Sezgi Biyiklioglu Kaya scite author profile

Plants depend on light for energy production. However, the UV component in sunlight also inflicts DNA damage, mostly in the form of cyclobutane pyrimidine dimers (CPD) and (6‐4) pyrimidine–pyrimidone photoproducts, which are mutagenic and lethal to the plant cells. These lesions are repaired by blue‐light‐dependent photolyases and the nucleotide excision repair enzymatic systems. Here, we characterize nucleotide excision repair in Arabidopsis thaliana genome‐wide and at single nucleotide resolution with special focus on transcription‐coupled repair and the role of the CSA1 and CSA2 genes/proteins in dictating the efficiency and the strand preference of repair of transcribed genes. We demonstrate that CSA1 is the dominant protein in coupling repair to transcription with minor contribution from CSA2.

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Sezgi Biyiklioglu Kaya

Long Non-coding RNA in Plants in the Era of Reference Sequences

Genome‐wide Excision Repair Map of Cyclobutane Pyrimidine Dimers in Arabidopsis and the Roles of CSA1 and CSA2 Proteins in Transcription‐coupled Repair^†

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Sezgi Biyiklioglu Kaya

Long Non-coding RNA in Plants in the Era of Reference Sequences

Genome‐wide Excision Repair Map of Cyclobutane Pyrimidine Dimers in Arabidopsis and the Roles of CSA1 and CSA2 Proteins in Transcription‐coupled Repair†

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Genome‐wide Excision Repair Map of Cyclobutane Pyrimidine Dimers in Arabidopsis and the Roles of CSA1 and CSA2 Proteins in Transcription‐coupled Repair^†