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ProteinMPNN / af_backprop /alphafold /data /pipeline.py

Simon Duerr

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	# Copyright 2021 DeepMind Technologies Limited
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""Functions for building the input features for the AlphaFold model."""

	import os
	from typing import Mapping, Optional, Sequence
	from absl import logging
	from alphafold.common import residue_constants
	from alphafold.data import parsers
	from alphafold.data import templates
	from alphafold.data.tools import hhblits
	from alphafold.data.tools import hhsearch
	from alphafold.data.tools import jackhmmer
	import numpy as np

	# Internal import (7716).

	FeatureDict = Mapping[str, np.ndarray]


	def make_sequence_features(
	sequence: str, description: str, num_res: int) -> FeatureDict:
	"""Constructs a feature dict of sequence features."""
	features = {}
	features['aatype'] = residue_constants.sequence_to_onehot(
	sequence=sequence,
	mapping=residue_constants.restype_order_with_x,
	map_unknown_to_x=True)
	features['between_segment_residues'] = np.zeros((num_res,), dtype=np.int32)
	features['domain_name'] = np.array([description.encode('utf-8')],
	dtype=np.object_)
	features['residue_index'] = np.array(range(num_res), dtype=np.int32)
	features['seq_length'] = np.array([num_res] * num_res, dtype=np.int32)
	features['sequence'] = np.array([sequence.encode('utf-8')], dtype=np.object_)
	return features


	def make_msa_features(
	msas: Sequence[Sequence[str]],
	deletion_matrices: Sequence[parsers.DeletionMatrix]) -> FeatureDict:
	"""Constructs a feature dict of MSA features."""
	if not msas:
	raise ValueError('At least one MSA must be provided.')

	int_msa = []
	deletion_matrix = []
	seen_sequences = set()
	for msa_index, msa in enumerate(msas):
	if not msa:
	raise ValueError(f'MSA {msa_index} must contain at least one sequence.')
	for sequence_index, sequence in enumerate(msa):
	if sequence in seen_sequences:
	continue
	seen_sequences.add(sequence)
	int_msa.append(
	[residue_constants.HHBLITS_AA_TO_ID[res] for res in sequence])
	deletion_matrix.append(deletion_matrices[msa_index][sequence_index])

	num_res = len(msas[0][0])
	num_alignments = len(int_msa)
	features = {}
	features['deletion_matrix_int'] = np.array(deletion_matrix, dtype=np.int32)
	features['msa'] = np.array(int_msa, dtype=np.int32)
	features['num_alignments'] = np.array(
	[num_alignments] * num_res, dtype=np.int32)
	return features


	class DataPipeline:
	"""Runs the alignment tools and assembles the input features."""

	def __init__(self,
	jackhmmer_binary_path: str,
	hhblits_binary_path: str,
	hhsearch_binary_path: str,
	uniref90_database_path: str,
	mgnify_database_path: str,
	bfd_database_path: Optional[str],
	uniclust30_database_path: Optional[str],
	small_bfd_database_path: Optional[str],
	pdb70_database_path: str,
	template_featurizer: templates.TemplateHitFeaturizer,
	use_small_bfd: bool,
	mgnify_max_hits: int = 501,
	uniref_max_hits: int = 10000):
	"""Constructs a feature dict for a given FASTA file."""
	self._use_small_bfd = use_small_bfd
	self.jackhmmer_uniref90_runner = jackhmmer.Jackhmmer(
	binary_path=jackhmmer_binary_path,
	database_path=uniref90_database_path)
	if use_small_bfd:
	self.jackhmmer_small_bfd_runner = jackhmmer.Jackhmmer(
	binary_path=jackhmmer_binary_path,
	database_path=small_bfd_database_path)
	else:
	self.hhblits_bfd_uniclust_runner = hhblits.HHBlits(
	binary_path=hhblits_binary_path,
	databases=[bfd_database_path, uniclust30_database_path])
	self.jackhmmer_mgnify_runner = jackhmmer.Jackhmmer(
	binary_path=jackhmmer_binary_path,
	database_path=mgnify_database_path)
	self.hhsearch_pdb70_runner = hhsearch.HHSearch(
	binary_path=hhsearch_binary_path,
	databases=[pdb70_database_path])
	self.template_featurizer = template_featurizer
	self.mgnify_max_hits = mgnify_max_hits
	self.uniref_max_hits = uniref_max_hits

	def process(self, input_fasta_path: str, msa_output_dir: str) -> FeatureDict:
	"""Runs alignment tools on the input sequence and creates features."""
	with open(input_fasta_path) as f:
	input_fasta_str = f.read()
	input_seqs, input_descs = parsers.parse_fasta(input_fasta_str)
	if len(input_seqs) != 1:
	raise ValueError(
	f'More than one input sequence found in {input_fasta_path}.')
	input_sequence = input_seqs[0]
	input_description = input_descs[0]
	num_res = len(input_sequence)

	jackhmmer_uniref90_result = self.jackhmmer_uniref90_runner.query(
	input_fasta_path)[0]
	jackhmmer_mgnify_result = self.jackhmmer_mgnify_runner.query(
	input_fasta_path)[0]

	uniref90_msa_as_a3m = parsers.convert_stockholm_to_a3m(
	jackhmmer_uniref90_result['sto'], max_sequences=self.uniref_max_hits)
	hhsearch_result = self.hhsearch_pdb70_runner.query(uniref90_msa_as_a3m)

	uniref90_out_path = os.path.join(msa_output_dir, 'uniref90_hits.sto')
	with open(uniref90_out_path, 'w') as f:
	f.write(jackhmmer_uniref90_result['sto'])

	mgnify_out_path = os.path.join(msa_output_dir, 'mgnify_hits.sto')
	with open(mgnify_out_path, 'w') as f:
	f.write(jackhmmer_mgnify_result['sto'])

	pdb70_out_path = os.path.join(msa_output_dir, 'pdb70_hits.hhr')
	with open(pdb70_out_path, 'w') as f:
	f.write(hhsearch_result)

	uniref90_msa, uniref90_deletion_matrix, _ = parsers.parse_stockholm(
	jackhmmer_uniref90_result['sto'])
	mgnify_msa, mgnify_deletion_matrix, _ = parsers.parse_stockholm(
	jackhmmer_mgnify_result['sto'])
	hhsearch_hits = parsers.parse_hhr(hhsearch_result)
	mgnify_msa = mgnify_msa[:self.mgnify_max_hits]
	mgnify_deletion_matrix = mgnify_deletion_matrix[:self.mgnify_max_hits]

	if self._use_small_bfd:
	jackhmmer_small_bfd_result = self.jackhmmer_small_bfd_runner.query(
	input_fasta_path)[0]

	bfd_out_path = os.path.join(msa_output_dir, 'small_bfd_hits.a3m')
	with open(bfd_out_path, 'w') as f:
	f.write(jackhmmer_small_bfd_result['sto'])

	bfd_msa, bfd_deletion_matrix, _ = parsers.parse_stockholm(
	jackhmmer_small_bfd_result['sto'])
	else:
	hhblits_bfd_uniclust_result = self.hhblits_bfd_uniclust_runner.query(
	input_fasta_path)

	bfd_out_path = os.path.join(msa_output_dir, 'bfd_uniclust_hits.a3m')
	with open(bfd_out_path, 'w') as f:
	f.write(hhblits_bfd_uniclust_result['a3m'])

	bfd_msa, bfd_deletion_matrix = parsers.parse_a3m(
	hhblits_bfd_uniclust_result['a3m'])

	templates_result = self.template_featurizer.get_templates(
	query_sequence=input_sequence,
	query_pdb_code=None,
	query_release_date=None,
	hits=hhsearch_hits)

	sequence_features = make_sequence_features(
	sequence=input_sequence,
	description=input_description,
	num_res=num_res)

	msa_features = make_msa_features(
	msas=(uniref90_msa, bfd_msa, mgnify_msa),
	deletion_matrices=(uniref90_deletion_matrix,
	bfd_deletion_matrix,
	mgnify_deletion_matrix))

	logging.info('Uniref90 MSA size: %d sequences.', len(uniref90_msa))
	logging.info('BFD MSA size: %d sequences.', len(bfd_msa))
	logging.info('MGnify MSA size: %d sequences.', len(mgnify_msa))
	logging.info('Final (deduplicated) MSA size: %d sequences.',
	msa_features['num_alignments'][0])
	logging.info('Total number of templates (NB: this can include bad '
	'templates and is later filtered to top 4): %d.',
	templates_result.features['template_domain_names'].shape[0])

	return {sequence_features, msa_features, **templates_result.features}