Active Motif's Podcast

In this episode of the Epigenetics Podcast, we talked with Mitch Guttman from Caltec about ChIP-DIP (ChIP-Done In Parallel). ChIP-DIP is a newly developed approach for high-resolution protein–DNA interaction mapping. The method uses antibody-guided isolation of denaturant-insoluble protein–DNA complexes, resulting in substantially improved specificity and peak definition compared with conventional ChIP-seq. We explore why denaturation resistance is central to the workflow, how the method performs across transcription factors, chromatin regulators, and histone marks, and what experimental parameters determine its success. The conversation also covers current limitations, practical adoption details, and perspectives on how ChIP-DIP fits into the broader landscape of chromatin profiling technologies. References Perez, A. A., Goronzy, I. N., Blanco, M. R., Yeh, B. T., Guo, J. K., Lopes, C. S., Ettlin, O., Burr, A., & Guttman, M. (2024). ChIP-DIP maps binding of hundreds of proteins to DNA simultaneously and

In this episode of the Epigenetics Podcast, we talked with Fides Zenk from the École polytechnique fédérale de Lausanne about her work on transgenerational inheritance in Drosophila and brain organoids for human development insights. Dr. Zenk begins by sharing her journey into the field of biology, revealing her childhood fascination with nature and the intricate details of plant development. Her transition from an interest in ecology to a deep dive into molecular biology and gene regulation lays the groundwork for understanding her current research focus. We explore how her early experiences continue to shape her scientific curiosity, particularly her passion for studying cellular changes over time during embryonic development. As the conversation progresses, Dr. Zenk paints a vivid picture of her work at EPFL, where she combines functional genomics, chromatin profiling, and molecular biology techniques. She elaborates on her initial research during her PhD with Nicola Iovino, where she investigated the tra

In this episode of the Epigenetics Podcast, we talked with Anders Sejr Hansen from MIT about his work on the impact of 3D genome structures on gene expression, the roles of proteins like CTCF and cohesin, and advanced techniques like Region Capture Micro-C for mapping genome organisation. Dr. Sejr Hansen introduces his research focusing on the relationship between three-dimensional genome structure and function, specifically how these structures can influence gene expression. He elaborates on the importance of transcription factors and the role of looping structures in gene regulation, emphasizing the implications of his work for understanding gene functionality in the context of both development and disease. The conversation then shifts to discussing loop extrusion and the factors affecting loop stability, primarily CTCF and cohesin. Dr. Sejr Hansen highlights the dynamics of these proteins' binding interactions and how their speeds challenge the notion of stable looping structures in the genome. With a keen

In this episode of the Epigenetics Podcast, we talked with Vincent Pasque from KU Leuven about his work on the reprogramming of cell identity through epigenetic mechanisms, particularly during early development and cellular reprogramming. We begin by tracing Vincent's journey into biology, sparked by early childhood experiences in nature and meaningful encounters with inspiring teachers. His fascination with the complexities of biology crystallized during a pivotal moment while listening to a radio segment on epigenetics in the late '90s, which led him to pursue studies in genetics and biochemistry. This formative path brought him to leading institutions, including the prestigious lab of John Gurdon, where he explored the phenomenon of nuclear reprogramming. Vincent recounts his early experiments that led to the discovery of macro H2A as a barrier to reprogramming, emphasizing the core challenge of erasing somatic cell identity. As the conversation unfolds, Vincent introduces us to critical findings from his

In this episode of the Epigenetics Podcast, we talked with Ryan Corces from the Gladstone Institutes about his work on the impact of chromatin architecture on Alzheimer's and Parkinson's Disease. The discussion begins in discussing he start of Dr. Corces research career and he shares his groundbreaking findings in acute myeloid leukemia (AML), demonstrating how mutations occurring in hematopoietic stem cells lead to the evolution of this disease. He emphasizes the pivotal role of epigenetic modifiers and how these insights steered his focus towards epigenetic research. As the conversation progresses, Dr. Corces covers his transition to a postdoctoral role, emphasizing his collaborative work employing the ATAC-seq technique. He details how refinements to this protocol not only improved data quality but also paved the way for more expansive research within the fields of hematology and cancer genetics. Additionally, he discusses his excitement for developing new computational tools for single-cell analysis, aim

In this episode of the Epigenetics Podcast, we talked with Mo Motamedi from the Center for Cancer Research at Massachusetts General Hospital about his work on RNA-mediated epigenetic regulation. The Interview starts with Dr. Motamedi sharing his personal journey into the realm of biology, sparked by a familial inclination towards science and a challenge to excel in a field that initially felt daunting. His passion was ignited during a genetics class, as he recognized the quantitative nature of the discipline amidst the evolution of modern techniques like qPCR and high-throughput sequencing. Dr. Motamedi goes on to articulate the importance of understanding the interplay between genetics and broader biological systems, emphasizing that an insightful grasp of evolution is vital for decoding cellular mechanisms. He reflects on his time in a postdoctoral lab under Danish Moazet, investigating RNA interference (RNAi) and its unexpected nuclear roles, contributing significantly to the understanding of how RNAi is

In this episode of the Epigenetics Podcast, we talked with Emily Wong from the University of New South Wales in Sydney about her work on how evolution shapes mammalian genes. As the head of the Regulatory Systems Lab at the Victor Chang Cardiac Research Institute and an associate professor at UNSW, Emily’s research centers on gene control and enhancers. We delve into her pivotal 2017 publication in Nature Communications, where she investigated transcription factor binding in liver-specific contexts, shedding light on the regulatory mechanisms at play in mammals. Emily elaborates on her postdoctoral work at the European Bioinformatics Institute and the innovative hybrid systems she used to dissect genetic variation effects, which allowed her to differentiate between cis-regulatory and trans-regulatory influences. By employing techniques like ChIP-seq, she was able to illustrate the combinatorial effects of transcription factors on gene expression, paving the way for her collaborative efforts across disciplines

In this episode of the Epigenetics Podcast, we talked with Arnau Sebé-Pedrós from the Center for Genomic Regulation in Barcelona about his work on chromatin evolution. The Interview starts by examining specific research findings, including his seminal 2018 paper demonstrating whole-organism single-cell transcriptomics to map larval and adult cell types in the model organism Nematostella vectensis. Dr. Sebe-Pedros recounted the challenges and triumphs faced when delving into single-cell studies of non-model organisms, revealing the innovative strategies employed in the lab to overcome these hurdles. Shifting gears, we touched upon his work comparing cell types and molecular pathways in reef-building corals through single-cell RNA sequencing, contributing to our understanding of evolutionary conservation and divergence within the cnidarian lineage. We discussed how this comparative approach not only adds to knowledge about coral biology but also enhances methodological frameworks in ecological studies. In addit

In this episode of the Epigenetics Podcast, we talked with Luca Magnani from Institute of Cancer Research and UNIMI in Milan about his work on epigenetic mechanisms of drug resistance and cancer cell dormancy in breast cancer. We start the interview by putting our focus on his significant contributions to the understanding of estrogen receptor-positive breast cancer. In a foundational study from 2013, Professor Magnani and his colleagues illuminated the role of genome-wide reprogramming of the chromatin landscape in conferring resistance to endocrine therapy. This research marked a departure from a purely genetic mutation paradigm, proposing instead that epigenetic modifications play a pivotal role in the development of drug resistance. A fascinating part of our conversation centers on the role of pioneer transcription factors, particularly PBX1, in regulating the estrogen receptor's transcriptional response. Professor Magnani explains how PBX1, typically associated with hematopoietic development, influences

In this episode of the Epigenetics Podcast, we talked with Erica Korb from the University of Pennsylvania about her work on BRD4 and the histone variant H2BE, which influences synaptic genes and neuronal activity. Dr. Korb discusses the focus of her lab, which centers on epigenetic mechanisms impacting gene regulation in neurons. Her research primarily examines histone biology and its connection to neurodevelopmental disorders, including autism spectrum disorder and intellectual disabilities. Dr. Korb expounds on the collaborative environment at UPenn’s Epigenetics Institute, emphasizing how the rich diversity of research topics fosters innovative ideas and projects within the community. Reflecting on her earlier work from her postdoctoral studies, Dr. Korb discusses her first significant findings regarding the protein BRD4. This work demonstrated BRD4's role in mediating transcriptional regulation crucial for learning and memory processes. She explains how disrupting this protein's function in neurons hinder

In this episode of the Epigenetics Podcast, we talked with Dr. Joseph Ecker from the Salk Institute about his work on high-resolution genome-wide mapping technologies, specifically how the regulation of gene expression is influenced by DNA methylation, chromatin accessibility, and non-coding RNAs across various cell types and developmental stages. During our conversation, we delve into Dr. Ecker's contributions to the characterization of the genome of Arabidopsis thaliana, a project pivotal in the plant genomics field, where he collaborated on the early sequencing efforts that dramatically outpaced expectations. He highlights the technological advancements that enabled such efficient sequencing and how this foundational work opened new avenues for exploring transcriptional activity. We also discuss Dr. Ecker’s pivotal work on the comprehensive DNA methylation map of Arabidopsis, which he developed in collaboration with other researchers. This groundbreaking study established the links between methylation patt

In this episode of the Epigenetics Podcast, we talked with Sarah Teichmann from the University of Cambridge about the Human Cell Atlas. In the Interview we explore Sarah Teichmann's impressive career trajectory, covering her current role as Chair of Stem Cell Medicine at the Cambridge Stem Cell Institute and Vice President of Translational Research at GlaxoSmithKline. Professor Teichmann explains her unique dual appointments, a rare arrangement that allows her to bridge academia and industry effectively. As the conversation shifts focus to computational biology, she takes us on a historical journey from her PhD work at the MRC Laboratory of Molecular Biology to the present advancements driven by next-generation sequencing and artificial intelligence methods. Professor Teichmann emphasizes that the landscape of biological research has evolved significantly, particularly in the realm of data-driven methodologies. The conversation then transitions seamlessly into her pivotal role in advancing single-cell genomic

In this episode, Professor Asim Surani, shares how his extensive research has significantly advanced the understanding of how the mammalian germline is specified, the mechanisms governing epigenetic reprogramming, and the critical conditions that maintain genomic integrity during early development. The discussion, led by Dr. Stefan Dillinger, provides an overview of Surani's journey into biology, the evolution of his research interests, and the pivotal discoveries that have shaped the field of epigenetics. Dr. Surani discusses the groundbreaking experiment he co-conducted in 1984 that led to the discovery of genomic imprinting. Initially a student involved in in vitro fertilization at Cambridge, he became intrigued by the implications of parthenogenesis in mammals. Challenging the prevailing cytoplasmic theory of development, Surani and his collaborators demonstrated that normal mammalian development requires contributions from both parental genomes, leading to the introduction of the concept of genomic impri

In this episode of the Epigenetics Podcast, we talked with Petra Hajkova from the MRC Laboratory of Medical Sciences about her work on epigenetics research on mammalian development, highlighting DNA methylation, histone modifications, and TET enzymes, along with her journey in molecular genetics and future research on epigenetic maintenance. Dr. Hajkova's early work focused on DNA methylation and resulted in innovative collaboration that allowed her to develop bisulfide sequencing techniques. We discuss her transition to the UK, where she began working in Azim Surani's lab at the University of Cambridge. Dr. Hajkova describes the excitement of researching chromatin dynamics in the mouse germline, leading to significant findings published in Nature. Her story highlights the intense yet rewarding nature of postdoctoral research as she navigated the complexities of working with embryos for the first time. As her research progressed, Dr. Hajkova established her own lab at the MRC London Institute of Medical Scien

In this episode of the Epigenetics Podcast, we talked with Ani Deshpande from Sanford Burnham Prebys about his work on epigenetic regulation and developing small molecules through high throughput screens for AML. Throughout our discussion, we delve into Dr. Despande's journey into the field of biology and science, tracing his evolution from a literature enthusiast in Mumbai to a dedicated cancer researcher. He reflects on his formative experiences during his PhD at Ludwig Maximilian University in Munich, where she developed murine models for refractory acute myeloid leukemia (AML). We examine these models' contributions to therapeutic discovery and understanding the intricate mechanisms underscoring AML's complexities. Transitioning to his postdoctoral work at Scott Armstrong's lab in Boston, Dr. Despande shares his insights on the importance of epigenetic regulators, such as DOT1L, in leukemias, and how they can serve as strategic therapeutic targets. His ambitious pursuit of translational research is furthe

In this episode Dr. Raffaele Teperino shares insights from his ongoing research focused on developmental programming, particularly how paternal health before conception influences not only offspring health but also maternal health outcomes. As we trace his academic journey from studying biotechnology and pharmacology to leading his own lab, Dr. Teperino reflects on his early fascination with medicine, the pivotal experiences that shaped his career, and the integration of epigenetics into understanding metabolic diseases. We discuss the nuances of epigenetics—going beyond simple chromatin biology to examine its wider implications on phenotypic variation. Dr. Teperino emphasizes his approach of modeling relevant physiological phenomena in the lab to better understand the underlying mechanisms driving conditions like obesity and metabolic disruption. A particular focus is placed on his experiences during his postdoctoral years, where he investigated the developmental pathways of hedgehog signaling and its metabo

In this episode of the Epigenetics Podcast, we talked with Dr. Frank Johannes from the Technical University of Munich in Freising about his work on evolutionary clocks and epigenetic inheritance in plants. In this episode we discuss Dr. Johannes pursuits in understanding how heritable epigenetic variations, particularly through DNA methylation, affect phenotypic diversity in plants. He shared insights about groundbreaking research initiatives he has led, including one of the first population epigenetic studies in plants that effectively linked heritable DNA methylation changes to critical traits like flowering time and root length. This work underscored the importance of epigenetic factors that extend beyond traditional genetic sequences, illustrating a significant shift in how we comprehend inheritance and trait variation in organisms. As we dug deeper into the science, we examined Dr. Johannes's innovative approaches to studying chromatin-based mechanisms of genome regulation, allowing for a nuanced underst

In this episode of the Epigenetics Podcast, we talked with Boyan Bonev from the HelmholtzZetrum in Munich about his work on neuroepigenetics, focusing on gene regulation, chromatin architecture, and primate epigenome evolution, This Episode focuses on Dr. Bonev’s recent research, particularly focusing on how chromatin architecture and gene regulation influence neural cell identity and function. He discusses his work investigating transcriptional activity in relation to chromatin insulation, highlighting a critical finding that induced expression of genes does not necessarily lead to chromatin insulation—a point that complicates prior assumptions about the relationship between gene expression and chromatin organization. This study aimed to determine the causal versus correlative aspects of chromatin architecture in brain development and links it to developmental processes and neurodevelopmental disorders. Building on his findings in gene regulation, Dr. Bonev elaborates on a significant study he conducted in h

In this episode of the Epigenetics Podcast, we talked with Dr. Eva Hörmanseder from the HelmholtzZentrum in Munich about her work on epigenetic mechanisms in cellular memory and gene regulation. In this episode, we delve into the fascinating world of cellular memory and gene regulation with Dr. Eva Hermanns-Eder from the Helmholtz Zentrum in Munich. Her research centers on how cells maintain their identity through the process of mitotic divisions, which is crucial for understanding both development and various diseases. We explore the role of chromatin dynamics and epigenetic modifications in switching genes on and off over time, which has significant implications for fields like cancer biology and regenerative medicine. The discussion starts with Dr. Hörmanseder's recent studies on epigenetic memories, particularly focusing on the concept of transcriptional memory in nuclear transfer embryos. She explains her work with H3K4 trimethylation, a crucial epigenetic mark associated with active transcription states

In this episode of the Epigenetics Podcast, we talked with Viviana Risca from Rockefeller University about her work on RICC-Seq and how it's used to probe DNA-DNA contacts in intact or fixed cells using ionizing radiation. This Interview covers Dr. Viviana Risca's cutting-edge methodologies, such as RICC-seq, which enables high-resolution analysis of chromatin structures without traditional cross-linking biases. We engage in a detailed discussion about how different techniques, such as RICC-seq and Micro-C, complement each other to provide robust insights into nucleosome interactions and chromatin dynamics. Dr. Risca articulates the challenges and innovations within her lab as it navigates through the complexities of chromatin mapping. The episode takes an exciting turn toward traversing the landscape of her future research directions, particularly studying the role of linker histones and other chromatin architectural proteins in regulating gene expression. Dr. Risca emphasizes the importance of understanding