Wai Kit Chu scite author profile

Around 1% of the open reading frames in the human genome encode predicted DNA and RNA helicases. One highly conserved group of DNA helicases is the RecQ family. Genetic defects in three of the five human RecQ helicases, BLM, WRN and RECQ4, give rise to defined syndromes associated with cancer predisposition, some features of premature ageing and chromosomal instability. In recent years, there has been a tremendous advance in our understanding of the cellular functions of individual RecQ helicases. In this Review, we discuss how these proteins might suppress genomic rearrangements, and therefore function as 'caretaker' tumour suppressors.

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MUS81 promotes common fragile site expression

Ying

et al. 2013

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Fragile sites are chromosomal loci with a propensity to form gaps or breaks during early mitosis, and their instability is implicated as being causative in certain neurological disorders and cancers. Recent work has demonstrated that the so-called common fragile sites (CFSs) often impair the faithful disjunction of sister chromatids in mitosis. However, the mechanisms by which CFSs express their fragility, and the cellular factors required to suppress CFS instability, remain largely undefined. Here, we report that the DNA structure-specific nuclease MUS81-EME1 localizes to CFS loci in early mitotic cells, and promotes the cytological appearance of characteristic gaps or breaks observed at CFSs in metaphase chromosomes. These data indicate that CFS breakage is an active, MUS81-EME1-dependent process, and not a result of inadvertent chromatid rupturing during chromosome condensation. Moreover, CFS cleavage by MUS81-EME1 promotes faithful sister chromatid disjunction. Our findings challenge the prevailing view that CFS breakage is a nonspecific process that is detrimental to cells, and indicate that CFS cleavage actually promotes genome stability.

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Pterygium: new insights

Chu

Choi

Bhat

et al. 2020

Eye

101

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FBH1 Catalyzes Regression of Stalled Replication Forks

et al. 2015

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DNA replication fork perturbation is a major challenge to the maintenance of genome integrity. It has been suggested that processing of stalled forks might involve fork regression, in which the fork reverses and the two nascent DNA strands anneal. Here, we show that FBH1 catalyzes regression of a model replication fork in vitro and promotes fork regression in vivo in response to replication perturbation. Cells respond to fork stalling by activating checkpoint responses requiring signaling through stress-activated protein kinases. Importantly, we show that FBH1, through its helicase activity, is required for early phosphorylation of ATM substrates such as CHK2 and CtIP as well as hyperphosphorylation of RPA. These phosphorylations occur prior to apparent DNA double-strand break formation. Furthermore, FBH1-dependent signaling promotes checkpoint control and preserves genome integrity. We propose a model whereby FBH1 promotes early checkpoint signaling by remodeling of stalled DNA replication forks.

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Wai Kit Chu

RecQ helicases: multifunctional genome caretakers

MUS81 promotes common fragile site expression

Pterygium: new insights

FBH1 Catalyzes Regression of Stalled Replication Forks

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