FB2026_02 , released June 18, 2026
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Citation
Eggers, N., Gkountromichos, F., Krause, S., Campos-Sparr, A., Becker, P.B. (2023). Physical interaction between MSL2 and CLAMP assures direct cooperativity and prevents competition at composite binding sites.  Nucleic Acids Res. 51(17): 9039--9054.
FlyBase ID
FBrf0257630
Publication Type
Research paper
Abstract
MSL2, the DNA-binding subunit of the Drosophila dosage compensation complex, cooperates with the ubiquitous protein CLAMP to bind MSL recognition elements (MREs) on the X chromosome. We explore the nature of the cooperative binding to these GA-rich, composite sequence elements in reconstituted naïve embryonic chromatin. We found that the cooperativity requires physical interaction between both proteins. Remarkably, disruption of this interaction does not lead to indirect, nucleosome-mediated cooperativity as expected, but to competition. The protein interaction apparently not only increases the affinity for composite binding sites, but also locks both proteins in a defined dimeric state that prevents competition. High Affinity Sites of MSL2 on the X chromosome contain variable numbers of MREs. We find that the cooperation between MSL2/CLAMP is not influenced by MRE clustering or arrangement, but happens largely at the level of individual MREs. The sites where MSL2/CLAMP bind strongly in vitro locate to all chromosomes and show little overlap to an expanded set of X-chromosomal MSL2 in vivo binding sites generated by CUT&RUN. Apparently, the intrinsic MSL2/CLAMP cooperativity is limited to a small selection of potential sites in vivo. This restriction must be due to components missing in our reconstitution, such as roX2 lncRNA.
PubMed ID
PubMed Central ID
PMC10516644 (PMC) (EuropePMC)
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Secondary IDs
    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Nucleic Acids Res.
    Title
    Nucleic Acids Research
    Publication Year
    1974-
    ISBN/ISSN
    0305-1048
    Data From Reference
    Genes (2)
    Physical Interactions (2)