import time import multiprocessing from multiprocessing import Pool import torch import numpy as np from moleculekit.molecule import Molecule from moleculekit.tools.voxeldescriptors import getVoxelDescriptors from moleculekit.tools.atomtyper import prepareProteinForAtomtyping from moleculekit.tools.preparation import systemPrepare class AtomtypingError(Exception): pass class StructureCleaningError(Exception): pass class ProteinPrepareError(Exception): pass class VoxelizationError(Exception): pass metal_atypes = ( "MG", "ZN", "MN", "CA", "FE", "HG", "CD", "NI", "CO", "CU", "K", "LI", "Mg", "Zn", "Mn", "Ca", "Fe", "Hg", "Cd", "Ni", "Co", "Cu", "Li", ) def voxelize_single_notcentered(env): """voxelize 1 structure, executed on a single CPU Using 7 of the 8 channels supplied by moleculekit(excluding metals) Additionally it uses all the metalbinding residues as channel Parameters ---------- env : tuple Tuple of the form (prot, idx) Returns ------- voxels : torch.tensor Voxelized structure with 8 channels (8,20,20,20) prot_centers : list List of the centers of the voxels (20x20x20,3) prot_n : list List of the number of voxels in each voxel (20x20x20) prot : moleculekit.Molecule Moleculekit molecule """ prot, id = env c = prot.get("coords", sel=f"index {id} and name CA") size = [16, 16, 16] # size of box voxels = torch.zeros(8, 32, 32, 32) try: hydrophobic = prot.atomselect("element C") hydrophobic = hydrophobic.reshape(hydrophobic.shape[0], 1) aromatic = prot.atomselect( "resname HIS HIE HIP HID TRP TYR PHE and sidechain and not name CB and not hydrogen" ) aromatic = aromatic.reshape(aromatic.shape[0], 1) metalcoordination = prot.atomselect( "(name ND1 NE2 SG OE1 OE2 OD2) or (protein and name O N)" ) metalcoordination = metalcoordination.reshape(metalcoordination.shape[0], 1) hbondacceptor = prot.atomselect( "(resname ASP GLU HIS HIE HIP HID SER THR MSE CYS MET and name ND2 NE2 OE1 OE2 OD1 OD2 OG OG1 SE SG) or name O" ) hbondacceptor = hbondacceptor.reshape(metalcoordination.shape[0], 1) hbonddonor = prot.atomselect( "(resname ASN GLN ASH GLH TRP MSE SER THR MET CYS and name ND2 NE2 NE1 SG SE OG OG1) or name N" ) hbonddonor = hbonddonor.reshape(metalcoordination.shape[0], 1) positive = prot.atomselect( "resname LYS ARG HIS HIE HIP HID and name NZ NH1 NH2 ND1 NE2 NE" ) positive = positive.reshape(positive.shape[0], 1) negative = prot.atomselect("(resname ASP GLU ASH GLH and name OD1 OD2 OE1 OE2)") negative = negative.reshape(negative.shape[0], 1) occupancy = prot.atomselect("protein and not hydrogen") occupancy = occupancy.reshape(occupancy.shape[0], 1) userchannels = np.hstack( [ hydrophobic, aromatic, metalcoordination, hbondacceptor, hbonddonor, positive, negative, occupancy, ] ) prot_vox, prot_centers, prot_N = getVoxelDescriptors( prot, center=c, userchannels=userchannels, boxsize=size, voxelsize=0.5, validitychecks=False, ) except Exception as e: print(e) print(id) raise VoxelizationError(f"voxelization of {id} failed") nchannels = prot_vox.shape[1] prot_vox_t = ( prot_vox.transpose() .reshape([1, nchannels, prot_N[0], prot_N[1], prot_N[2]]) .copy() ) voxels = torch.from_numpy(prot_vox_t) return (voxels, prot_centers, prot_N, prot.copy()) def processStructures(pdb_file, resids, clean=True): """Process a pdb file and return a list of voxelized boxes centered on the residues Parameters ---------- pdb_file : str Path to pdb file resids : list List of resids to center the voxels on clean : bool If True, remove all non-protein residues from the pdb file Returns ------- voxels : torch.Tensor Voxelized boxes with 8 channels (N, 8,32,32,32) prot_centers_list : list List of the centers of the voxels (N*32**32*32,3) prot_n_list : list List of the number of voxels in each box (N,3) envs: list List of tuples (prot, idx) (N) """ start_time_processing = time.time() # load molecule using MoleculeKit try: prot = Molecule(pdb_file) except: raise IOError("could not read pdbfile") if clean: prot.filter("protein and not hydrogen") environments = [] for idx in resids: try: environments.append((prot.copy(), idx)) except: print("ignoring " + idx) prot_centers_list = [] prot_n_list = [] envs = [] results = [voxelize_single_notcentered(x) for x in environments] device = "cuda" if torch.cuda.is_available() else "cpu" voxels = torch.empty(len(results), 8, 32, 32, 32, device=device) vox_env, prot_centers_list, prot_n_list, envs = zip(*results) for i, vox_env in enumerate(vox_env): voxels[i] = vox_env print(f"Voxelization took {time.time() - start_time_processing:.3f} seconds ") return voxels, prot_centers_list, prot_n_list, envs