Fanconi anaemia and the repair of Watson and Crick DNA crosslinks
MC Kottemann, A Smogorzewska - Nature, 2013 - nature.com
MC Kottemann, A Smogorzewska
Nature, 2013•nature.comThe function of Fanconi anaemia proteins is to maintain genomic stability. Their main role is
in the repair of DNA interstrand crosslinks, which, by covalently binding the Watson and the
Crick strands of DNA, impede replication and transcription. Inappropriate repair of
interstrand crosslinks causes genomic instability, leading to cancer; conversely, the toxicity
of crosslinking agents makes them a powerful chemotherapeutic. Fanconi anaemia proteins
can promote stem-cell function, prevent tumorigenesis, stabilize replication forks and inhibit …
in the repair of DNA interstrand crosslinks, which, by covalently binding the Watson and the
Crick strands of DNA, impede replication and transcription. Inappropriate repair of
interstrand crosslinks causes genomic instability, leading to cancer; conversely, the toxicity
of crosslinking agents makes them a powerful chemotherapeutic. Fanconi anaemia proteins
can promote stem-cell function, prevent tumorigenesis, stabilize replication forks and inhibit …
Abstract
The function of Fanconi anaemia proteins is to maintain genomic stability. Their main role is in the repair of DNA interstrand crosslinks, which, by covalently binding the Watson and the Crick strands of DNA, impede replication and transcription. Inappropriate repair of interstrand crosslinks causes genomic instability, leading to cancer; conversely, the toxicity of crosslinking agents makes them a powerful chemotherapeutic. Fanconi anaemia proteins can promote stem-cell function, prevent tumorigenesis, stabilize replication forks and inhibit inaccurate repair. Recent advances have identified endogenous aldehydes as possible culprits of DNA damage that may induce the phenotypes seen in patients with Fanconi anaemia.
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