The following publications were published exclusively under the affiliation of the Max Planck Society. For publications by the principal investigator outside of the Max Planck Society, see the links on the lower left.
Book Chapter (2)
Book Chapter
Dissecting molecular phenotypes through FACS-based pooled CRISPR screens. In: Embryonic Stem Cell Protocols. Methods in Molecular Biology, 2520., Vol. 2520, pp. 1 - 24 (Ed. Turksen, K.). Humana Press, New York, NY (2022)
Book Chapter
CRISPR/dCas9 switch systems for temporal transcriptional control. In: Epigenome Editing. Methods in Molecular Biology., Vol. 1767, pp. 167 - 185 (Eds. Jeltsch , A.; Rots, M.). Humana Press, New York (2018)
Thesis - PhD (6)
Thesis - PhD
Modeling the impact of double X-dosage on pluripotency maintenance in mouse embryonic stem cells. Dissertation (2025)
Thesis - PhD
Functional investigation of the regulatory landscape around the Xist locus. Dissertation (2024)
Thesis - PhD
Development of a method to tune endogenous gene expression and its application to study dose-sensitivity in transcriptional regulation and random X-chromosome inactivation. Dissertation (2024)
Thesis - PhD
Transcriptome regulation during the X chromosome inactivation process. Dissertation (2023)
Thesis - PhD
Identification of X-chromosomal genes that drive global X-dosage effects in mammals. Dissertation (2021)
Thesis - PhD
Towards accurate and efficient live cell imaging data analysis. Dissertation, xii, 119 pp. (2021)
Review Article (2)
Review Article
Spatial orchestration of the genome: topological reorganisation during X-chromosome inactivation. Current Opinion in Genetics & Development 86, Article 102198 (2024)
Review Article
Establishment and maintenance of random monoallelic expression. Development 151 (10), Article dev201741 (2024)
Preprint (3)
Preprint
Reporter CRISPR screens decipher cis- and trans-regulatory principles at the Xist locus. bioRxiv (2024)
Preprint
Antisense transcription can induce expression memory via stable promoter repression. bioRxiv (2024)
Preprint
Two coupled feedback loops explain random mono-allelic Xist upregulation at the onset of X-chromosome inactivation. bioRxiv: the preprint server for biology 2017, pp. 1 - 54 (2017)