxn_id, reaction_pairs in reactions_info.items():
            if not reaction_pairs:
                continue

            for i, (reactant_smiles, product_smiles) in enumerate(reaction_pairs):
                if len(reactant_smiles) <= 120:
                    if len(product_smiles) <= 120:
                        mol1 = MolFromSmiles(reactant_smiles)
                        mol2 = MolFromSmiles(product_smiles)
                        mol1 = RemoveHs(mol1)
                        mol2 = RemoveHs(mol2)
                        reactant_smiles = MolToSmiles(mol1)
                        product_smiles = MolToSmiles(mol2)

                        # TODO what does this fix? from original code
                        if "M" in reactant_smiles or "M" in product_smiles:
                            input_fails[rxn_id + "_" + str(i)] = None
                        else:
                            input_info[rxn_id + "_" + str(i)] = [
                                reactant_smiles,
                                product_smiles,
                            ]
                    else:
                        input_fails[rxn_id + "_" + str(i)] = None
                else:
                    input_fails[rxn_id + "_" + str(i)] = None

        return input_info, input_fails
Exemplo n.º 2
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    def graph2(self, m):
        from rdkit.Chem import EditableMol, RemoveHs, Atom, rdchem  #, SanitizeMol, rdmolops
        #natoms = m.GetNumAtoms()
        # create new molecule using single bonds only
        em = EditableMol(Mol())
        hcount = 0
        for atom in m.GetAtoms():
            atnum = atom.GetAtomicNum()
            hcount += atom.GetTotalNumHs(False)
            newatom = Atom(atnum)
            #newatom.SetFormalCharge(atom.GetFormalCharge())
            em.AddAtom(newatom)
        for bond in m.GetBonds():
            em.AddBond(bond.GetBeginAtomIdx(), bond.GetEndAtomIdx(),
                       rdchem.BondType.SINGLE)
        try:
            mol = RemoveHs(em.GetMol())
        except:
            mol = em.GetMol()
        #mol = em.GetMol()
        #SanitizeMol(mol, SanitizeFlags.SANITIZE_ADJUSTHS)
        #Chem.rdmolops.SanitizeFlags.SANITIZE_ADJUSTHS

        cansmi = self.cansmiles(mol)
        return "%s%s%d%+d" % (cansmi, ' H', hcount, GetFormalCharge(m))
Exemplo n.º 3
0
    def remove_hs(self,
                  inplace=False,
                  sanitize=True,
                  update_explicit=False,
                  implicit_only=False):
        """ Remove hydrogens from self.

        Args:
            inplace (bool):
                Whether to add Hs to `Mol`, or return a new `Mol`.
            sanitize (bool):
                Whether to sanitize after Hs are removed.
            update_explicit (bool):
                Whether to update explicit count after the removal.
            implicit_only (bool):
                Whether to remove explict and implicit Hs, or Hs only.
        Returns:
            skchem.Mol:
                `Mol` with Hs removed.
        """
        if inplace:
            msg = 'Inplace removed of Hs is not yet supported.'
            raise NotImplementedError(msg)
        raw = RemoveHs(self,
                       implicitOnly=implicit_only,
                       updateExplicitCount=update_explicit,
                       sanitize=sanitize)
        return self.__class__.from_super(raw)
Exemplo n.º 4
0
    def get_orientation(self, xyz, rtol=0.15):
        """
        get orientation, needs to check the tolerance
        """
        from rdkit.Geometry import Point3D
        from rdkit.Chem import rdMolAlign, RemoveHs, rdmolfiles, rdMolTransforms
        mol = self.rdkit_mol(self.smile)
        
        conf0 = mol.GetConformer(0)
        conf1 = mol.GetConformer(1)
        conf2 = mol.GetConformer(2)
        angs = self.get_torsion_angles(xyz)
        xyz0 = self.set_torsion_angles(conf0, angs) #conf0 with aligned
        xyz1 = self.set_torsion_angles(conf0, angs, True) #conf0 with aligned

        for i in range(len(self.mol)):
            x0,y0,z0 = xyz0[i]
            x1,y1,z1 = xyz1[i]
            x,y,z = xyz[i]
            conf0.SetAtomPosition(i,Point3D(x0,y0,z0))
            conf1.SetAtomPosition(i,Point3D(x,y,z))
            conf2.SetAtomPosition(i,Point3D(x1,y1,z1))

        mol = RemoveHs(mol)
        rmsd1, trans1 = rdMolAlign.GetAlignmentTransform(mol, mol, 1, 0)
        rmsd2, trans2 = rdMolAlign.GetAlignmentTransform(mol, mol, 1, 2)
        tol = rtol*mol.GetNumAtoms()

        #print(rmsd1, rmsd2)
        if rmsd1 < tol:
            trans = trans1[:3,:3].T
            r = Rotation.from_matrix(trans)
            return r.as_euler('zxy', degrees=True), rmsd1, False
        elif rmsd2 < tol:
            trans = trans2[:3,:3].T
            r = Rotation.from_matrix(trans)
            return r.as_euler('zxy', degrees=True), rmsd2, True
        else:
            print(rmsd1, rmsd2)
            #rdmolfiles.MolToXYZFile(mol, '1.xyz', 0)
            #rdmolfiles.MolToXYZFile(mol, '2.xyz', 1)
            #rdmolfiles.MolToXYZFile(mol, '3.xyz', 2)
            print(self.get_torsion_angles(xyz))   
            print(self.get_torsion_angles(xyz0))   
            print(self.get_torsion_angles(xyz1))   
            raise ValueError("Problem in conformer")
Exemplo n.º 5
0
 def remove_hydrogen(cls, mol_in, addCoords=True):
     """Implicit all hydrogens.
     
     :param    mol_in: RDKit Mol
     :param addCoords: Add coordinate to added Hs, bool
     :return  mol_out: RDKit Mol
     """
     return RemoveHs(mol_in, explicitOnly=False, addCoords=addCoords)
Exemplo n.º 6
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def generate_png(mol, pngpath, logfile=devnull, size=300):
    with stdout_redirected(to=sys.stdout, stdout=sys.stderr):
        with stdout_redirected(to=logfile, stdout=sys.stdout):
            nhmol = RemoveHs(mol,
                             implicitOnly=False,
                             updateExplicitCount=True,
                             sanitize=False)
            SanitizeMol(nhmol, catchErrors=True)
            op = DrawingOptions()
            op.atomLabelFontSize = size / 25
            MolToFile(PrepareMolForDrawing(nhmol,forceCoords=True,addChiralHs=True),\
                pngpath,fitImage=True,size=(size, size),options=op)
Exemplo n.º 7
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    def __init__(self, **kwargs) -> None:
        super().__init__(**kwargs)

        # If supplied, convert self.molecule into a SMILES string
        if self.molecule and RDKIT_EX is not None:
            err = f"Molecule to SMILES conversion requires the 'rdkit' package: {RDKIT_EX}"
            raise JobError(err).with_traceback(RDKIT_EX.__traceback__)

        elif self.molecule:
            mol_list = [self.molecule] if isinstance(self.molecule, Molecule) else self.molecule
            k1 = self.settings.input.find_case('smiles')
            k2 = self.settings.input.find_case('-smiles')
            smiles = k1 if k2 not in self.settings.input else k2
            self.settings.input[smiles] = [MolToSmiles(RemoveHs(mol)) for mol in mol_list]
Exemplo n.º 8
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def processline(t, step, line):
    global lensum
    if t.incr():
        return 1
    if step == 0:
        lensum += len(line)
    else:
        m = MolFromSmiles(line)
        if step == 100:
            lensum += len(line)
        elif step == 105:
            lensum += len(sha256(line).hexdigest())
        elif step in (110, 120):
            with open(tmpname, 'wb+') as f:
                print(line, file=f)
                if step == 120:
                    os.fsync(f.fileno())
            lensum += os.stat(tmpname).st_size
        elif step == 210:
            lensum += m.GetNumAtoms()
        elif step == 220:
            lensum += m.GetNumBonds()
        elif step == 300:
            lensum += len(MolToSmiles(m))
        elif step == 400:
            lensum += len(MolToMolBlock(m))
        elif step == 420:
            m2 = AddHs(m)
            EmbedMolecule(m2, randomSeed=2020)
            m2 = RemoveHs(m2)
            m2.SetProp("_Name", "test")
            lensum += len(MolToMolBlock(m2))
        elif step == 600:
            lensum += mol2file(m, 'svg')
        elif step == 610:
            lensum += mol2file(m, 'png')
        else:
            raise ValueError("Not implemented step " + str(step))

    return 0
Exemplo n.º 9
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def genericise_scaffold(mol):
    """Make a scaffold generic.

    Parameters
    ----------
    mol : rdkit.Chem.rdchem.Mol
        Molecule to make generic.

    Returns
    -------
    rdkit.Chem.rdchem.Mol
        Genericised scaffold.

    Notes
    -----
    Copy pasta'd from rdkit Murcko Scaffold module.
    Adds a degree check to make sure output will
    not fail sanitization when an atom has a degree
    > 4. Achieved by using a dummy atom to replace
    such atoms.

    """
    out = Mol(mol)
    for atom in out.GetAtoms():
        if atom.GetAtomicNum() != 1:
            if atom.GetDegree() <= 4:
                atom.SetAtomicNum(6)
            else:
                atom.SetAtomicNum(0)
        atom.SetIsAromatic(False)
        atom.SetFormalCharge(0)
        atom.SetChiralTag(CHI_UNSPECIFIED)
        atom.SetNoImplicit(0)
        atom.SetNumExplicitHs(0)
    for bond in out.GetBonds():
        bond.SetBondType(BondType.SINGLE)
        bond.SetIsAromatic(False)
    return RemoveHs(out)
Exemplo n.º 10
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    def rmhs(self, mol):
        from rdkit.Chem import RemoveHs

        return RemoveHs(mol)
Exemplo n.º 11
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def _removeHs(mol, implicitOnly=False):
    return RemoveHs(mol, implicitOnly=implicitOnly)
Exemplo n.º 12
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def get_mcs(m1, m2, f):
    return rdFMCS.FindMCS([RemoveHs(f(m1)), RemoveHs(f(m2))], 
                          bondCompare=rdFMCS.BondCompare.CompareOrderExact, 
                          ringMatchesRingOnly=True)
#! /usr/bin/env python

import sys
from rdkit.Chem import SDMolSupplier, MolToPDBFile, AllChem, AddHs, RemoveHs
from rdkit.Chem.Draw import MolsToGridImage

spl = SDMolSupplier(sys.argv[1])
mols = [m for m in spl]

for i, m in enumerate(mols):
    m = AddHs(m)
    AllChem.EmbedMolecule(m, useBasicKnowledge=True, maxAttempts=100)
    AllChem.MMFFOptimizeMolecule(m)
    RemoveHs(m)
    MolToPDBFile(m, 'ligand_%d.pdb' % i)

img = MolsToGridImage(mols,
                      legends=["ligand_%d" % i for i in range(len(mols))])
img.save('ligands.png')
Exemplo n.º 14
0
    def depict(
        self,
        ids=None,
        sketch=True,
        filename=None,
        ipython=False,
        optimize=False,
        optimizemode="std",
        removeHs=True,
        legends=None,
        highlightAtoms=None,
        mols_perrow=3,
    ):
        """
        Depicts the molecules into a grid. It is possible to save it into an svg file and also generates a
        jupiter-notebook rendering

        Parameters
        ----------
        ids: list
            The index of the molecules to depict
        sketch: bool
            Set to True for 2D depiction
        filename: str
            Set the filename for the svg file
        ipython: bool
            Set to True to return the jupiter-notebook rendering
        optimize: bool
            Set to True to optimize the conformation. Works only with 3D.
        optimizemode: ['std', 'mmff']
            Set the optimization mode for 3D conformation
        removeHs: bool
            Set to True to hide hydrogens in the depiction
        legends: str
            The name to used for each molecule. Can be 'names':the name of themselves; or 'items': a incremental id
        highlightAtoms: list
            A List of atom to highligh for each molecule. It can be also a list of atom list, in this case different
            colors will be used
        mols_perrow: int
            The number of molecules to depict per row of the grid

        Returns
        -------
            ipython_svg: SVG object if ipython is set to True

        """
        from rdkit.Chem.AllChem import (
            Compute2DCoords,
            EmbedMolecule,
            MMFFOptimizeMolecule,
            ETKDG,
        )
        from rdkit.Chem import RemoveHs
        from moleculekit.smallmol.util import depictMultipleMols

        if sketch and optimize:
            raise ValueError(
                "Impossible to use optmization in  2D sketch representation")

        if legends is not None and legends not in ["names", "items"]:
            raise ValueError('The "legends" should be "names" or "items"')

        _smallmols = self.getMols(ids)

        if ids is None:
            _mols = [m._mol for m in self._mols]
        else:
            _mols = [m._mol for m in self.getMols(ids)]

        if highlightAtoms is not None:
            if len(highlightAtoms) != len(_mols):
                raise ValueError(
                    "The highlightAtoms {} should have the same length of the "
                    "mols {}".format(len(highlightAtoms), len(_mols)))

        if sketch:
            for _m in _mols:
                Compute2DCoords(_m)

        if removeHs:
            _mols = [RemoveHs(_m) for _m in _mols]

        # activate 3D coords optimization
        if optimize:
            if optimizemode == "std":
                for _m in _mols:
                    EmbedMolecule(_m)
            elif optimizemode == "mmff":
                for _m in _mols:
                    MMFFOptimizeMolecule(_m, ETKDG())

        legends_list = []
        if legends == "names":
            legends_list = [_m.getProp("ligname") for _m in _smallmols]
        elif legends == "items":
            legends_list = [str(n + 1) for n in range(len(_smallmols))]

        return depictMultipleMols(
            _mols,
            ipython=ipython,
            legends=legends_list,
            highlightAtoms=highlightAtoms,
            filename=filename,
            mols_perrow=mols_perrow,
        )
Exemplo n.º 15
0
 def unprotonated_molecule(self) -> Mol:
     """Return molecule with all hydrogens removed
     """
     return RemoveHs(self.molecule)