UV irradiation causes damage to bacterial DNA. What kind of damage is frequently caused and how does photolyase repair the damage?

Ultraviolet (UV) irradiation can cause various types of damage to DNA, with the most common being the formation of pyrimidine dimers, particularly thymine dimers. These dimers occur when adjacent thymine bases bond together, disrupting the normal base pairing and leading to replication errors if not repaired.

Photolyase is a light-dependent enzyme that repairs UV-induced DNA damage, specifically pyrimidine dimers. It utilizes energy from visible light to cleave the bonds between the dimerized bases, restoring the DNA to its original state and allowing normal replication and transcription to occur.

DNA repair mechanisms are essential cellular processes that correct damage to DNA. In addition to photolyase, other repair systems like nucleotide excision repair (NER) and base excision repair (BER) exist, which recognize and remove damaged sections of DNA, followed by synthesis of new DNA to fill the gaps.