Active Motif's Podcast

In this episode of the Epigenetics Podcast, we caught up with Dr. Ken Zaret, Professor in the Department of Cell and Developmental Biology at the Perelman School of Medicine, University of Pennsylvania, to talk about his work on pioneer transcription factors and their influence on chromatin structure. Embryonic development is a complex process that needs to be tightly regulated. Multiple regulatory factors contribute to proper development, including a family of specialized regulatory proteins called "pioneer factors." Our guest Dr. Ken Zaret found that these pioneer factors are among the first proteins to bind to chromatin during development and that they can prime important regulatory genes for activation at a later developmental stage. Furthermore, he and his team showed that there might be a "pre-pattern" that exists in cells that determines their developmental fate. Pioneer factors are not only important in embryonic development, they can also help restart transcription after mitosis. Dr. Zaret and his

In this episode of the Epigenetics Podcast, we caught up with Dr. Oded Rechavi, Professor at the University of Tel Aviv, to talk about his work on the role of small RNAs in transgenerational inheritance in C. elegans. The most prominent example of transgenerational inheritance is the Dutch famine of 1944 during World War II. Effects of this famine could be observed in the grandchildren of people that lived through this hunger winter, but the molecular mechanisms involved remain largely unknown. The guest of this podcast episode, Dr. Rechavi, has taken on the challenge to unravel parts of this puzzle by studying transgenerational epigenetics in C. elegans. It was already known that small RNA molecules could play a role in passing on information from one generation to the next, but it was not clear what exactly was being inherited. Was it RNAs? Or chromatin modifications? Or something else? Dr. Rechavi made several important discoveries in his journey to answer these questions. He started out by showing that

In this episode of the Epigenetics Podcast, we caught up with Dr. Hodaka Fujii, Professor of Biochemistry and Genome Biology at Hirosaki University Graduate School of Medicine and School of Medicine, to talk about his work on the development of locus-specific ChIP technologies. The goal of conventional chromatin immunoprecipitation (ChIP) assays is to find genomic locations of transcription factor binding or genome-wide profiles of histone tail modifications.  In contrast to that, the guest of this episode, Dr. Fujii, has developed methods such as insertional chromatin immunoprecipitation (iChIP) and engineered DNA-binding molecule-mediated chromatin immunoprecipitation (enChIP) to identify the factors that are binding to specific sites on the genome. In iChIP, LexA binding sites are inserted into the genomic region of interest. In parallel, the DNA-binding domain of LexA, fused with FLAG epitope tags and a nuclear localization signal, is expressed in the same cells. After crosslinking and chromatin prepara

In this episode of the Epigenetics Podcast, we caught up with Geneviève Almouzni, Ph.D., Research Director at the CNRS at Institut Curie in Paris, to talk about her work on the regulation of chromatin organization by histone chaperones. Geneviève Almouzni got her Ph.D. from Université Pierre-et-Marie-Curie in 1988 under the supervision of Marcel Méchali. She then moved to the United States to work as a postdoc in the National Institutes of Health in the laboratory of Professor Alan Wolffe. In 1994, she returned to Paris and became a Junior Group Leader at Institut Curie and became a Group Leader there in 2000. In 2013, she took over the direction of research at the Institut Curie and became the third woman to hold this position, after Marie Curie and Irène Joliot-Curie. Geneviève Almouzni’s research focuses on the assembly of chromatin and the identification of histone chaperones. Histone chaperones are necessary for the establishment and maintenance of chromatin, as they help to assemble the nucleosomes ou

In this episode of the Epigenetics Podcast, we caught up with Dr. Christine Cucinotta and Dr. Melvin Noe Gonzalez to talk about how they brought the #fragilenucleosome seminar series and Discord channel to life.   Christine Cucinotta and Melvin Noe Gonzales are part of the organizing committee of the independent scientific community "Fragile Nucleosome." This community consists of a Discord channel with more than 1,000 members, a biweekly seminar series, a mentoring program, and a journal club series. The Fragile Nucleosome is organized exclusively by early-career scientists, without external sponsors or under the roof of a single graduate program or university.   In this interview, Christine and Melvin share the story on how the Fragile Nucleosome community got started, what has happened so far, and what the future plans are for the #fragilenucleosome.     References #fragilenucleosome on Twitter Fragile Nucleosome Discord Channel Fragile Nucleosome on generegulation.org Christine Cucinotta on Twi

In this episode of the Epigenetics Podcast, we caught up with Professor Isabelle Mansuy, Ph.D., from the University of Zürich and the ETH Zürich, to talk about her work on epigenetic influences on memory formation and inheritance.   Dr. Mansuy received her Ph.D. from the Friedrich Miescher Institute, Basel, Switzerland in 1994. After doing a postdoc at the Center for Neurobiology and Behavior at the Howard Hughes Medical Institute at the Columbia University in New York, she moved to Zürich and became Assistant Professor in Neurobiology at the Department of Biology at the Swiss Federal Institute of Technology in 1998. In 2004 Dr. Mansuy became Professor at the Brain Research Institute of the University Zurich, where, in 2007, she became Managing Director. Since 2013 she has been a full Professor in Neuroepigenetics at the University of Zürich and at the ETH in Zürich.   Dr. Isabelle Mansuy's work centers around the formation of memories and how those memories are inherited. She started to work on memory fo

In this episode of the Epigenetics Podcast, we caught up with Dr. Chuan He, John T. Wilson Distinguished Service Professor at University of Chicago, to talk about his work on the influence of dynamic RNA methylation on gene expression. RNA methylation is an important biological process, and cellular RNA methylation levels can have profound impacts on normal cellular differentiation and cancer cell proliferation. Dr. He received his Ph.D. from MIT in 2000 and went on to do his postdoctoral work at Harvard University. He then became Assistant Professor at the University of Chicago in 2002, was promoted to Associate Professor in 2008, and in 2014 he became the John T. Wilson Distinguished Service Professor at the University of Chicago.  From 2012 to 2017 he was Director of the Institute for Biophysical Dynamics at the University of Chicago. Chuan He's current research focuses on understanding the reversible RNA modification m6A. This modification was discovered in the 1980s, but work from Dr. He's laboratory s

In this episode of the Epigenetics Podcast, we caught up with Dr. Michelle Trenkmann, Senior Editor at Nature. We discussed her work as an editor at Nature and how she contributed to the ENCODE 3 publications, which are the results of the third phase of the ENCODE project. Dr. Trenkmann also talked about how to get your research published in Nature and what it’s like to review high profile scientific articles.   ENCODE References   Immersive ENCODE Website Perspectives on ENCODE   Contact   Active Motif on Twitter Epigenetics Podcast on Twitter Active Motif on Linked-In Active Motif on Facebook eMail: podcast@activemotif.com

In this episode of the Epigenetics Podcast, we caught up with Professor Bill Earnshaw, Wellcome Trust Principal Research Fellow at the University of Edinburgh, to talk about his work on the role of non-histone proteins in chromosome structure and function during mitosis.   In the beginning of Bill Earnshaw's research career little was known about the structure that holds the two individual sister chromatids together. This led to Bill pioneering in the use of autoantibodies for the identification and cloning of key chromosomal proteins. He used serum from a scleroderma patient to identify and clone human centromeric proteins, which paved the way for the molecular characterization of the metazoan kinetochore.   Later the chromosomal passenger complex (CPC) was identifies in his lab using biochemical studies. This complex contains Aurora B kinase plus its targeting and regulatory subunits INCENP, Survivin, and Borealin/Dasra B.    More recently, he teamed up with the laboratories of Job Dekker and Leonid M

In this episode of the Epigenetics Podcast, we caught up with Dr. Dirk Schübeler, Director of the Friedrich Miescher Institute (FMI) in Basel, Switzerland, to talk about his work on the effects of DNA methylation on chromatin structure and transcription.   Dirk Schübeler was born in Germany and started his scientific career in Braunschweig, Germany. After his postdoc at the Fred Hutchinson Cancer Research Center in Seattle, he joined the FMI in 2003 and never left. He was recently appointed as the Director of the FMI in March 2020.   Dirk Schübeler’s research focuses on DNA methylation and its effects on chromatin and transcription. It is widely known that DNA methylation leads to gene silencing, but many of the mechanisms and regulatory factors involved in this process remain understudied. Therefore, Dirk Schübeler and his team set out to characterize the DNA methylation profiles in normal human somatic cells and compare them with the methylation profiles in transformed human cells. More recent work in h

In this episode of the Epigenetics Podcast, we caught up with Sir Adrian Bird, Buchanan Professor of Genetics at the University of Edinburgh to talk about his work on CpG islands, DNA methylation, and the role of DNA methylation in human diseases.   Adrian Bird has been a pioneer in studying the CpG dinucleotide sequence. The CpG dinucleotide is distributed genome-wide and has several properties expected of a genomic signaling module. The influence of CpG signaling on prozesses like development, differentiation, and disease is hardly understood. Adrian Bird's work indicates that proteins that bind methylated CpGs recruit chromatin modifying enzymes to promote gene silencing. On the other hand, proteins that bind unmethylated CpGs lead to the formation of active, open chromatin. These results suggest that CpGs have a gobal effect on genome activity.   In neurons MeCP2 is almost as abundant as histones and is probably one of the best studied Proteins that bind to methyl-CpGs. Children who lack MeCP2 acquire

In this episode of the Epigenetics Podcast, we caught up with Leonid Mirny, Ph.D., from MIT to talk about his work on biophysical modeling of the 3-D structure of chromatin. Leonid Mirny was part of the initial Hi-C paper titled "Comprehensive Mapping of Long-Range Interactions Reveals Folding Principles of the Human Genome" that was published in 2009 in the journal Science. Since then, technology has evolved and Dr. Mirny's group has developed a method called Micro-C that improves the Hi-C protocol by using MNase digestion to increase the resolution to nucleosomal level. This led to the visualization of interactions that were already predicted by his previous biophysical models. Furthermore, Leonid Mirny worked on finding the mechanism by which chromatin loops are formed. He and his team proposed that loop extrusion underlies TAD formation. In this process, factors like cohesin and CTCF form progressively larger loops but stall at TAD boundaries due to interactions of CTCF with TAD boundaries. He used poly

In this episode of the Epigenetics Podcast, we caught up with Karolin Luger, Ph.D., from the University of Colorado in Boulder to talk about her work on solving the crystal structure of the nucleosome and on how histone chaperones like FACT act on chromatin. During her postdoc with Timothy Richmond at the Swiss Federal Institute of Technology in Zürich, Karolin Luger was the first author on an all-time classic paper called "Crystal structure of the nucleosome core particle at 2.8 A resolution" which was published in Nature. This article was published more than 20 years ago now and it has been cited about 9000 times. After completing her postdoc, she moved to Colorado to set up her own lab where she continued to work on the structure of the nucleosome and the factors that influence their structure. The most recent Nature paper published by her lab investigated how the FACT complex promotes both disassembly and reassembly of nucleosomes during gene transcription, DNA replication, and DNA repair.   In this in

In this episode of the Epigenetics Podcast, we caught up with Bing Ren, Ph.D., from the University of California, San Diego and the Ludwig Institute for Cancer Research to talk about his work on identifying functional elements of the genome and higher order genome structure.   Dr. Ren’s lab invented an approach using chromatin immunoprecipitation-based methods for the identification of transcription factor binding sites and chromatin modification status genome-wide. His group  was a major part of the ENCODE Project and the demonstration of this being an effective method for genome-wide mapping of cis-elements, has made their approach very popular among colleagues from the field.   His lab recently discovered Topologically associating domains (TADs), which partition the human genome into a few thousand megabase-sized domains. Interactions occur predominantly within TADs but seldom between them and are surprisingly stable during development and are evolutionarily conserved. This organisatorial pattern helps

In this episode of the Epigenetics Podcast, we caught up with Erez Lieberman Aiden, Ph.D. from Baylor College of Medicine and Rice University in Houston to talk about his work on developing Hi-C and investigating the three-dimensional structure of the genome. He was the first author on a publication in the journal Science titled "Comprehensive Mapping of Long-Range Interactions Reveals Folding Principles of the Human Genome" which was the paper that first introduced the Hi-C method in 2009 and he has continued studying the structure of the chromosome ever since. Erez Lieberman Aiden is currently an Assistant Professor in both the Department of Genetics at the Baylor College of Medicine, where he directs the newly-established Center for Genome Architecture, and in the Department of Computer Science and Computational and Applied Mathematics at Rice University across the street. In this interview, we discuss the road that Erez Lieberman Aiden went down to optimize the Hi-C protocol, the hurdles he had to over

In this episode of the Epigenetics Podcast, we caught up with Professor Tom Moss from Université Laval in Québec City, Canada to talk about his work on the chromatin structure and dynamics at ribosomal RNA genes. Dr. Tom Moss has been a member of the Department of Molecular Biology, Medical Biochemistry, and Pathology at the Laval University School of Medicine since he was recruited from the University of Portsmouth in the United Kingdom in 1986. Since then he focused on the ribosomal transcription factor Upstream Binding Factor (UBF) and how it regulates the chromatin structure at ribosomal RNA genes (rDNA). UBF binds to the rDNA as a dimer where it leads to six in-phase bends and induces the formation of the ribosomal enhanceosome. This enhanceosome is required for the initial step in formation of an RNA polymerase I initiation complex, and therefore plays an important role in regulating the expression of ribosomal RNA genes. In this Interview, we discuss the function of UBF on the rDNA, how UBF impacts

In this episode of the Epigenetics Podcast, we caught up with Dr. Andrew Pospisilik from the Van Andel Institute in Grand Rapids, Michigan to talk about his work on the epigenetic origins of heterogeneity and disease. Dr. Andrew Pospisilik worked at the Max-Planck Institute of Immunobiology and Epigenetics in Freiburg for 8 years and in 2018 he joined the Van Andel Institute as the director of its Center for Epigenetics. At the Van Andel Institute his research focuses on diabetes, neurodegenerative diseases, cancer, and obesity. The goal of the Pospisilik laboratory is to better understand epigenetic mechanisms of these diseases and the roles of epigenetics in disease susceptibility and heterogeneity.   These areas of medicine are among the most important public health challenges, with the latest estimates suggesting that they impact more than 1 billion people worldwide. Although these diverse conditions are all very different, they are now thought to be caused, at least partially, from alterations in the

In this episode of the Epigenetics Podcast, we caught up with Karol Bomsztyk M.D. and Tom Matula, Ph.D. from the University of Washington and Matchstick Technologies, to talk about their work on DNA and chromatin sonication. During his career, Karol's research has focused on improving ChIP protocols to make them faster, easier and higher throughput. First, to make ChIP assays faster, Karol and his lab developed "Fast-ChIP". More recently, he adjusted this protocol to improve throughput and "Matrix-ChIP" was born. Tom is an expert in the field of ultrasound and cavitation and the Director of the Center for Industrial and Medical Ultrasound at the University of Washington. To further improve and speed up the 96-well "Matrix-ChIP" protocol, Karol and Tom teamed up to found Matchstick Technologies and develop a sonication device that would be able to processes each and every well of a 96-well microplate consistently and quickly. The result of this cooperation is the PIXUL Multi-Sample Sonicator that is now avai

In this episode of the Epigenetics Podcast, we sat down with Marcus Buschbeck, Group Leader at the Josep Carreras Leukaemia Research Institute in Barcelona, to talk about his work on the histone variant macroH2A, its role in metabolism and how it contributes to the regulation of chromatin structure.   Histone variants equip chromatin with unique properties and show a specific genomic distribution. The histone variant macroH2A is unique in having a tripartite structure consisting of a N-terminal histone-fold, an intrinsically unstructured linker domain and a C-terminal macro domain. Recent discoveries show that macroH2A proteins have a major role in the nuclear organization which has the potential to explain how these proteins can act as tumor suppressors, promoters of differentiation and barriers to somatic cell reprogramming.   We discuss these topics, the mission of the Josep Carreras Leukaemia Research Institute, and much more in this episode.    References http://www.carrerasresearch.org/Buschbeck_

In this Episode we sat down with Shelley Berger, Keynote Speaker at the "EMBO | EMBL Symposium: Metabolism Meets Epigenetics" to talk about her work on Epigenetic Mechanisms of Aging and Longevity. On how cytoplasmic chromatin fragments are involved in these processes, how alcohol has an effect on Histone PTMs in the brain and last but not least how Ants became her favorite Model Organism. References Hazel A. Cruickshanks, Tony McBryan, … Peter D. Adams (2013) Senescent cells harbour features of the cancer epigenome (Nature Cell Biology) DOI: 10.1038/ncb2879 Zhixun Dou, Kanad Ghosh, … Shelley L. Berger (2017) Cytoplasmic chromatin triggers inflammation in senescence and cancer (Nature) DOI: 10.1038/nature24050  Hua Yan, Comzit Opachaloemphan, … Claude Desplan (2017) An Engineered orco Mutation Produces Aberrant Social Behavior and Defective Neural Development in Ants (Cell) DOI: 10.1016/j.cell.2017.06.051  P. Mews, G. Egervari, … S. L. Berger (2019) Alcohol metabolism contributes to brain histone acetyl