STK19 facilitates the clearance of lesion-stalled RNAPII during transcription-coupled DNA repair

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⚙ AI-generated summary by claude@2026-07+body, 2026-07-05 ⓘ

STK19 is identified as a transcription-coupled DNA repair factor that facilitates lesion-stalled RNAPII clearance by associating with the TCR complex and positioning TFIIH ATPase subunits.

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⚙ AI-generated deep summary by claude@2026-07, 2026-07-05 · read from full text ⓘ

This paper investigates transcription-coupled DNA repair (TCR), focusing on how the repair machinery transitions from factor assembly around lesion-stalled RNAPII to the clearance of RNAPII so downstream repair can proceed. Using identification of a new TCR factor, the authors report that loss of STK19 does not alter initial TCR complex assembly or RNAPII ubiquitylation, but it delays the clearance of lesion-stalled RNAPII and disrupts downstream repair. Cryo-EM and mutational analyses show STK19 associates with the TCR complex and sits between RNAPII, UVSSA, and CSA, with modeling suggesting it positions TFIIH ATPase subunits onto DNA in front of RNAPII. The paper does not discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Summary Transcription-coupled DNA repair (TCR) removes bulky DNA lesions impeding RNA polymerase II (RNAPII) transcription. Recent studies have outlined the stepwise assembly of TCR factors CSB, CSA, UVSSA, and TFIIH around lesion-stalled RNAPII. However, the mechanism and factors required for the transition to downstream repair steps, including RNAPII removal to provide repair proteins access to the DNA lesion, remain unclear. Here, we identify STK19 as a new TCR factor facilitating this transition. Loss of STK19 does not impact initial TCR complex assembly or RNAPII ubiquitylation but delays lesion-stalled RNAPII clearance, thereby interfering with the downstream repair reaction. Cryo-EM and mutational analysis reveal that STK19 associates with the TCR complex, positioning itself between RNAPII, UVSSA, and CSA. The structural insights and molecular modeling suggest that STK19 positions the ATPase subunits of TFIIH onto DNA in front of RNAPII. Together, these findings provide new insights into the factors and mechanisms required for TCR.
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Summary Transcription-coupled DNA repair (TCR) removes bulky DNA lesions impeding RNA polymerase II (RNAPII) transcription. Recent studies have outlined the stepwise assembly of TCR factors CSB, CSA, UVSSA, and TFIIH around lesion-stalled RNAPII. However, the mechanism and factors required for the transition to downstream repair steps, including RNAPII removal to provide repair proteins access to the DNA lesion, remain unclear. Here, we identify STK19 as a new TCR factor facilitating this transition. Loss of STK19 does not impact initial TCR complex assembly or RNAPII ubiquitylation but delays lesion-stalled RNAPII clearance, thereby interfering with the downstream repair reaction. Cryo-EM and mutational analysis reveal that STK19 associates with the TCR complex, positioning itself between RNAPII, UVSSA, and CSA. The structural insights and molecular modeling suggest that STK19 positions the ATPase subunits of TFIIH onto DNA in front of RNAPII. Together, these findings provide new insights into the factors and mechanisms required for TCR. Full Text Availability The license terms selected by the author(s) for this preprint version do not permit archiving in PMC. The full text is available from the preprint server.

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europepmc
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