Nataliya Danilenko scite author profile

Nataliya Danilenko

4Publications

46Citation Statements Received

165Citation Statements Given

How they've been cited

How they cite others

172

158

Affiliations

Leibniz University Hannover, Engelhardt Institute of Molecular Biology

Publications

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Structural characterization of the Asf1–Rtt109 interaction and its role in histone acetylation

Lercher

Danilenko

Kirkpatrick

et al. 2017

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Acetylation of histone H3 at lysine-56 by the histone acetyltransferase Rtt109 in lower eukaryotes is important for maintaining genomic integrity and is required for C. albicans pathogenicity. Rtt109 is activated by association with two different histone chaperones, Vps75 and Asf1, through an unknown mechanism. Here, we reveal that the Rtt109 C-terminus interacts directly with Asf1 and elucidate the structural basis of this interaction. In addition, we find that the H3 N-terminus can interact via the same interface on Asf1, leading to a competition between the two interaction partners. This, together with the recruitment and position of the substrate, provides an explanation of the role of the Rtt109 C-terminus in Asf1-dependent Rtt109 activation.

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Histone chaperone exploits intrinsic disorder to switch acetylation specificity

et al. 2019

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Histones, the principal protein components of chromatin, contain long disordered sequences, which are extensively post-translationally modified. Although histone chaperones are known to control both the activity and specificity of histone-modifying enzymes, the mechanisms promoting modification of highly disordered substrates, such as lysine-acetylation within the N-terminal tail of histone H3, are not understood. Here, to understand how histone chaperones Asf1 and Vps75 together promote H3 K9-acetylation, we establish the solution structural model of the acetyltransferase Rtt109 in complex with Asf1 and Vps75 and the histone dimer H3:H4. We show that Vps75 promotes K9-acetylation by engaging the H3 N-terminal tail in fuzzy electrostatic interactions with its disordered C-terminal domain, thereby confining the H3 tail to a wide central cavity faced by the Rtt109 active site. These fuzzy interactions between disordered domains achieve localization of lysine residues in the H3 tail to the catalytic site with minimal loss of entropy, and may represent a common mechanism of enzymatic reactions involving highly disordered substrates.

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Functional analysis of Debaryomyces hansenii Rpn4 on a genetic background of Saccharomyces cerevisiae

Карпов

Grineva

Leinsoo

et al. 2016

FEMS Yeast Research

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The transcription factor ScRpn4 coordinates the expression of Saccharomyces cerevisiae proteasomal genes. ScRpn4 orthologues are found in a number of other Saccharomycetes yeasts. Their functions, however, have not yet been characterised experimentally in vivo . We expressed the Debaryomyces hansenii DEHA2D12848 gene encoding an ScRpn4 orthologue (DhRpn4), in an S. cerevisiae strain lacking RPN4 . We showed that DhRpn4 activates transcription of proteasomal genes using ScRpn4 binding site and provides resistance to various stresses. The 43-238 aa segment of DhRpn4 contains an unique portable transactivation domain. Similar to the ScRpn4 N-terminus, this domain lacks a compact structure Moreover, upon overexpression in D. hansenii , DhRpn4 upregulates protesomal genes. Thus, we show that DhRpn4 is the activator for proteasomal genes.

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Structure of Asf1-H3:H4-Rtt109-Vps75 histone chaperone-lysine acetyltransferase complex with the histone substrate.

Danilenko¹,

Carlomagno²,

Kirkpatrick³

2019

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