| import ampal |
| import gzip |
| from pathlib import Path |
| import string |
| import urllib |
|
|
| def gly_resid(pdb: Path, chain:chr): |
| """Rewrite PDB,change all amino acids to Glycine. |
| Parameters |
| ---------- |
| pdb: Path |
| Location of pdb file |
| chain: chr |
| Chain identifier, only this chain will be changed to polyG.""" |
| |
| with open(pdb,'r') as file: |
| text=file.readlines() |
| for i,line in enumerate(text): |
| if line[21]==chain: |
| text[i]='ATOM '+text[i][6:17]+'GLY'+text[i][20:] |
| with open(pdb,'w') as file: |
| file.writelines(text) |
|
|
| def fetch_pdb( |
| pdb_code: str, |
| output_folder:Path, |
| pdb_request_url: str = "https://files.rcsb.org/download/" , |
| is_pdb:bool=False, |
| ) -> None: |
| """ |
| Downloads a specific pdb file into a specific folder. |
| Parameters |
| ---------- |
| pdb_code : str |
| Code of the PDB file to be downloaded. |
| output_folder : Path |
| Output path to save the PDB file. |
| pdb_request_url : str |
| Base URL to download the PDB files. |
| is_pdb:bool=False |
| If True, get .pdb, else get biological assembly. |
| """ |
| if is_pdb: |
| pdb_code_with_extension = f"{pdb_code[:4]}.pdb.gz" |
| else: |
| pdb_code_with_extension = f"{pdb_code[:4]}.pdb1.gz" |
| print(f'{pdb_code_with_extension} is missing and will be downloaded!') |
| urllib.request.urlretrieve(pdb_request_url + pdb_code_with_extension,filename=output_folder / pdb_code_with_extension) |
| |
| def polyglycine(dataset:Path,path_to_assemblies:Path,working_dir:Path,is_pdb:bool=False): |
| """Converts protein chains into polyglycine chains. |
| Parameters |
| ----------- |
| dataset:Path |
| Path to the dataset list containing PDB+chain info (e.g. 1a2bA) |
| path_to_assemblies:Path |
| Path to the directory with protein structure files; missing files will be downloaded automatically. |
| working_dir:Path |
| Path to the directory where polyglycine structures will be saved. |
| is_pdb:bool |
| If True, expects and downloads PDBs. If False, expects/downloads biological assembly.""" |
| |
| with open(dataset,'r') as file: |
| structures = [x.strip("\n") for x in file.readlines()] |
| if is_pdb: |
| suffix='.pdb.gz' |
| else: |
| suffix='.pdb1.gz' |
| for protein in structures: |
| if not Path(path_to_assemblies / (protein[:4]+suffix)).exists(): |
| fetch_pdb(protein,path_to_assemblies,is_pdb=is_pdb) |
| |
| with gzip.open(path_to_assemblies / (protein[:4]+suffix)) as file: |
| assembly = ampal.load_pdb(file.read().decode(), path=False) |
| protein_chain=protein[-1] |
| if not is_pdb: |
| flag=0 |
| |
| empty_polymer = ampal.Assembly() |
| chain_id = [] |
| for polymer in assembly: |
| for chain in polymer: |
| |
| |
| if chain.id==protein_chain and flag==0: |
| empty_polymer.append(chain.backbone) |
| flag=1 |
| else: |
| empty_polymer.append(chain) |
| chain_id.append(chain.id) |
| |
| |
| str_list = string.ascii_uppercase.replace(protein_chain, "") |
| |
| if len(empty_polymer)>=len(str_list): |
| str_list=str_list*10 |
| index = chain_id.index(protein_chain) |
| chain_id = list(str_list[: len(chain_id)]) |
| chain_id[index] = protein_chain |
| empty_polymer.relabel_polymers(chain_id) |
| |
| else: |
| empty_polymer = ampal.Assembly() |
| |
| if isinstance(assembly, ampal.assembly.AmpalContainer): |
| assembly=assembly[0] |
| for chain in assembly: |
| if chain.id==protein_chain: |
| empty_polymer.append(chain.backbone) |
| else: |
| empty_polymer.append(chain) |
| |
| pdb_text = empty_polymer.make_pdb(alt_states=False, ligands=False) |
| with open((working_dir / protein[:4]).with_suffix(".pdb"), "w") as pdb_file: |
| pdb_file.write(pdb_text) |
| |
| gly_resid((working_dir / protein[:4]).with_suffix(".pdb"),protein_chain) |
| |
| |
| if __name__=='__main__': |
| |
| polyglycine(Path("/home/s1706179/Rosetta/data/set.txt"), Path("/home/s1706179/Rosetta/assemblies/"),Path("/home/s1706179/Rosetta/empty_backbones/"),False) |
| |
| |
