Antonios Lioutas scite author profile

Key nuclear processes in eukaryotes, including DNA replication, repair, and gene regulation, require extensive chromatin remodeling catalyzed by energy-consuming enzymes. It remains unclear how the ATP demands of such processes are met in response to rapid stimuli. We analyzed this question in the context of the massive gene regulation changes induced by progestins in breast cancer cells and found that ATP is generated in the cell nucleus via the hydrolysis of poly(ADP-ribose) to ADP-ribose. In the presence of pyrophosphate, ADP-ribose is used by the pyrophosphatase NUDIX5 to generate nuclear ATP. The nuclear source of ATP is essential for hormone-induced chromatin remodeling, transcriptional regulation, and cell proliferation.

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3D mapping and accelerated super-resolution imaging of the human genome using in situ sequencing

Nguyen

et al. 2020

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That genome function may respond to its three-dimensional (3D) organization highlights the need for methods that can image genomes with superior coverage as well as greater genomic and optical resolution. Here, we push toward this goal by introducing OligoFISSEQ, a suite of three methods that leverage fluorescent in situ sequencing of barcoded Oligopaint probes to enable the rapid visualization of many targeted genomic regions. Applying OligoFISSEQ to human diploid fibroblast cells, we show how only four rounds of sequencing are sufficient to produce 3D maps of 66 genomic targets across 6 chromosomes in hundreds to thousands of cells. We then use OligoFISSEQ to trace chromosomes at finer resolution, following the path of the X chromosome through 46 regions, with separate studies showing compatibility of OligoFISSEQ with immunochemistry. Finally, we combined OligoFISSEQ with OligoSTORM, laying the foundation for accelerated single-molecule super-resolution imaging of large swaths of, if not entire, human genomes.

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Aurora A kinase and its substrate TACC3 are required for central spindle assembly

Lioutas

Vernos

2013

EMBO Reports

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Cell division entails a marked reorganization of the microtubule network to form the spindle, a molecular machine that ensures accurate chromosome segregation to the daughter cells. Spindle organization is highly dynamic throughout mitosis and requires the activity of several kinases and complex regulatory mechanisms. Aurora A (AurA) kinase is essential for the assembly of the metaphase bipolar spindle and, thus, it has been difficult to address its function during the last phases of mitosis. Here, we examine the consequences of inhibiting AurA in cells undergoing anaphase, and show that AurA kinase activity is necessary for the assembly of a robust central spindle during anaphase. We also identify TACC3 as an AurA substrate essential in central spindle formation.

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TFIIIC Binding to Alu Elements Controls Gene Expression via Chromatin Looping and Histone Acetylation

et al. 2020

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