Max Van Houcke scite author profile

Max Van Houcke

2Publications

50Citation Statements Received

32Citation Statements Given

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University of Antwerp

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ClusTCR: a python interface for rapid clustering of large sets of CDR3 sequences with unknown antigen specificity

Valkiers

Houcke

Laukens

et al. 2021

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Motivation The T-cell receptor (TCR) determines the specificity of a T-cell towards an epitope. As of yet, the rules for antigen recognition remain largely undetermined. Current methods for grouping TCRs according to their epitope specificity remain limited in performance and scalability. Multiple methodologies have been developed, but all of them fail to efficiently cluster large data sets exceeding 1 million sequences. To account for this limitation, we developed ClusTCR, a rapid TCR clustering alternative that efficiently scales up to millions of CDR3 amino acid sequences, without knowledge about their antigen specificity. Results Benchmarking comparisons revealed similar accuracy of ClusTCR as compared to other TCR clustering methods, as measured by cluster retention, purity and consistency. ClusTCR offers a drastic improvement in clustering speed, which allows clustering of millions of TCR sequences in just a few minutes through ultra-efficient similarity searching and sequence hashing. Availability ClusTCR was written in Python 3. It is available as an anaconda package (https://anaconda.org/svalkiers/clustcr) and on github (https://github.com/svalkiers/clusTCR). Supplementary information Supplementary data are available at Bioinformatics online.

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clusTCR: a Python interface for rapid clustering of large sets of CDR3 sequences

Valkiers

Houcke

Laukens

et al. 2021

Preprint

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The T-cell receptor (TCR) determines the specificity of a T-cell towards an epitope. As of yet, the rules for antigen recognition remain largely undetermined. Current methods for grouping TCRs according to their epitope specificity remain limited in performance and scalability. Multiple methodologies have been developed, but all of them fail to efficiently cluster large data sets exceeding 1 million sequences. To account for this limitation, we developed clusTCR, a rapid TCR clustering alternative that efficiently scales up to millions of CDR3 amino acid sequences. Benchmarking comparisons revealed similar accuracy of clusTCR with other TCR clustering methods. clusTCR offers a drastic improvement in clustering speed, which allows clustering of millions of TCR sequences in just a few minutes through efficient similarity searching and sequence hashing.clusTCR was written in Python 3. It is available as an anaconda package (https://anaconda.org/svalkiers/clustcr) and on github (https://github.com/svalkiers/clusTCR).

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Max Van Houcke

ClusTCR: a python interface for rapid clustering of large sets of CDR3 sequences with unknown antigen specificity

clusTCR: a Python interface for rapid clustering of large sets of CDR3 sequences

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