Ulrike Boenisch

Max Planck Society

7 Papers

3 Citations

Ulrike Boenisch is an academic researcher from Max Planck Society. The author has contributed to research in topics: Epigenome & PRC2. The author has an hindex of 3, co-authored 7 publications.

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Papers

•Journal Article•10.1016/J.CELL.2014.11.005

Paternal Diet Defines Offspring Chromatin State and Intergenerational Obesity

Anita Öst, +19 more

- 04 Dec 2014

- Cell

TL;DR: A Drosophila model of paternal-diet-induced intergenerational metabolic reprogramming (IGMR) is presented and evidence that a similar system may regulate obesity susceptibility and phenotype variation in mice and humans is found.

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415

•Journal Article•10.1016/J.CMET.2018.04.013

The Polycomb-Dependent Epigenome Controls β Cell Dysfunction, Dedifferentiation, and Diabetes.

Tess Tsai Hsiu Lu, +24 more

- 05 Jun 2018

- Cell Metabolism

TL;DR: Deep epigenome mapping with single-cell transcriptomics finds two chromatin-state signatures that track β cell dysfunction in mice and humans: ectopic activation of bivalent Polycomb-silenced domains and loss of expression at an epigenomically unique class of lineage-defining genes.

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132

•Journal Article•10.1038/PROTEX.2018.098

RELACS: a novel in-nuclei barcoding strategy for high-throughput ChIP-seq

Laura Arrigoni, +3 more

- 22 Aug 2018

- Protocol exchange

•Posted Content•10.1101/276469

Ultra-parallel ChIP-seq by barcoding of intact nuclei

Laura Arrigoni, +9 more

- 05 Mar 2018

- bioRxiv

TL;DR: A novel method for ultra-parallelized high-throughput ChIP-seq that employs barcoding of chromatin within intact nuclei extracted from different sources, for maximal comparability and significant workload reduction.

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Ulrike Boenisch

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Papers

Paternal Diet Defines Offspring Chromatin State and Intergenerational Obesity

The Polycomb-Dependent Epigenome Controls β Cell Dysfunction, Dedifferentiation, and Diabetes.

RELACS: a novel in-nuclei barcoding strategy for high-throughput ChIP-seq

Ultra-parallel ChIP-seq by barcoding of intact nuclei

The Polycomb-dependent epigenome controls β-cell dysfunction, dedifferentiation and diabetes