Repair of DNA-protein crosslinks in plants

Abstract

DNA-protein crosslinks represent a severe kind of DNA damage as they disturb essential processes, such as transcription and DNA replication, due to their bulkiness. To ensure the maintenance of genome integrity, it is necessary for all living organisms to repair these lesions in a timely manner. Over recent years, much knowledge has been obtained regarding the repair of DNA-protein crosslinks (DPC), but it was only recently that the first insights into the mechanisms of DPC repair in plants were obtained. The plant DPC repair network consists of at least three parallel pathways that resolve DPC by distinct biochemical mechanisms. The endonuclease MUS81 resolves the DPC by cleaving the DNA part of the crosslink, the protease WSS1A is able to degrade the protein part and the tyrosyl-DNA-phosphodiesterase TDP1 can hydrolyse the crosslink between a protein and the DNA. However, due to the variety of different DPC types and the evolutionary conservation of pathways between eukaryotes, we expect that future research will reveal additional factors involved in DPC repair in plants.

Keywords: Endonuclease; MUS81; Protease; TDP1; Tyrosyl-DNA-phosphodiesterase; WSS1A.