Podcasts Other Epigenetics Podcast Inheritance of Transcriptional Memory by Mitotic Bookmarking (Sheila Teves)

Inheritance of Transcriptional Memory by Mitotic Bookmarking (Sheila Teves)

Published: Oct. 19, 2023, 7:01 a.m.

b'In this episode of the Epigenetics Podcast, we caught up with Sheila Teves from the University of British Columbia to talk about her work on the inheritance of transcriptional memory by mitotic bookmarking.\\nEarly in her research career, Sheila Teves focused on the impact of nucleosomes on torsional stress and gene regulation. She also highlights the development of a genome-wide approach to measure torsional stress and its relationship to nucleosome dynamics and RNA polymerase regulation.\\nThe conversation then shifts to her focus on transcriptional memory and mitotic bookmarking during her postdoc in the Tijan lab. She explores the concept of mitotic bookmarking, whereby certain transcription factors remain bound to their target sites during mitosis, facilitating efficient reactivation of transcription after cell division. She discusses her findings on the behavior of transcription factors on mitotic chromosomes, challenging the notion that they are excluded during mitosis. She also discusses the differences in binding behavior between the general transcription factor TBP and other transcription factors. Finally, the effect of formaldehyde fixation on the potential to find transcription factors bound to mitotic chromosomes is discussed.\\n\\xa0\\nReferences\\n\\nTeves, S., Henikoff, S. Transcription-generated torsional stress destabilizes nucleosomes. Nat Struct Mol Biol 21, 88\\u201394 (2014). https://doi.org/10.1038/nsmb.2723\\n\\n\\nSheila S Teves, Luye An, Anders S Hansen, Liangqi Xie, Xavier Darzacq, Robert Tjian (2016) A dynamic mode of mitotic bookmarking by transcription factors eLife 5:e22280. https://doi.org/10.7554/eLife.22280\\n\\n\\nSheila S Teves, Luye An, Aarohi Bhargava-Shah, Liangqi Xie, Xavier Darzacq, Robert Tjian (2018) A stable mode of bookmarking by TBP recruits RNA polymerase II to mitotic chromosomes eLife 7:e35621. https://doi.org/10.7554/eLife.35621\\n\\n\\nKwan, J. Z. J., Nguyen, T. F., Uzozie, A. C., Budzynski, M. A., Cui, J., Lee, J. M. C., Van Petegem, F., Lange, P. F., & Teves, S. S. (2023). RNA Polymerase II transcription independent of TBP in murine embryonic stem cells. eLife, 12, e83810. https://doi.org/10.7554/eLife.83810\\n\\n\\nPrice, R. M., Budzy\\u0144ski, M. A., Shen, J., Mitchell, J. E., Kwan, J. Z. J., & Teves, S. S. (2023). Heat shock transcription factors demonstrate a distinct mode of interaction with mitotic chromosomes. Nucleic acids research, 51(10), 5040\\u20135055. https://doi.org/10.1093/nar/gkad304\\n\\xa0\\n\\nRelated Episodes\\n\\nIn Vivo Nucleosome Structure and Dynamics (Srinivas Ramachandran)\\n\\n\\nFrom Nucleosome Structure to Function (Karolin Luger)\\n\\n\\nStructural Analysis of Nucleosomes During Transcription (Lucas Farnung)\\n\\n\\xa0\\nContact\\n\\nEpigenetics Podcast on Twitter\\n\\n\\nEpigenetics Podcast on Instagram\\n\\n\\nEpigenetics Podcast on Mastodon\\n\\n\\nActive Motif on Twitter\\n\\n\\nActive Motif on LinkedIn\\n\\n\\nEmail: podcast@activemotif.com'