Literature DB >> 19265799

Universal protein-binding microarrays for the comprehensive characterization of the DNA-binding specificities of transcription factors.

Michael F Berger1, Martha L Bulyk.   

Abstract

Protein-binding microarray (PBM) technology provides a rapid, high-throughput means of characterizing the in vitro DNA-binding specificities of transcription factors (TFs). Using high-density, custom-designed microarrays containing all 10-mer sequence variants, one can obtain comprehensive binding-site measurements for any TF, regardless of its structural class or species of origin. Here, we present a protocol for the examination and analysis of TF-binding specificities at high resolution using such 'all 10-mer' universal PBMs. This procedure involves double-stranding a commercially synthesized DNA oligonucleotide array, binding a TF directly to the double-stranded DNA microarray and labeling the protein-bound microarray with a fluorophore-conjugated antibody. We describe how to computationally extract the relative binding preferences of the examined TF for all possible contiguous and gapped 8-mers over the full range of affinities, from highest affinity sites to nonspecific sites. Multiple proteins can be tested in parallel in separate chambers on a single microarray, enabling the processing of a dozen or more TFs in a single day.

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Year:  2009        PMID: 19265799      PMCID: PMC2908410          DOI: 10.1038/nprot.2008.195

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  60 in total

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5.  Design of compact, universal DNA microarrays for protein binding microarray experiments.

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Journal:  J Comput Biol       Date:  2008-09       Impact factor: 1.479

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8.  Systematic identification of mammalian regulatory motifs' target genes and functions.

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Review 3.  Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants.

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4.  DeeperBind: Enhancing Prediction of Sequence Specificities of DNA Binding Proteins.

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Review 6.  Identifying regulatory elements in eukaryotic genomes.

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8.  Neural-specific Sox2 input and differential Gli-binding affinity provide context and positional information in Shh-directed neural patterning.

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10.  Integrated approach for the identification of human hepatocyte nuclear factor 4alpha target genes using protein binding microarrays.

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