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  • Title: Histone release during transcription: displacement of the two H2A-H2B dimers in the nucleosome is dependent on different levels of transcription-induced positive stress.
    Author: Levchenko V, Jackson B, Jackson V.
    Journal: Biochemistry; 2005 Apr 12; 44(14):5357-72. PubMed ID: 15807529.
    Abstract:
    Both indirect (transcription-induced stress) and direct effects of polymerase elongation on histone-DNA interactions were studied on closed circular DNA that was either moderately or positively coiled. The templates were reconstituted with (3)H-labeled H2A, H2B, H3, and H4 to form nucleosomes, and transcription was done with T7 RNA polymerase in the presence of a negatively coiled competitor DNA (reconstituted with unlabeled H3 and H4). The first of the two labeled H2A-H2B dimers readily displaced from the highly positively coiled template to the competitor even in the absence of transcription, while the indirect effect of transcription-induced stress was required for the moderately coiled template. The second labeled H2A-H2B dimer required transcription-induced stress for both moderately and highly positively coiled DNA. The displacement of the labeled H3-H4 tetramer also occurred, provided it was associated with an H2A-H2B dimer and a moderately positively coiled DNA. This displacement occurred independent of transcription-induced stress and is likely due to the direct effect of polymerase disruption of histone-DNA interactions. The inclusion of the histone chaperone, NAP1, greatly enhanced the release of both of the two H2A-H2B dimers. These observations are consistent with in vivo observations which indicate that during transcription H2A and H2B are significantly more mobile than H3 and H4 and indicate that transcription-induced positive stress is a likely cause for this selective movement.
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