Ming-Sin Cheung scite author profile

Genomic sequences obtained through high-throughput sequencing are not uniformly distributed across the genome. For example, sequencing data of total genomic DNA show significant, yet unexpected enrichments on promoters and exons. This systematic bias is a particular problem for techniques such as chromatin immunoprecipitation, where the signal for a target factor is plotted across genomic features. We have focused on data obtained from Illumina’s Genome Analyser platform, where at least three factors contribute to sequence bias: GC content, mappability of sequencing reads, and regional biases that might be generated by local structure. We show that relying on input control as a normalizer is not generally appropriate due to sample to sample variation in bias. To correct sequence bias, we present BEADS (bias elimination algorithm for deep sequencing), a simple three-step normalization scheme that successfully unmasks real binding patterns in ChIP-seq data. We suggest that this procedure be done routinely prior to data interpretation and downstream analyses.

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An assessment of histone-modification antibody quality

Egelhofer¹,

Minoda²,

Klugman³

et al. 2011

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Ming-Sin Cheung

DANGLE: A Bayesian inferential method for predicting protein backbone dihedral angles and secondary structure

Systematic bias in high-throughput sequencing data and its correction by BEADS

An assessment of histone-modification antibody quality

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