Leiden University Scholarly Publications

Kollenstart, L. (2022)

Identifying and characterizing regulators of histone acylation and replication stress

Doctoral Thesis

To advance our understanding of the histone acylation regulators and the response to DNA replication stress, we employ a variety of genetic screening techniques together with follow-up experiments in yeast. By employing Epi-ID, we interrogated a common chromatin locus in the yeast deletion and DaMP collection. This was successful in identifying new histone acetylation and acylation regulators and we describe the crotonyltransferase activities of the ADA and NuA4 complexes. Increased crotonylation levels stimulated gene expression dependent on the activity of the HATs Gcn5 and Esa1, suggesting a role for these enzymes in the crotonylation-dependent transcriptional regulation. Additionally, extensive antibody validation studies revealed that non-acetyl pan-lysine specific acylation antibodies had a severe lack of specificity.
To identify new regulators of replication stress, we developed a novel approach called Replication-Identifier (Repli-ID), which we used to investigate the...Show moreTo advance our understanding of the histone acylation regulators and the response to DNA replication stress, we employ a variety of genetic screening techniques together with follow-up experiments in yeast. By employing Epi-ID, we interrogated a common chromatin locus in the yeast deletion and DaMP collection. This was successful in identifying new histone acetylation and acylation regulators and we describe the crotonyltransferase activities of the ADA and NuA4 complexes. Increased crotonylation levels stimulated gene expression dependent on the activity of the HATs Gcn5 and Esa1, suggesting a role for these enzymes in the crotonylation-dependent transcriptional regulation. Additionally, extensive antibody validation studies revealed that non-acetyl pan-lysine specific acylation antibodies had a severe lack of specificity.
To identify new regulators of replication stress, we developed a novel approach called Replication-Identifier (Repli-ID), which we used to investigate the accumulation of replicative polymerase ε near a barcoded origin of replication in mutant yeast collections. We demonstrate that this method is effective for studying DNA polymerase occupancy directly on chromatin and we identify new regulators of DNA replication fork progression/stability.
Finally, we identify and characterize the Mediator complex in the replication stress response. We show how Mediator reduces replication stress by preventing R-loop formation.
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Epigenetics

Histone modification

Gene transcription

Post-translational modification (PTM)

Chromatin modification

Crotonylation

Butyrylation

Replication stress

Mediator complex

Epi-ID

Repli-ID

All authors

Kollenstart, L.

Supervisor

Attikum, H. van

Co-supervisor

Maarel, S.M. van der

Committee

Dekker, N.H.; Hooykaas, P.J.J.; Leeuwen, F. van; Taneja, N.

Qualification

Doctor (dr.)

Awarding Institution

Faculty of Medicine, Leiden University Medical Center (LUMC), Leiden University

Date

2022-09-08

ISBN (print)

9789464584660