Epigenetics Podcast13 Tammi 2022

H3K4me3, Set-Proteins, Isw1 and their Role in Transcription (Jane Mellor)

In this episode of the Epigenetics Podcast, we caught up with Jane Mellor from the University of Oxford to talk about her work on H3K4me3, SET proteins, Isw1 and their role in transcription.

Since the beginning of the century, Jane Mellor and her team have focused on H3K4 trimethylation and the factors that influence this mark. They discovered that H3K4me3 is an almost universal mark of the first nucleosome in every transcribed unit and all organisms. She could subsequently, together with the Kouzarides lab, identify SetD1, the enzyme that is responsible for writing this modification. Later on, the team characterized Isw1, a chromatin remodeler which “reads” H3K4me3. More recently the lab focuses on how the polymerase transcribes throughout the first nucleosomes of the transcribed region at the +2 nucleosome, with the help of Spt4.

References

Santos-Rosa, H., Schneider, R., Bannister, A. J., Sherriff, J., Bernstein, B. E., Emre, N. C. T., Schreiber, S. L., Mellor, J., & Kouzarides, T. (2002). Active genes are tri-methylated at K4 of histone H3. Nature, 419(6905), 407–411. https://doi.org/10.1038/nature01080
Morillon, A., O’Sullivan, J., Azad, A., Proudfoot, N., & Mellor, J. (2003). Regulation of Elongating RNA Polymerase II by Forkhead Transcription Factors in Yeast. Science, 300(5618), 492–495. https://doi.org/10.1126/science.1081379
Morillon, A., Karabetsou, N., O’Sullivan, J., Kent, N., Proudfoot, N., & Mellor, J. (2003). Isw1 Chromatin Remodeling ATPase Coordinates Transcription Elongation and Termination by RNA Polymerase II. Cell, 115(4), 425–435. https://doi.org/10.1016/S0092-8674(03)00880-8
Uzun, Ü., Brown, T., Fischl, H., Angel, A., & Mellor, J. (2021). Spt4 facilitates the movement of RNA polymerase II through the +2 nucleosomal barrier. Cell Reports, 36(13), 109755. https://doi.org/10.1016/j.celrep.2021.109755

Related Episodes

Contact

Tämä jakso on lisätty Podme-palveluun avoimen RSS-syötteen kautta eikä se ole Podmen omaa tuotantoa. Siksi jakso saattaa sisältää mainontaa.

Jaksot(175)

Epigenetics and X-inactivation (Edith Heard)

In the seventh Episode of Active Motif's Epigenetics Podcast our host Dr. Stefan Dillinger sat down with Prof. Edith Heard, designated Director General of the European Molecular Biology Laboratory (EM...

21 Marras 201835min

Chromatin Organization (Susan Gasser)

In the sixth Episode of Active Motif's Epigenetics Podcast our host Dr. Stefan Dillinger sits down with Prof. Susan Gasser, director of the Friedrich Miescher Institute in Basel, to talk about her res...

15 Loka 201833min

Epigenomics (Henk Stunnenberg)

In the fifth Episode of the Epigenetics Podcast of Active Motif our host Dr. Stefan Dillinger sits down with Prof. Henk Stunnenberg, full professor and head of the Department of Molecular Biology at t...

12 Syys 201833min

Aging and Epigenetics (Peter Tessarz)

The aging population and challenges that arise from aging are one of the great scientific challenges of this time. In the fourth episode of the Epigenetics Podcast from Active Motif, our host Dr. Stef...

3 Tammi 201830min

Cancer and Epigenetics (David Jones)

Cancer has become one of the most dangerous diseases of the aging population of industrialized countries. Finding tools to fight cancer is hard, because Cancer presents itself as highly heterogeneous,...

31 Loka 201732min

The Nucleosome (Ada and Don Olins)

The Nucleosome is the basic building unit of chromatin. It consists out of 147 base pairs of double stranded DNA wrapped around the Histone core octamer that consists out of 2 copies of each dimer of ...

11 Syys 201734min

Multiple Challenges in ChIP (Adam Blattler)

Chromatin Immunoprecipitation (ChIP) was first developed in Drosophila, where interactions of RNA Pol II with genes were investigated (Mol. Cell. Biol. August 1985 vol. 5 no. 8 2009-2018). Then, in a ...

9 Kesä 201735min