EMBL Seminars

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

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3 April 2025, 11:00

Multitasking genome regulation with the Integrator complex

3 April 20252025External Faculty SpeakerEMBL Grenoble

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Speaker(s): Alessandro Gardini, Wistar Institute, USA
Host: Wojciech Galej

Place: EMBL Grenoble Seminar Room

External Faculty Speaker

EMBL Grenoble


3 April 2025, 14:30

Genotype-Environment Integration Across Generations: A Plant Case Study

3 April 20252025External Faculty SpeakerEMBL Heidelberg

AbstractDevelopmental plasticity in response to environmental conditions is a characteristic property of organisms that allows for substantial adaptive adjustment at the individual level Evolutionary biologists have generally accounted for such plasticity by assuming that the individual s responses to its environment are genetically pre programmed Studies of transgenerational plasticity in the... AbstractDevelopmental plasticity in response to environmental conditions is a characteristic property of organisms that allows for substantial adaptive adjustment at the individual level. Evolutionary biologists have generally accounted for such plasticity by assuming that the individual's responses to its environment are genetically pre-programmed. Studies of transgenerational plasticity in the annual plant Polygonum persicaria provide new insights that challenge this view. Experimental tests of contrasting parental light and soil moisture treatments show that parental and grandparental conditions influence the phenotypes expressed by progeny. Moreover, conditions during the parental generation affect how progeny respond developmentally to their own environments. Individual phenotypes thus reflect a complex developmental integration over time of current and ancestral...

Speaker(s): Sonia Sultan, Wesleyan University, USA
Host: Adriaan Meiborg

Place: Large Operon

External Faculty Speaker

EMBL Heidelberg

Additional information

Abstract
Developmental plasticity in response to environmental conditions is a characteristic property of organisms that allows for substantial adaptive adjustment at the individual level. Evolutionary biologists have generally accounted for such plasticity by assuming that the individual's responses to its environment are genetically pre-programmed. Studies of transgenerational plasticity in the annual plant Polygonum persicaria provide new insights that challenge this view. Experimental tests of contrasting parental light and soil moisture treatments show that parental and grandparental conditions influence the phenotypes expressed by progeny. Moreover, conditions during the parental generation affect how progeny respond developmentally to their own environments. Individual phenotypes thus reflect a complex developmental integration over time of current and ancestral environmental signals. Because these developmental integration trajectories vary genetically (i.e., as multi-generation Genotype x Environment interactions), the integration process itself can potentially evolve.


4 April 2025, 13:00

Functional amyloids as catalysts: towards new paradigms in chemistry and biology?

4 April 20252025Hamburg SpeakerEMBL Hamburg

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Speaker(s): Raz Jelinek, Ben Gurion University of the Negev, Israel
Host: Meytal Landau

Place: Seminar Room 48e

Hamburg Speaker

EMBL Hamburg


11 April 2025, 11:00

Studying tumor heterogeneity in cancer: computational tools and biological insights from single-cell and spatial data

11 April 20252025Seminar given by an external postdoc EMBL Heidelberg

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Speaker(s): Josephine Yates, ETH Zürich, Switzerland
Host: Wolfgang Huber, EMBL Germany

Place: IC Lecture Hall

Seminar given by an external postdoc

EMBL Heidelberg


11 April 2025, 11:00

The EMBL Protein Expression and Purification Core Facility: current services and new developments

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


15 April 2025, 16:00

Hormonal control of brain sex differences

15 April 20252025External Faculty SpeakerEMBL Rome

AbstractIn vertebrates gonadal steroid hormones are the principal drivers of sex variable biology As stated in the classical Organizational Activational Hypothesis developmental pulses of hormones in early life direct brain sexual differentiation while sex differences in neurophysiology and behavior emerge with the onset of puberty Crucially the gonadal hormones estrogens progestins and... AbstractIn vertebrates, gonadal steroid hormones are the principal drivers of sex-variable biology. As stated in the classical Organizational-Activational Hypothesis, developmental pulses of hormones in early life direct brain sexual differentiation, while sex differences in neurophysiology and behavior emerge with the onset of puberty. Crucially, the gonadal hormones: estrogens, progestins, and testosterone, act primarily through their cognate nuclear receptors, which directly bind DNA to regulate gene expression. Therefore, identifying the gene programs regulated by hormones in distinct neuronal cell types, and at different life stages, is paramount to understanding sex differences in brain function. To this end, my lab discovered the neural target genes of estrogen receptor ERα, which is the master regulator of brain sexual differentiation in rodents. We investigated the...

Speaker(s): Jessica Tollkuhn, Cold Spring Harbor Laboratory, USA

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome

Additional information

Abstract
In vertebrates, gonadal steroid hormones are the principal drivers of sex-variable biology. As stated in the classical Organizational-Activational Hypothesis, developmental pulses of hormones in early life direct brain sexual differentiation, while sex differences in neurophysiology and behavior emerge with the onset of puberty. Crucially, the gonadal hormones: estrogens, progestins, and testosterone, act primarily through their cognate nuclear receptors, which directly bind DNA to regulate gene expression. Therefore, identifying the gene programs regulated by hormones in distinct neuronal cell types, and at different life stages, is paramount to understanding sex differences in brain function. To this end, my lab discovered the neural target genes of estrogen receptor ERα, which is the master regulator of brain sexual differentiation in rodents. We investigated the relationship between ERα genomic occupancy and sex-biased gene expression in the posterior bed nucleus of the stria terminalis (BNSTp), a sexually dimorphic node in limbic circuitry that modulates sex-differential social behaviors such as mating. In adult animals we observe that levels of ERα are predictive of the extent of sex-variable gene expression, and that these sex differences are a dynamic readout of acute hormonal state. Through analysis of chromatin accessibility across puberty, we find that adult sex differences are driven principally by testosterone, which both opens and closes chromatin in males. In contrast, accessibility of female-biased loci is maintained following gonadectomy, indicating that ovarian hormones do not drive BNSTp sex differences. In neonates we find that transient ERα recruitment at birth leads to sustained chromatin opening and male-biased gene expression, which varies markedly across BNSTp cell types. Our findings demonstrate the exquisite specificity of hormone receptor actions within the brain. We are now investigating the plasticity of sex-variable gene expression across the lifespan, and the consequent effects on neuronal health and disease risk.


22 April 2025, 14:00

Bringing Cells to Life of the Computer: Whole-Cell Modeling from Minimal Bacteria to Human Cells

22 April 20252025EMBL Barcelona Postdoc Seminar SeriesEMBL Heidelberg

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Speaker(s): Zane Thornburg, University of Illinois Urbana-Champaign, USA

Place: Small Operon

EMBL Barcelona Postdoc Seminar Series

EMBL Heidelberg


23 April 2025, 11:00

HiTT: High Throughput Tomography. Hard X-ray Imaging of Soft Biological Tissue

23 April 20252025External Faculty SpeakerEMBL Grenoble

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Speaker(s): Liz Duke, EMBL Heidelberg, Germany
Host: Andrew McCarthy

Place: EMBL Grenoble Seminar Room

External Faculty Speaker

EMBL Grenoble


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


28 April 2025, 14:00

“Towards high-throughput mapping of transcriptional regulatory networks in bacteria”

28 April 20252025External Faculty SpeakerEMBL Heidelberg, Virtual

AbstractComplex networks of transcription factors TFs allow bacteria to adapt to their environment through i the sensing of molecular signals and ii corresponding gene expression responses Despite decades of work our current knowledge covers on average less than 10 of TFs regulatory functions and sensed signals in well studied bacterial species which falls below 1 in most other species... AbstractComplex networks of transcription factors (TFs) allow bacteria to adapt to their environment through (i) the sensing of molecular signals, and (ii) corresponding gene expression responses. Despite decades of work, our current knowledge covers on average less than 10% of TFs regulatory functions and sensed signals in well-studied bacterial species, which falls below 1% in most other species. To address this lack of knowledge, we develop sequencing-based approaches to accelerate the mapping of transcriptional regulatory networks, with recent proof-of-concepts applications on Escherichia coli. As a main tool, we rely on high-throughput protein expression and in vitro DNA-binding assays to identify and characterize TFs interactions with signal molecules and with DNA in a genome-wide manner for up to hundreds of TFs at a time. This work paves the way towards routine...

Speaker(s): Julian Trouillon, ETH Zürich, Switzerland
Host: Nassos Typas

Place: Small Operon

External Faculty Speaker

EMBL Heidelberg, Virtual

Additional information

Abstract
Complex networks of transcription factors (TFs) allow bacteria to adapt to their environment through (i) the sensing of molecular signals, and (ii) corresponding gene expression responses. Despite decades of work, our current knowledge covers on average less than 10% of TFs regulatory functions and sensed signals in well-studied bacterial species, which falls below 1% in most other species. To address this lack of knowledge, we develop sequencing-based approaches to accelerate the mapping of transcriptional regulatory networks, with recent proof-of-concepts applications on Escherichia coli. As a main tool, we rely on high-throughput protein expression and in vitro DNA-binding assays to identify and characterize TFs interactions with signal molecules and with DNA in a genome-wide manner for up to hundreds of TFs at a time. This work paves the way towards routine near-complete mapping of transcriptional regulatory networks in bacteria.

Connection details
Zoom*: https://embl-org.zoom.us/j/97121685267?pwd=bJilqT0QoXIinBFFqW7reaOwaMDcrR.1

Meeting ID: 971 2168 5267
Passcode: 354388


Please note that the talk will yes/not be recorded.
*For the FAQ section, as a zoom participant, please use either the chat function (the host will read out your question) or the “raise your hand” function and turn on your microphone.


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


16 June 2025, 12:10

Science & Society Conference "In Science We Trust?", 16-17 June 2025

16 June 20252025Science and SocietyEMBL Heidelberg

We live in an era of unprecedented scientific breakthroughs gene editing stem cell research AI driven discoveries and rapid vaccine development are revolutionizing our world Yet alongside these advancements misinformation ethical dilemmas and scientific scepticism have become more prominent raising crucial questions about trust in science How do we navigate a post truth society where... We live in an era of unprecedented scientific breakthroughs – gene editing, stem cell research, AI-driven discoveries, and rapid vaccine development are revolutionizing our world. Yet, alongside these advancements, misinformation, ethical dilemmas, and scientific scepticism have become more prominent, raising crucial questions about trust in science.How do we navigate a "post-truth" society where scientific credibility is constantly challenged? How can researchers, policymakers, and science communicators strengthen the bond between science and society?The 2025 Science & Society Conference "In Science We Trust?" is your opportunity to tackle these pressing issues head-on. Over two thought-provoking days, we’ll examine how public perception of science has evolved, explore the societal impact of trust in research, and discuss the role of scientists in fostering transparency and...

Speaker(s): Ralf Bartenschlager, Heidelberg University Hospital, Germany | Maura Hiney, University College Dublin, Ireland | Ulrike Beisiegel, University of Göttingen, Germany | Ben Bleasdale, Campaign for Science and Engineering, UK | Perihan Elif Ekmekci, TOBB University of Economics and Technology, Turkey | Caitjan Gainty, King’s College London, UK | Margaret Gold, Leiden University, The Netherlands | Giorgia Guglielmi, Freelance Science Journalist, Switzerland | Andreas Kosmider, Falling Walls Foundation, Germany | Resham Kotecha, Open Data Institute, UK | Mihalis Kritikos, European Parliament, Belgium | Rebecca Lawrence, F1000, UK | Marcus Munafo, University of Bristol, UK | Henriikka Mustajoki, Open Science, Finland | Malvika Sharan, The Alan Turing Institute, UK | Veli Vural Uslu, TAP (The Awesome Potatoes) Science Theater, Heidelberg | Victoria Tianjing Yan, EMBL Heidelberg, Germany | Hub Zwart, Erasmus School of Philosophy, The Netherlands
Host: Bioethics Services Office

Place: ATC Auditorium (Join the VC)

Science and Society

EMBL Heidelberg

Additional information

We live in an era of unprecedented scientific breakthroughs – gene editing, stem cell research, AI-driven discoveries, and rapid vaccine development are revolutionizing our world. Yet, alongside these advancements, misinformation, ethical dilemmas, and scientific scepticism have become more prominent, raising crucial questions about trust in science.

How do we navigate a "post-truth" society where scientific credibility is constantly challenged? How can researchers, policymakers, and science communicators strengthen the bond between science and society?

The 2025 Science & Society Conference "In Science We Trust?" is your opportunity to tackle these pressing issues head-on. Over two thought-provoking days, we’ll examine how public perception of science has evolved, explore the societal impact of trust in research, and discuss the role of scientists in fostering transparency and engagement. Through inspiring keynote speeches, lively panel discussions, and poster sessions, you’ll gain insights from leading experts and discuss together about the future of trust in science.

The conference welcomes not only life science researchers and students, but also professionals from different fields who are dedicated to fostering a trustworthy relationship between science and society. Whether you are a science communicator, educator, policy-maker, ombudsman or ethicist, this event is sure to be of interest to you!

 


14 July 2025, 11:00

To be announced

14 July 20252025EMBL Distinguished Visitor LectureEMBL Rome

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Speaker(s): Anshul Kundaje, Stanford University, USA

Place: Conf Room/Building 14

EMBL Distinguished Visitor Lecture

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. 


3 October 2025, 11:00

To be announced

3 October 20252025External Faculty SpeakerEMBL Rome

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Speaker(s): Cyril Henry, University of Bordeaux, France
Host: Cornelius Gross

Place: Conf Room/Building 14

External Faculty Speaker

EMBL Rome


7 October 2025, 11:00

To be announced

7 October 20252025EMBL Distinguished Visitor LectureEMBL Rome

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Speaker(s): Magdalena Götz, Helmholtz Zentrum München, Germany

Place: Conf Room/Building 14

EMBL Distinguished Visitor Lecture

EMBL Rome


17 October 2025, 11:00

To be announced

17 October 20252025EMBL - Sapienza LectureEMBL Rome

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Speaker(s): Antonella Riccio, UCL Laboratory for Molecular Cell Biology, United Kingdom

Place: Sapienza Università di Roma - Aula Odeion - Museo dell'Arte Classica - P.le Aldo Moro, 5 - Roma

EMBL - Sapienza Lecture

EMBL Rome


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


14 November 2025, 11:00

To be announced

14 November 20252025EMBL - Sapienza LectureEMBL Rome

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Speaker(s): Andrea Ganna, Institute for Molecular Medicine Finland (FIMM), Finland

Place: Sapienza Università di Roma - Aula Odeion - Museo dell'Arte Classica - P.le Aldo Moro, 5 - Roma

EMBL - Sapienza Lecture

EMBL Rome


21 November 2025, 11:00

To be announced

21 November 20252025EMBL Distinguished Visitor LectureEMBL Rome

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Speaker(s): Hongkui Zeng, Allen Institute for Brain Science, USA

Place: Conf Room/Building 14

EMBL Distinguished Visitor Lecture

EMBL Rome


4 December 2025, 14:30

To be announced

4 December 20252025External Faculty SpeakerEMBL Heidelberg

Abstract Text for abstract About the speaker Biographical information about the speaker Meet the speakerTo meet with the speaker informally after the talks sign up here add link We especially encourage predocs and postdocs to take advantage of this opportunity Attachments Link to a file for example a pdf of the seminar s programme the file can be uploaded on the intranet Connection... Abstract[Text for abstract].About the speaker[Biographical information about the speaker].Meet the speakerTo meet with the speaker informally after the talks,sign up here [add link]. We especially encourage predocs and postdocs to take advantage of this opportunity.Attachments[Link to a file (for example a pdf of the seminar’s programme) - the file can be uploaded on the intranet]Connection detailsZoom*: [https://embl-org.zoom.us/j/96374261689?pwd=TnNxRWtQY2lyc2pSa2JpY3NGcDlhZz09] (Meeting ID: [963 7426 1689], Password: [DBU])Please note that the talk will yes/not be recorded.*For the FAQ section, as a zoom participant, please use either the chat function (the host will read out your question) or the “raise your hand” function and turn on your microphone.

Speaker(s): Irene Miguel Aliaga, The Francis Crick Institute, United Kingdom

Place: Small Operon

External Faculty Speaker

EMBL Heidelberg

Additional information

Abstract
[Text for abstract].

About the speaker
[Biographical information about the speaker].

Meet the speaker
To meet with the speaker informally after the talks,sign up here [add link]. We especially encourage predocs and postdocs to take advantage of this opportunity.

Attachments
[Link to a file (for example a pdf of the seminar’s programme) - the file can be uploaded on the intranet]

Connection details
Zoom*: [https://embl-org.zoom.us/j/96374261689?pwd=TnNxRWtQY2lyc2pSa2JpY3NGcDlhZz09] (Meeting ID: [963 7426 1689], Password: [DBU])

Please note that the talk will yes/not be recorded.
*For the FAQ section, as a zoom participant, please use either the chat function (the host will read out your question) or the “raise your hand” function and turn on your microphone.