Benjamin Alleva scite author profile

SummaryWe investigated 67 breakpoint junctions of gene copy number gains (CNVs) in 31 unrelated subjects. We observed a strikingly high frequency of small deletions and insertions (29%) apparently originating from polymerase-slippage events, in addition to frameshifts and point mutations in homonucleotide runs (13%), at or flanking the breakpoint junctions of complex CNVs. These simple nucleotide variants (SNV) were generated concomitantly with the de novo complex genomic rearrangement (CGR) event. Our findings implicate a low fidelity error-prone DNA polymerase in synthesis associated with DNA repair mechanisms that leads to a local increase in point mutation burden associated with human CGR.

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The CSN/COP9 Signalosome Regulates Synaptonemal Complex Assembly during Meiotic Prophase I of Caenorhabditis elegans

Brockway

Balukoff

Dean

et al. 2014

PLoS Genet

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The synaptonemal complex (SC) is a conserved protein structure that holds homologous chromosome pairs together throughout much of meiotic prophase I. It is essential for the formation of crossovers, which are required for the proper segregation of chromosomes into gametes. The assembly of the SC is likely to be regulated by post-translational modifications. The CSN/COP9 signalosome has been shown to act in many pathways, mainly via the ubiquitin degradation/proteasome pathway. Here we examine the role of the CSN/COP9 signalosome in SC assembly in the model organism C. elegans. Our work shows that mutants in three subunits of the CSN/COP9 signalosome fail to properly assemble the SC. In these mutants, SC proteins aggregate, leading to a decrease in proper pairing between homologous chromosomes. The reduction in homolog pairing also results in an accumulation of recombination intermediates and defects in repair of meiotic DSBs to form the designated crossovers. The effect of the CSN/COP9 signalosome mutants on synapsis and crossover formation is due to increased neddylation, as reducing neddylation in these mutants can partially suppress their phenotypes. We also find a marked increase in apoptosis in csn mutants that specifically eliminates nuclei with aggregated SC proteins. csn mutants exhibit defects in germline proliferation, and an almost complete pachytene arrest due to an inability to activate the MAPK pathway. The work described here supports a previously unknown role for the CSN/COP9 signalosome in chromosome behavior during meiotic prophase I.

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Moving and stopping: Regulation of chromosome movement to promote meiotic chromosome pairing and synapsis

Alleva

Smolikove

2017

Nucleus

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Meiosis is a specialized cellular division occurring in organisms capable of sexual reproduction that leads to the formation of gametes containing half of the original chromosome number. During the earliest stage of meiosis, prophase I, pairing of homologous chromosomes is achieved in preparation for their proper distribution in the coming divisions. An important question is how do homologous chromosomes find each other and establish pairing interactions. Early studies demonstrated that chromosomes are dynamic in nature and move during this early stage of meiosis. More recently, there have been several studies across different models showing the conserved nature and importance of this chromosome movement, as well as the key components involved in chromosome movement. This review will cover these major findings and also introduce unexamined areas of regulation in meiotic prophase I chromosome movement.

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Regulating chromosomal movement by the cochaperone FKB-6 ensures timely pairing and synapsis

Alleva

Balukoff

Peiper

et al. 2017

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Benjamin Alleva

Replicative mechanisms for CNV formation are error prone

The CSN/COP9 Signalosome Regulates Synaptonemal Complex Assembly during Meiotic Prophase I of Caenorhabditis elegans

Moving and stopping: Regulation of chromosome movement to promote meiotic chromosome pairing and synapsis

Regulating chromosomal movement by the cochaperone FKB-6 ensures timely pairing and synapsis

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