EMBL Seminars

At EMBL, experts from institutes throughout the world speak on a wide range of scientific and technical topics

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7 February 2025, 16:00

Engineering of Photoxenases: Photocontrol of Enzymes with Unnatural Amino Acids

7 February 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Andrea Hupfeld, University of Regensburg, Germany, Germany
Host: Matthias Wilmanns, EMBL Hamburg Unit

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


20 February 2025, 14:30

Understanding the emergence of microbial collective behaviors: working toward linking signaling to behaviors

20 February 20252025External Faculty SpeakerEMBL Heidelberg

AbstractGroups of cells of all kinds work together as part of multicellular behaviors ranging from collective migration to development These behaviors are coordinated at the level of single cells where information about other cells and the environment are encoded in intracellular signaling dynamics that then drive cellular and multicellular level behaviors Understanding how these complex... AbstractGroups of cells of all kinds work together as part of multicellular behaviors ranging from collective migration to development. These behaviors are coordinated at the level of single cells, where information about other cells and the environment are encoded in intracellular signaling dynamics that then drive cellular and multicellular-level behaviors. Understanding how these complex behaviors are coordinated in nature is challenging because natural environments perturb signaling and behaviors but make it difficult to visualize behaviors. To identify how natural environments shape multicellular coordination and thus behaviors, we have designed a naturalistic soil model environment where we can visualize how cells interact with environments to affect collective outcomes. We focus on a cellular slime mold, Dictyostelium discoideum, that uses a biochemical environmental signal during...

Speaker(s): Allyson Sgro, Boston University College of Engineering, USA
Host: Jordi van Gestel

Place: Large Operon

External Faculty Speaker

EMBL Heidelberg

Additional information

Abstract


Groups of cells of all kinds work together as part of multicellular behaviors ranging from collective migration to development. These behaviors are coordinated at the level of single cells, where information about other cells and the environment are encoded in intracellular signaling dynamics that then drive cellular and multicellular-level behaviors. Understanding how these complex behaviors are coordinated in nature is challenging because natural environments perturb signaling and behaviors but make it difficult to visualize behaviors. To identify how natural environments shape multicellular coordination and thus behaviors, we have designed a naturalistic soil model environment where we can visualize how cells interact with environments to affect collective outcomes. We focus on a cellular slime mold, Dictyostelium discoideum, that uses a biochemical environmental signal during starvation to coordinate aggregation into multicellular groups for continued survival. Our current findings suggest that the single-cell and population-wide signaling dynamics that coordinate development are robust in highly complex, three-dimensional environments, and that there are also other important cellular properties driving new behaviors we do not yet fully understand required for success in nature.


21 February 2025, 11:00

To be announced

21 February 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Paola Palanza, Università di Parma, Italy
Host: Cornelius Gross

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


25 February 2025, 11:00

Cortical integration of body posture and the vibrissae in freely exploring rats

25 February 20252025External Faculty SpeakerEMBL Rome

AbstractNervous systems continually integrate sensory and motor signals to coordinate behaviour whether to enable controlled flight in an insect or a monkey plucking up a grain of food To better understand the neural mechanisms that support movement coordination in cortex my lab studies the neural representation of body posture in freely moving rats To this end we developed methods to... AbstractNervous systems continually integrate sensory and motor signals to coordinate behaviour, whether to enable controlled flight in an insect or a monkey plucking up a grain of food. To better understand the neural mechanisms that support movement coordination in cortex, my lab studies the neural representation of body posture in freely moving rats. To this end, we developed methods to integrate 3D motion capture with high-density neural recordings to visualize neural spiking in relation to 3D pose dynamics, which revealed dense coding of head and back kinematics in posterior parietal cortex (PPC) and secondary motor cortices. Follow-up work showed that posture and movement signals were widespread among primary sensory and motor cortices, including auditory, visual and somatosensory areas. This ubiquity of kinematic tuning prompted us to expand our framework to include head-mounted...

Speaker(s): Jonathan Whitlock, Norwegian University of Science and Technology, Norway
Host: Santiago Rompani

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome

Additional information

Abstract
Nervous systems continually integrate sensory and motor signals to coordinate behaviour, whether to enable controlled flight in an insect or a monkey plucking up a grain of food. To better understand the neural mechanisms that support movement coordination in cortex, my lab studies the neural representation of body posture in freely moving rats. To this end, we developed methods to integrate 3D motion capture with high-density neural recordings to visualize neural spiking in relation to 3D pose dynamics, which revealed dense coding of head and back kinematics in posterior parietal cortex (PPC) and secondary motor cortices. Follow-up work showed that posture and movement signals were widespread among primary sensory and motor cortices, including auditory, visual and somatosensory areas. This ubiquity of kinematic tuning prompted us to expand our framework to include head-mounted high speed (200 FPS) tracking of the whiskers and eyes, to ask how sensory (vibrissal) deployment integrates with head kinematics and whole-body movement. This approach was combined with Neuropixels recordings spanning the PPC and neighboring S1 barrel fields. Ongoing work indicates that single neurons in S1 and the PPC alike conjunctively encode whisker posture and head kinematics, and that this can be further gated by locomotion. Our observations indicate that whisker deployment and head movements are fully interwoven during naturalistic behavior, which is reflected in cortical coding in both primary and associative areas


28 February 2025, 13:00

To be announced

28 February 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Imke Greving, Institute of Materials Physics Helmholtz-Zentrum Hereon, Germany
Host: Elizabeth Duke, EMBL Hamburg Unit, Germany

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


5 March 2025, 11:00

Epigenetics: from human pluripotent stem cell models of neurodegenerative diseases to recent human evolution

5 March 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Eran Meshorer, Hebrew University of Jerusalem (HUJI) - Department of Genetics, Israel
Host: Jamie Hackett

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


7 March 2025, 13:00

Decoding Molecular Plasticity in the Dark Proteome

7 March 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Edward Lemke, University of Mainz, Germany
Host: Matthias Wilmanns, EMBL Hamburg Unit

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


11 April 2025, 11:00

To be announced

11 April 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Kim Remans, EMBL Heidelberg, Germany
Host: Mathieu Boulard

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


25 April 2025, 13:00

To be announced

25 April 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Roy Beck- Barkai, University of Tel Aviv, Israel
Host: Meytal Landau

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


9 May 2025, 11:00

To be announced

9 May 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Daniel Kerschensteiner, Washington University School of Medicine, USA
Host: Santiago Rompani

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


15 May 2025, 14:30

tba

15 May 20252025External Faculty SpeakerEMBL Heidelberg

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Speaker(s): Michel Milinkovitch, University of Geneva, Switzerland
Host: Aissam Ikmi

Place: Large Operon

External Faculty Speaker

EMBL Heidelberg


13 June 2025, 13:00

To be announced

13 June 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Roland Riek, ETH Zurich Department of Chemistry and Applied Biosciences, Switzerland
Host: Meytal Landau

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


4 July 2025, 11:00

To be announced

4 July 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Jonathan Weissman, Massachusetts Institute of Technology (MIT), USA

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


25 July 2025, 11:00

Decoding the transcription circuitry when the life begins

25 July 20252025EMBL Distinguished Visitor LectureEMBL Rome

AbstractDrastic epigenetic reprogramming occurs during mammalian early embryogenesis Deciphering the molecular events underlying these processes is crucial for understanding how epigenetic information is transmitted between generations and how life really begins Probing these questions was previously hindered by the scarce experimental materials that are available in early development By... AbstractDrastic epigenetic reprogramming occurs during mammalian early embryogenesis. Deciphering the molecular events underlying these processes is crucial for understanding how epigenetic information is transmitted between generations and how life really begins. Probing these questions was previously hindered by the scarce experimental materials that are available in early development. By developing a set of ultra-sensitive chromatin analysis technologies, we investigated chromatin reprogramming during early mouse development for chromatin accessibility, histone modifications, and 3D architecture. These studies unveiled highly dynamic and non-canonical chromatin regulation during maternal-to-zygotic transition and zygotic genome activation (ZGA). However, how ZGA is kickstarted and how the early development program is progressively driven by transcription factors (TFs) remain...

Speaker(s): Wei Xie, School of Life Sciences, Tsinghua University,, China
Host: Ana Boskovic

Place: Conf Room/Building 14

EMBL Distinguished Visitor Lecture

EMBL Rome

Additional information

Abstract
Drastic epigenetic reprogramming occurs during mammalian early embryogenesis. Deciphering the molecular events underlying these processes is crucial for understanding how epigenetic information is transmitted between generations and how life really begins. Probing these questions was previously hindered by the scarce experimental materials that are available in early development. By developing a set of ultra-sensitive chromatin analysis technologies, we investigated chromatin reprogramming during early mouse development for chromatin accessibility, histone modifications, and 3D architecture. These studies unveiled highly dynamic and non-canonical chromatin regulation during maternal-to-zygotic transition and zygotic genome activation (ZGA). However, how ZGA is kickstarted and how the early development program is progressively driven by transcription factors (TFs) remain enigmatic. Recently, we identified key TFs that act at the onset of ZGA, and those that connect ZGA to the first cell fate commitment. In this talk, I will discuss how TFs and epigenetic factors cooperatively establish embryonic program and restore the embryonic epigenomes when the life begins. 


24 October 2025, 11:00

Memory aids on the chromatin – Epigenetic mechanisms of memory encoding

24 October 20252025External Faculty SpeakerEMBL Rome

AbstractMemory formation relies on a bidirectional interplay between synaptic plasticity and nucleus templated transcriptional programs but how precisely this interplay is orchestrated by epigenetic mechanisms remains to a large extent unknown In this talk I will showcase our recent efforts to better understand this aspect from two angles First we have found that chromatin plasticity in the... AbstractMemory formation relies on a bidirectional interplay between synaptic plasticity and nucleus-templated transcriptional programs, but how precisely this interplay is orchestrated by epigenetic mechanisms remains to a large extent unknown. In this talk, I will showcase our recent efforts to better understand this aspect from two angles. First, we have found that chromatin plasticity in the mouse brain is a key determinant for memory allocation, the process by which neurons become recruited into the memory trace: When we increased chromatin plasticity by enzymatic overexpression of histone acetyl transferases (HATs), neurons with elevated histone acetylation were preferentially recruited into the encoding ensemble and memory retention was enhanced, while optogenetic silencing of the epigenetically altered neurons prevented memory expression. Second, we have found that after...

Speaker(s): Johannes Graff, École Polytechnique Fédérale de Lausanne (EPFL), Switzerland

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome

Additional information

Abstract
Memory formation relies on a bidirectional interplay between synaptic plasticity and nucleus-templated transcriptional programs, but how precisely this interplay is orchestrated by epigenetic mechanisms remains to a large extent unknown. In this talk, I will showcase our recent efforts to better understand this aspect from two angles. First, we have found that chromatin plasticity in the mouse brain is a key determinant for memory allocation, the process by which neurons become recruited into the memory trace: When we increased chromatin plasticity by enzymatic overexpression of histone acetyl transferases (HATs), neurons with elevated histone acetylation were preferentially recruited into the encoding ensemble and memory retention was enhanced, while optogenetic silencing of the epigenetically altered neurons prevented memory expression. Second, we have found that after learning, the epigenetic make-up of a single locus in the encoding ensemble is necessary and sufficient to bidirectionally alter memory performance across different phases of memory consolidation. Together, these findings stipulate that before and after memory encoding, epigenetic mechanisms play a pivotal role as molecular memory aids. 


7 November 2025, 11:00

To be announced

7 November 20252025EMBL Distinguished Visitor LectureEMBL Rome

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Speaker(s): Stavros Lomvardas, Columbia University, USA

Place: Conf Room/Building 14

EMBL Distinguished Visitor Lecture

EMBL Rome