Maud Borensztein
Overview
Explore the profile of Maud Borensztein including associated specialties, affiliations and a list of published articles.
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16
Citations
443
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Recent Articles
1.
Roidor C, Syx L, Beyne E, Raynaud P, Zielinski D, Teissandier A, et al.
Nat Struct Mol Biol
. 2025 Jan;
PMID: 39838109
Random X-chromosome inactivation is a hallmark of female mammalian somatic cells. This epigenetic mechanism, mediated by the long noncoding RNA Xist, occurs in the early embryo and is stably maintained...
2.
Roidor C, Chebli K, Borensztein M
Med Sci (Paris)
. 2024 Dec;
40(12):892-903.
PMID: 39705560
The memory of cellular identity is crucial for the correct development of an individual and is maintained throughout life by the epigenome. Chromatin marks, such as DNA methylation and histone...
3.
Farhadova S, Ghousein A, Charon F, Surcis C, Gomez-Velazques M, Roidor C, et al.
Nucleic Acids Res
. 2024 Apr;
52(11):6183-6200.
PMID: 38613389
The imprinted Dlk1-Dio3 domain comprises the developmental genes Dlk1 and Rtl1, which are silenced on the maternal chromosome in different cell types. On this parental chromosome, the domain's imprinting control...
4.
Moyano Rodriguez Y, Borensztein M
Development
. 2023 Nov;
150(22).
PMID: 37997921
The last edition of the X-chromosome inactivation (XCI) meeting was held as an EMBO workshop in Berlin on 19-22 June 2023. The conference took place at the Harnack-haus in the...
5.
Galupa R, Picard C, Servant N, Nora E, Zhan Y, van Bemmel J, et al.
Development
. 2022 May;
149(9).
PMID: 35502750
The interplay between the topological organization of the genome and the regulation of gene expression remains unclear. Depletion of molecular factors (e.g. CTCF) underlying topologically associating domains (TADs) leads to...
6.
Glaser J, Iranzo J, Borensztein M, Marinucci M, Gualtieri A, Jouhanneau C, et al.
Elife
. 2022 Jan;
11.
PMID: 35049495
Genomic imprinting refers to the mono-allelic and parent-specific expression of a subset of genes. While long recognized for their role in embryonic development, imprinted genes have recently emerged as important...
7.
Ranisavljevic N, Borensztein M, Ancelin K
Methods Mol Biol
. 2020 Sep;
2214:283-293.
PMID: 32944917
Over the past two decades, the development of chromosome conformation capture technologies has allowed to intensively probe the properties of genome folding in various cell types. High-throughput versions of these...
8.
Borensztein M
Methods Mol Biol
. 2020 Sep;
2214:157-173.
PMID: 32944909
Immunofluorescence and RNA fluorescence in situ hybridization (FISH) methods enable the detection of, respectively, proteins and RNA molecules in single cells. Adapted to preimplantation mouse embryos, these techniques allow the...
9.
Collombet S, Ranisavljevic N, Nagano T, Varnai C, Shisode T, Leung W, et al.
Nature
. 2020 Apr;
580(7801):142-146.
PMID: 32238933
Paternal and maternal epigenomes undergo marked changes after fertilization. Recent epigenomic studies have revealed the unusual chromatin landscapes that are present in oocytes, sperm and early preimplantation embryos, including atypical...
10.
Borensztein M, Syx L, Servant N, Heard E
Methods Mol Biol
. 2018 Jul;
1818:51-65.
PMID: 29961255
Single-cell RNA-sequencing (scRNAseq) enables the detection and quantification of mature RNAs in an individual cell. Assessing single cell transcriptomes can circumvent the limited amount of starting material obtained in oocytes...