| CUT&RUN-EM: An Ultra-Sensitive Multiomic Method that Directly Links Chromatin Features to DNA Methylation |
ASHG |
DNA Methylation |
| Development of an ultrasensitive transcriptomic mapping platform to study opioid-regulated circuits in neuronal tissue |
SfN |
Transcription |
| Utilizing RNA polymerase II to measure acute transcriptional changes |
ASBMB Transcriptional Regulation |
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| Multiomic sequencing technology reveals crosstalk between chromatin proteins and DNA methylation in neurological disease |
SfN |
DNA methylation |
| Scaled Preparation of FFPE Tumor Samples for Epigenetic Studies |
FASEB TCESRC |
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| CUT&RUN and CUT&Tag epigenomic mapping assays for agricultural research |
AGBT Agriculture |
CUT&RUN, CUT&Tag, agriculture |
| Exploring Antibodies and Rationally Designed Readers for Genomic Mapping of Histone Monoubiquitin |
Keystone Epigenetic Mechanisms and Cancer Treatment |
CUT&RUN, ubiquitination, antibody specificity |
| Development of a high-throughput CUT&RUN platform for epigenomic mapping of rare primary immune cells |
Keystone Epigenetic Mechanisms and Cancer Treatment |
Automated CUT&RUN, sorted cells, immune cells |
| Epigenomic fingerprinting of limited primary cells using automated CUT&RUN |
AACR Blood Cancer Discovery |
Automated CUT&RUN, sorted cells, immune cells |
| Direct multi-omics for the masses: Linking DNA methylation to chromatin targets via TEM-seq |
AACR 2024 |
DNA methylation, MeCP2, multiomic analysis |
| Multi-epigenomic mapping with long read sequencing |
AACR 2024 |
Multiomic analysis, long read sequencing, DNA methylation |
| CUTANA™ CUT&Tag : Powerful Platform for Streamlined, Ultra-Sensitive Epigenomics |
Keystone Single-Cell Biology: Tissue Genomics, Technologies and Disease |
CUT&Tag, CUTAC, chromatin accessibility |
| Combinatorial interactions by the BPTF tandem PHD-BD show nucleosome conformation dictates the histone code |
EpiCypher 2023 |
Histone code, CUT&RUN, combinatorial histone PTMs |
| Development of Recombinant Reader Proteins for Epigenetic Profiling in Genomic Assays |
EpiCypher 2023 |
Reader CUT&RUN, antibody specificity, histone variants |
| Development of Quantitative Controls for CUT&RUN Assays |
U.Wisconsin Epigenetics Symposium |
CUT&RUN, spike-in controls, sequencing normalization |
| Automated CUT&RUN brings scalable epigenomic profiling to precision medicine |
AGBT Precision Medicine |
Automated CUT&RUN, DNA methylation, multiomic analysis |
| Nucleosome spike-in controls enable reliable next-generation epigenomic mapping |
AACR Cancer Epigenomics |
CUT&RUN, spike-in controls, sequencing normalization |
| dCypher™ screening of BPTF reader domains show nucleosomes, not peptides, dictate the histone code |
Fusion Epigenetics |
Histone code, CUT&RUN, combinatorial histone PTMs |
| Biochemical and genomic approaches for high throughput drug discovery in chromatin remodeling research |
AACR 2023 |
Chromatin remodeling, TR-FRET assays, CUT&RUN |
| Nucleosome-based screening in the context of epigenetic diversity enables improved methods to study histone modifications as disease biomarkers |
EpiCypher 2021 |
Histone Arginine Citrullination, Neutrophil Extracellular Trap (NETs), NETosis, Autoimmune Disease |
| Novel nucleosome-based methods for rapid screening and identification of best-in-class antibodies: a community resource to improve genomic mapping approaches |
EpiCypher 2021 |
ChIP-seq, Antibody Specificity, Luminex Screening, Nucleosome Spike-in Controls |
| Nucleosome spike in controls enable reliable next generation epigenomic mapping |
FASEB TCESRC |
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| Advanced multiomic sequencing technologies reveal complex crosstalk between chromatin proteins and DNA methylation in neurodevelopment |
DOHaD |
DNA methylation, multiomics, neurodevelopment, chromatin profiling |
| Development of a standards-driven genomic mapping platform to measure acute Pol II response dynamics |
Max Planck Freiburg Epigenetics Meeting |
RNA Pol II CUT&Tag, Transcriptional dynamics |
