Molly R. Gordon scite author profile

Aneuploidy, chromosome stoichiometry that deviates from exact multiples of the haploid compliment of an organism, exists in eukaryotic microbes, several normal human tissues, and the majority of solid tumors. Here, we review the current understanding about the cellular stress states that may result from aneuploidy. The topics of aneuploidy-induced proteotoxic, metabolic, replication, and mitotic stress are assessed in the context of the gene dosage imbalance observed in aneuploid cells. We also highlight emerging findings related to the downstream effects of aneuploidy-induced cellular stress on the immune surveillance against aneuploid cells.

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Genome architecture and stability in the Saccharomyces cerevisiae knockout collection

Puddu

Herzog

Selivanova

et al. 2019

Nature

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While identification and analysis of genes affecting genome stability have traditionally relied on reporter assays, whole-genome sequencing technologies now enable, in principle, direct measurements of genome instability globally and at scale. Here, we have surveyed the Saccharomyces cerevisiae gene knockout collection by sequencing the whole genomes of its strains, and characterized genomic changes caused by the absence of essentially any one of the non-essential yeast genes. Analysing this dataset (http://sgv.gurdon.cam.ac.uk) reveals genes affecting repetitive-element maintenance or mutagenesis, highlights cross-talks between nuclear Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Mapping the micro-proteome of the nuclear lamina and lamina-associated domains

et al. 2021

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The nuclear lamina is a proteinaceous network of filaments that provide both structural and gene regulatory functions by tethering proteins and large domains of DNA, the so-called lamina-associated domains (LADs), to the periphery of the nucleus. LADs are a large fraction of the mammalian genome that are repressed, in part, by their association to the nuclear periphery. The genesis and maintenance of LADs is poorly understood as are the proteins that participate in these functions. In an effort to identify proteins that reside at the nuclear periphery and potentially interact with LADs, we have taken a two-pronged approach. First, we have undertaken an interactome analysis of the inner nuclear membrane bound LAP2β to further characterize the nuclear lamina proteome. To accomplish this, we have leveraged the BioID system, which previously has been successfully used to characterize the nuclear lamina proteome. Second, we have established a system to identify proteins that bind to LADs by developing a chromatin-directed BioID system. We combined the BioID system with the m6A-tracer system which binds to LADs in live cells to identify both LAD proximal and nuclear lamina proteins. In combining these datasets, we have further characterized the protein network at the nuclear lamina, identified putative LAD proximal proteins and found several proteins that appear to interface with both micro-proteomes. Importantly, several proteins essential for LAD function, including heterochromatin regulating proteins related to H3K9 methylation, were identified in this study.

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Molly R. Gordon

Cellular Stress Associated with Aneuploidy

Genome architecture and stability in the Saccharomyces cerevisiae knockout collection

Mapping the micro-proteome of the nuclear lamina and lamina-associated domains

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