Csilla Abonyi scite author profile

Csilla Abonyi

4Publications

17Citation Statements Received

55Citation Statements Given

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175

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Biological Research Centre, Hungarian Academy of Sciences

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Nuclear actin: ancient clue to evolution in eukaryotes?

Bajusz

Borkúti

Kristó

et al. 2018

Histochem Cell Biol

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Until recently it was widely accepted that the dynamic cytoskeletal matrix is exclusive to the cytoplasm of eukaryotes, evolving before the emergence of the cell nucleus to enable phagocytosis, cell motility and the sophisticated functioning of the endomembrane system within the cytosol. The discovery of the existence of a prokaryotic cytoskeleton has changed this picture significantly. As a result, the idea has taken shape that the appearance of actin occurred in the very first cell; therefore, the emergence of microfilaments precedes that of the eukaryotic cytoskeleton. The discovery of nuclear actin opened new perspective on the field, suggesting that the nuclear activities of actin reflect the functions of primordial actin-like proteins. In this paper, we review the recent literature to explore the evolutionary origin of nuclear actin. We conclude that both ancient and eukaryotic features of the actin world can be detected in the nucleus today, which supports the idea that the cytoskeleton attained significant eukaryotic innovations before the tandem evolution of the cytoskeleton and nucleus occurred.

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The nuclear activity of the actin‐binding Moesin protein is necessary for gene expression in Drosophila

et al. 2021

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Ezrin-Radixin-Moesin (ERM) proteins play an essential role in the cytoplasm by cross-linking actin filaments with plasma membrane proteins. Research has identified the nuclear localization of ERMs, as well as the involvement of a single Drosophila ERM protein, Moesin, in nuclear mRNA exports. However, the question of how important the nuclear activity of ERM proteins are for the life of an organism has so far not been explored. Here, we present the first attempt to reveal the in vivo relevance of nuclear localization of Moesin in Drosophila. With the help of a nuclear export signal, we decreased the amount of Moesin in the nuclei of the animals. Furthermore, we observed various developmental defects, demonstrating the importance of ERM function in the nucleus for the first time. Transcriptome analysis of the mutant flies revealed that the lack of nuclear Moesin function leads to expression changes in nearly 700 genes, among them heat-shock genes. This result together with additional findings revealed that in Drosophila the expression of protein chaperones requires the nuclear functions of Moesin.

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Author response for "The nuclear activity of the actin‐binding moesin protein is necessary for gene expression in Drosophila"

Bajusz¹,

Kristó²,

Abonyi³

et al. 2020

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Measuring Transposable Element Activity in Adult Drosophila Ovaries

Szabó

Borkúti

Kovács

et al. 2023

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Csilla Abonyi

Nuclear actin: ancient clue to evolution in eukaryotes?

The nuclear activity of the actin‐binding Moesin protein is necessary for gene expression in Drosophila

Author response for "The nuclear activity of the actin‐binding moesin protein is necessary for gene expression in Drosophila"

Measuring Transposable Element Activity in Adult Drosophila Ovaries

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