Repair of damage in the DNA is essential for an organism. Therefore, several repair mechanisms have evolved. In this thesis, the mechanism of Transcription-Coupled Nucleotide Excision Repair (TC... Show moreRepair of damage in the DNA is essential for an organism. Therefore, several repair mechanisms have evolved. In this thesis, the mechanism of Transcription-Coupled Nucleotide Excision Repair (TC-NER) and the UV Damage Endonuclease repair pathway (UVDE) have been studied. Central to TC-NER is the protein Cockayne Syndrome protein A (CSA). Its biological importance can be seen in that mutations in CSA cause the human, serious disorder Cockayne Syndrome. This thesis describes structural and biochemical studies of this protein, which give insights into its substrate-binding and into how mutations in this protein cause the disease Cockayne Syndrome. Biochemical and structural studies of UVDE show the identity and role of its post-translational modification, a carboxylation. A cocrystal structure of UVDE with 6-4PP DNA shows how UVDE can recognize UV damaged DNA. Show less
