A global effort is currently undertaken to restrain the COVID-19 pandemic. Host immunity has come out as a determinant for COVID-19 clinical outcomes, and several studies investigated the immune profi Show more
A global effort is currently undertaken to restrain the COVID-19 pandemic. Host immunity has come out as a determinant for COVID-19 clinical outcomes, and several studies investigated the immune profiling of SARS-CoV-2 infected people to properly direct the clinical management of the disease. Thus, lymphopenia, T-cell exhaustion, and the increased levels of inflammatory mediators have been described in COVID-19 patients, in particular in severe cases Show less
Proteins of the Heterochromatin Protein 1 (HP1) family are regulators of chromatin structure and genome function in eukaryotes. Post-translational modifications expand the repertoire of the chemical d Show more
Proteins of the Heterochromatin Protein 1 (HP1) family are regulators of chromatin structure and genome function in eukaryotes. Post-translational modifications expand the repertoire of the chemical diversity of HP1 proteins and regulate their activity. Here, we investigated the effect of phosphorylation by Casein kinase 2 (CK2) on the structure, dynamics and binding activity of human HP1β. We show that Ser89 in the hinge region is the most effective substrate, followed by Ser175 at the C-terminal tail. Phosphorylation at these sites results in localized conformational changes in HP1β that do not compromise the ability of the protein to bind chromatin. Show less
As essential components of the molecular machine assembling heterochromatin in eukaryotes, HP1 (Heterochromatin Protein 1) proteins are key regulators of genome function. While several high-resolution Show more
As essential components of the molecular machine assembling heterochromatin in eukaryotes, HP1 (Heterochromatin Protein 1) proteins are key regulators of genome function. While several high-resolution structures of the two globular regions of HP1, chromo and chromoshadow domains, in their free form or in complex with recognition-motif peptides are available, less is known about the conformational behavior of the full-length protein. Here, we used NMR spectroscopy in combination with small angle X-ray scattering and dynamic light scattering to characterize the dynamic and structural properties of full-length human HP1β (hHP1β) in solution. We show that the hinge region is highly flexible and enables a largely unrestricted spatial search by the two globular domains for their binding partners. In addition, the binding pockets within the chromo and chromoshadow domains experience internal dynamics that can be useful for the versatile recognition of different binding partners. In particular, we provide evidence for the presence of a distinct structural propensity in free hHP1β that prepares a binding-competent interface for the formation of the intermolecular β-sheet with methylated histone H3. The structural plasticity of hHP1β supports its ability to bind and connect a wide variety of binding partners in epigenetic processes. Show less