Mass spectrometry analysis. Process mzML/MGF/MSP, spectral similarity (cosine, modified cosine), metadata harmonization, compound ID, for metabolomics and MS data processing.
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Matchms is an open-source Python library for mass spectrometry data processing and analysis. Import spectra from various formats, standardize metadata, filter peaks, calculate spectral similarities, and build reproducible analytical workflows.
Load spectra from multiple file formats and export processed data:
from matchms.importing import load_from_mgf, load_from_mzml, load_from_msp, load_from_json from matchms.exporting import save_as_mgf, save_as_msp, save_as_json # Import spectra spectra = list(load_from_mgf("spectra.mgf")) spectra = list(load_from_mzml("data.mzML")) spectra = list(load_from_msp("library.msp")) # Export processed spectra save_as_mgf(spectra, "output.mgf") save_as_json(spectra, "output.json")
Supported formats:
For detailed importing/exporting documentation, consult
references/importing_exporting.mdApply comprehensive filters to standardize metadata and refine peak data:
from matchms.filtering import default_filters, normalize_intensities from matchms.filtering import select_by_relative_intensity, require_minimum_number_of_peaks # Apply default metadata harmonization filters spectrum = default_filters(spectrum) # Normalize peak intensities spectrum = normalize_intensities(spectrum) # Filter peaks by relative intensity spectrum = select_by_relative_intensity(spectrum, intensity_from=0.01, intensity_to=1.0) # Require minimum peaks spectrum = require_minimum_number_of_peaks(spectrum, n_required=5)
Filter categories:
Matchms provides 40+ filters. For the complete filter reference, consult
references/filtering.mdCompare spectra using various similarity metrics:
from matchms import calculate_scores from matchms.similarity import CosineGreedy, ModifiedCosine, CosineHungarian # Calculate cosine similarity (fast, greedy algorithm) scores = calculate_scores(references=library_spectra, queries=query_spectra, similarity_function=CosineGreedy()) # Calculate modified cosine (accounts for precursor m/z differences) scores = calculate_scores(references=library_spectra, queries=query_spectra, similarity_function=ModifiedCosine(tolerance=0.1)) # Get best matches best_matches = scores.scores_by_query(query_spectra[0], sort=True)[:10]
Available similarity functions:
For detailed similarity function documentation, consult
references/similarity.mdCreate reproducible, multi-step analysis workflows:
from matchms import SpectrumProcessor from matchms.filtering import default_filters, normalize_intensities from matchms.filtering import select_by_relative_intensity, remove_peaks_around_precursor_mz # Define a processing pipeline processor = SpectrumProcessor([ default_filters, normalize_intensities, lambda s: select_by_relative_intensity(s, intensity_from=0.01), lambda s: remove_peaks_around_precursor_mz(s, mz_tolerance=17) ]) # Apply to all spectra processed_spectra = [processor(s) for s in spectra]
The core
Spectrumfrom matchms import Spectrum import numpy as np # Create a spectrum mz = np.array([100.0, 150.0, 200.0, 250.0]) intensities = np.array([0.1, 0.5, 0.9, 0.3]) metadata = {"precursor_mz": 250.5, "ionmode": "positive"} spectrum = Spectrum(mz=mz, intensities=intensities, metadata=metadata) # Access spectrum properties print(spectrum.peaks.mz) # m/z values print(spectrum.peaks.intensities) # Intensity values print(spectrum.get("precursor_mz")) # Metadata field # Visualize spectra spectrum.plot() spectrum.plot_against(reference_spectrum)
Standardize and harmonize spectrum metadata:
# Metadata is automatically harmonized spectrum.set("Precursor_mz", 250.5) # Gets harmonized to lowercase key print(spectrum.get("precursor_mz")) # Returns 250.5 # Derive chemical information from matchms.filtering import derive_inchi_from_smiles, derive_inchikey_from_inchi from matchms.filtering import add_fingerprint spectrum = derive_inchi_from_smiles(spectrum) spectrum = derive_inchikey_from_inchi(spectrum) spectrum = add_fingerprint(spectrum, fingerprint_type="morgan", nbits=2048)
For typical mass spectrometry analysis workflows, including:
Consult
references/workflows.mduv pip install matchms
For molecular structure processing (SMILES, InChI):
uv pip install matchms[chemistry]
Detailed reference documentation is available in the
references/filtering.mdsimilarity.mdimporting_exporting.mdworkflows.mdLoad these references as needed for detailed information about specific matchms capabilities.