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Structure of the human TIP60-C histone exchange and acetyltransferase complex

The structure of human TIP60-C uncovers a molecular machine that modifies and exchanges histones in the nucleosome, illustrating how vertebrates merge these activities, which are carried out by two independent assemblies in yeast.

Changqing Li
Ekaterina Smirnova
Adam Ben-Shem
ResearchOpen Access11 Sept 2024
Nature

Volume: 635, P: 764-769
Remodelling of Rea1 linker domain drives the removal of assembly factors from pre-ribosomal particles

The ribosome maturation factor Rea1 catalyzes essential steps in the production of the large ribosomal subunit. Here, Busselez et al. describe functionally important conformational changes in Rea1.

Johan Busselez
Geraldine Koenig
Helgo Schmidt
ResearchOpen Access27 Nov 2024
Nature Communications

Volume: 15, P: 1-19
Transcription factors modulate RNA polymerase conformational equilibrium

Pausing of RNA polymerase (RNAP) and transcription is regulated by the NusA and NusG transcription factors in bacteria. Here the authors provide structural evidence for how they interact with RNAP to carry out their pausing roles and also reveal functions for NusA and NusG in transcription termination.

Chengjin Zhu
Xieyang Guo
Albert Weixlbaumer
ResearchOpen Access22 Mar 2022
Nature Communications

Volume: 13, P: 1-12
Structure of SAGA and mechanism of TBP deposition on gene promoters

Structural studies on the yeast transcription coactivator complex SAGA (Spt–Ada–Gcn5–acetyltransferase) provide insights into the mechanism of initiation of regulated transcription by this multiprotein complex, which is conserved among eukaryotes.

Gabor Papai
Alexandre Frechard
Adam Ben-Shem
Research22 Jan 2020
Nature

Volume: 577, P: 711-716
The structure of the NuA4–Tip60 complex reveals the mechanism and importance of long-range chromatin modification

Here, the authors use cryo-EM, biochemical and yeast assays of the HAT NuA4–Tip60 to reveal its mechanism of acetylating distant nucleosomes through the Epl1 linker establishing long-range chromatin interactions.

Alexander Fréchard
Céline Faux
Adam Ben-Shem
Research07 Aug 2023
Nature Structural & Molecular Biology

Volume: 30, P: 1337-1345
Differential impact of ubiquitous and muscle dynamin 2 isoforms in muscle physiology and centronuclear myopathy

Dynamin 2 is a large GTPase linked to several human diseases. Here, Gómez-Oca et al. investigate the functions of muscle dynamin 2 isoforms and provide insights into their differential implication in centronuclear myopathy pathogenesis and treatment.

Raquel Gómez-Oca
Evelina Edelweiss
Jocelyn Laporte
ResearchOpen Access11 Nov 2022
Nature Communications

Volume: 13, P: 1-20
Structure of the initiation-competent RNA polymerase I and its implication for transcription

Eukaryotic RNA polymerase I (Pol I) is responsible for the transcription of rRNA genes. Here the authors determine the cryo-EM structure of the Pol I-Rrn3 complex, providing insight into how Rrn3 stabilizes the monomeric initiation competent Pol I to drive pre-initiation complex formation.

Michael Pilsl
Corinne Crucifix
Patrick Schultz
ResearchOpen Access15 Jul 2016
Nature Communications

Volume: 7, P: 1-12

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Structure of the human TIP60-C histone exchange and acetyltransferase complex

Remodelling of Rea1 linker domain drives the removal of assembly factors from pre-ribosomal particles

Transcription factors modulate RNA polymerase conformational equilibrium

Structure of SAGA and mechanism of TBP deposition on gene promoters

The structure of the NuA4–Tip60 complex reveals the mechanism and importance of long-range chromatin modification

Differential impact of ubiquitous and muscle dynamin 2 isoforms in muscle physiology and centronuclear myopathy

Structure of the initiation-competent RNA polymerase I and its implication for transcription

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