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Private information leakage from single-cell count matrices.

Conor R Walker1, Xiaoting Li1, Manav Chakravarthy2

  • 1Department of Biomedical Informatics, Columbia University, New York, NY 10032, USA; New York Genome Center, New York, NY 10013, USA.

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|October 3, 2024
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Summary
This summary is machine-generated.

Human single-cell gene expression data is vulnerable to privacy attacks. Researchers can link datasets to infer sensitive individual information, even across studies, highlighting significant data security risks.

Keywords:
genome privacylinking attacksingle-cell gene expression

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Area of Science:

  • Genomics
  • Bioinformatics
  • Data Privacy

Background:

  • Growing availability of large-scale human single-cell datasets enhances biological understanding.
  • Data accessibility raises significant privacy concerns for individuals.
  • Previous privacy studies focused on bulk gene expression data due to noise in single-cell data.

Purpose of the Study:

  • To demonstrate privacy vulnerabilities in single-cell gene expression datasets.
  • To develop methods for genotype prediction and linking genotype to phenotype.
  • To assess the risk of linking attacks using external genetic information.

Main Methods:

  • Linking attacks using publicly available expression quantitative trait loci (eQTLs) data.
  • Development of a genotype prediction method.
  • Genotype-phenotype linking without relying on eQTLs.
  • Cross-study analysis of variant exploitation.

Main Results:

  • Individuals in single-cell datasets are vulnerable to linking attacks.
  • Sensitive phenotypic information can be inferred using eQTLs.
  • A novel method enables genotype prediction and phenotype linking without eQTLs.
  • Genetic variants from one study can compromise privacy in another.

Conclusions:

  • Single-cell gene expression data poses significant privacy risks.
  • Linking attacks can exploit publicly available genetic information.
  • New methods are needed to protect individual privacy in large-scale genomic datasets.