CAMARILLO DAZA , María Rosa

Los cortes que afectan a las dos cadenas del ADN suponen una seria amenaza a la estabilidad del genoma por lo que su reparación es crucial para la viabilidad celular. Para repararlos, la célula ha desarrollado principalmente dos mecanismos, la unión de extremos no homólogos (NHEJ) y la recombinación homóloga (HR). La correcta elección...

The fine tuning of the DNA double strand break repair pathway choice relies on different regulatory layers that respond to environmental and local cues. Among them, the presence of non-canonical nucleic acids structures seems to create challenges for the repair of nearby DNA double strand breaks. In this review, we focus on the recently...

During repair of DNA double-strand breaks, resection of DNA ends influences how these lesions will be repaired. If resection is activated, the break will be channeled through homologous recombination; if not, it will be simply ligated using the non-homologous end-joining machinery. Regulation of resection relies greatly on modulating CtIP,...

DNA breaks are complex lesions that can be repaired either by non-homologous end joining (NHEJ) or by homologous recombination (HR). The decision between these two routes of DNA repair is a key point of the DNA damage response (DDR) that is controlled by DNA resection. The core machinery catalyzing the resection process is well established....

DNA double-strand break (DSB) repair is initiated by DNA end resection. CtIP acts in short-range resection to stimulate MRE11–RAD50–NBS1 (MRN) to endonucleolytically cleave 5′-terminatedDNAto bypass protein blocks. CtIP also promotes the DNA2 helicase–nuclease to accelerate long-range resection downstream from MRN. Here, using AlphaFold2, we...