A ChIP-exo screen of 887 Protein Capture Reagents Program transcription factor antibodies in human cells.
William K M LaiLuca MarianiGerson RothschildEdwin R SmithBryan J VentersThomas R BlandaPrashant K KuntalaKylie BocklundJoshua MairoseSarah N DweikatKatelyn MistrettaMatthew J RossiDaniela JamesJames T AndersonSabrina K PhanorWanwei ZhangZibo ZhaoAvani P ShahKatherine NovitzkyEileen McAnarneyMichael-C KeoghAli ShilatifardUttiya BasuMartha L BulykB Franklin PughPublished in: Genome research (2021)
Antibodies offer a powerful means to interrogate specific proteins in a complex milieu. However, antibody availability and reliability can be problematic, whereas epitope tagging can be impractical in many cases. To address these limitations, the Protein Capture Reagents Program (PCRP) generated over a thousand renewable monoclonal antibodies (mAbs) against human presumptive chromatin proteins. However, these reagents have not been widely field-tested. We therefore performed a screen to test their ability to enrich genomic regions via chromatin immunoprecipitation (ChIP) and a variety of orthogonal assays. Eight hundred eighty-seven unique antibodies against 681 unique human transcription factors (TFs) were assayed by ultra-high-resolution ChIP-exo/seq, generating approximately 1200 ChIP-exo data sets, primarily in a single pass in one cell type (K562). Subsets of PCRP mAbs were further tested in ChIP-seq, CUT&RUN, STORM super-resolution microscopy, immunoblots, and protein binding microarray (PBM) experiments. About 5% of the tested antibodies displayed high-confidence target (i.e., cognate antigen) enrichment across at least one assay and are strong candidates for additional validation. An additional 34% produced ChIP-exo data that were distinct from background and thus warrant further testing. The remaining 61% were not substantially different from background, and likely require consideration of a much broader survey of cell types and/or assay optimizations. We show and discuss the metrics and challenges to antibody validation in chromatin-based assays.
Keyphrases
- high throughput
- transcription factor
- single cell
- high resolution
- rna seq
- genome wide
- endothelial cells
- circulating tumor cells
- gene expression
- dna binding
- dna damage
- binding protein
- quality improvement
- electronic health record
- dna methylation
- induced pluripotent stem cells
- stem cells
- amino acid
- deep learning
- optical coherence tomography
- mesenchymal stem cells
- cell therapy
- bone marrow
- copy number
- data analysis
- monoclonal antibody
- tandem mass spectrometry