Kasey L. Konesky scite author profile

H2A.Bbd is an unusual histone variant whose sequence is only 48% conserved compared to major H2A. The major sequence differences are in the docking domain that tethers the H2A-H2B dimer to the (H3-H4) 2 tetramer; in addition, the C-terminal tail is absent in H2A.Bbd. We assembled nucleosomes in which H2A is replaced by H2A.Bbd (Bbd-NCP), and found that Bbd-NCP had a more relaxed structure in which only 11872 bp of DNA is protected against digestion with micrococcal nuclease. The absence of fluorescence resonance energy transfer between the ends of the DNA in Bbd-NCP indicates that the distance between the DNA ends is increased significantly. The Bbd docking domain is largely responsible for this behavior, as shown by domain-swap experiments. Bbd-containing nucleosomal arrays repress transcription from a natural promoter, and this repression can be alleviated by transcriptional activators Tax and CREB. The structural properties of Bbd-NCP described here have important implications for the in vivo function of this histone variant and are consistent with its proposed role in transcriptionally active chromatin.

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Biochemical analyses of transcriptional regulatory mechanisms in a chromatin context

Konesky

Laybourn

2007

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We have optimized a recombinant chromatin assembly system that properly incorporates core histones and histone H1 into a chromatin template containing a natural promoter sequence. This article provides a step-by-step procedure for expression and purification of the proteins required for assembling well-defined chromatin templates. We describe how the degree of chromatin assembly in the absence and presence of histone H1 is measured using topological analysis and the use of micrococcal nuclease digestion performed to confirm H1 incorporation and determine the quality of in vitro chromatin templates. Further we describe the use sucrose gradient ultracentrifugation to verify that no unincorporated H1 remains as a second means for deciding on the proper H1 to core histone ratio during assembly. Additionally, we discuss the use of both yeast and Drosophila NAP-1 (yNAP-1 and dNAP-1, respectively) in the assembly of H1-containing chromatin. Finally, we provide detailed description of functional assays for investigating the mechanism of transcriptional regulation in a chromatin context (transcription, histone acetyltransferase activity, and protein association with promoter-bound complexes using immobilized chromatin templates).

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TaxAbolishes Histone H1 Repression of p300 Acetyltransferase Activity at the Human T-Cell Leukemia Virus Type 1Promoter

Konesky

Nyborg

Laybourn

2006

J Virol

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Upon infection of human T-cell leukemia virus type 1 (HTLV-1), the provirus is integrated into the host cell genome and subsequently packaged into chromatin that contains histone H1. Consequently, transcriptional activation of the virus requires overcoming the environment of chromatin and H1. To efficiently activate transcription, HTLV-1 requires the virally encoded protein Tax and cellular transcription factor CREB. Together Tax and CREB interact with three cis-acting promoter elements called viral cyclic-AMP response elements (vCREs). Binding of Tax and CREB to the vCREs promotes association of p300/CBP into the complex and leads to transcriptional activation. Therefore, to fully understand the mechanism of Tax transactivation, it is necessary to examine transcriptional activation from chromatin assembled with H1. Using a DNA template harboring the complete HTLV-1 promoter sequence and a highly defined recombinant assembly system, we demonstrate proper incorporation of histone H1 into chromatin. Addition of H1 to the chromatin template reduces HTLV-1 transcriptional activation through a novel mechanism. Specifically, H1 does not inhibit CREB or Tax binding to the vCREs or p300 recruitment to the promoter. Rather, H1 directly targets p300 acetyltransferase activity. Interestingly, in determining the mechanism of H1 repression, we have discovered a previously undefined function of Tax, overcoming the repressive effects of H1-chromatin. Tax specifically abrogates the H1 repression of p300 enzymatic activity in a manner independent of p300 recruitment and without displacement of H1 from the promoter.

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Kasey L. Konesky

Nucleosomes containing the histone variant H2A.Bbd organize only 118 base pairs of DNA

Biochemical analyses of transcriptional regulatory mechanisms in a chromatin context

TaxAbolishes Histone H1 Repression of p300 Acetyltransferase Activity at the Human T-Cell Leukemia Virus Type 1Promoter

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