Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus
• Kreshuk group – Machine learning for bioimage analysis
• Schwab team – Volume correlative light and electron microscopy

Genome Biology Unit – EMBL Heidelberg

• Huber Group – Quantitative Biology and Statistics
• Stegle Group – Statistical genomics and systems genetics
• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Molecular Systems Biology Unit – EMBL Hidelberg

• Bork group – Deciphering function and evolution of biological systems
• Mahamid group – In situ structural analysis of phase separation and molecular crowding

Structural Biology Unit – EMBL Hamburg

• Duke group – Biological X-ray imaging
• Kosinski group – Integrative modelling of infection cycles

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Cortes Ciriano group – Cancer genomics
• Julio Saez-Rodriguez – Systems biomedicine

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level

• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes
• Typas Group – Systems microbiology

Structural Biology Unit – EMBL Hamburg

• Garcia Alai team – Molecular biophysics and high-throughput crystallisation

Structural Biology Unit – EMBL Grenoble

• Kowalinski Group – Structural biology of macromolecular protein-RNA complexes

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus
• Pepperkok team – Membrane traffic and organelle biogenesis

Genome Biology Unit – EMBL Heidelberg

• Korbel Group – From genomic variation to molecular mechanism
• Krebs Group – Decoding gene regulation using single-molecule genomics
• Stegle Group – Statistical genomics and systems genetics

Molecular Systems Biology Unit – EMBL Hidelberg

• Bork group – Deciphering function and evolution of biological systems

• Mahamid group – In situ structural analysis of phase separation and molecular crowding

• Savitski Team – Stability proteomics for assessing the state of the proteome

Structural Biology Unit – EMBL Hamburg

• Kosinski group – Integrative modelling of infection cycles
• Schneider group – Tools for structure determination and analysis

Structural Biology Unit – EMBL Grenoble

• Márquez Team – High-throughput crystallisation laboratory

Epigenetics and Neurobiology Unit – EMBL Rome

• Boulard group – Epigenetic gene silencing in mammals

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Birney group – Intraspecies variation in medaka fish and humans
• Brazma group – Functional genomics research
• Cortes Ciriano group – Cancer genomics
• Finn group – Computational approaches to understanding microbiomes
• Goldman group – Evolutionary tools for genomic analysis
• Iqbal group – Computational microbial genomics
• Keane group – Computational comparative genomics
• Leach group – Molecular recognition and drug discovery
• Lees group – Pathogen informatics and modelling
• Petsalaki group – Whole cell signalling
• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Banterle group – Understanding cross-scale principles of cellular organisation
• Cuylen group – Cellular phase separation by surfactants
• Dey group – Evolutionary cell biology of the nucleus
• Diz-Muñoz group – Mechanobiology at the cell surface

Developmental Biology Unit – EMBL Heidelberg

• Graf Group – Theory of biological homeostasis and plasticity
• Petridou Group – Critical points and transitions in tissue morphogenesis

Molecular Systems Biology Unit – EMBL Hidelberg

• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level

• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes
• Typas Group – Systems microbiology

Structural Biology Unit – EMBL Hamburg

• Garcia Alai team – Molecular biophysics and high-throughput crystallisation

Structural Biology Unit – EMBL Grenoble

• Kowalinski Group – Structural biology of macromolecular protein-RNA complexes

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Erzberger group – Theory of cellular and multicellular organisation
• Pepperkok team – Membrane traffic and organelle biogenesis
• Watt group – Regulation of stem cell fate

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Crocker Group – Gene regulation during evolution and development
• Ikmi group – Plasticity of animal body design
• Petridou Group – Critical points and transitions in tissue morphogenesis
• Rapti Group – Assembly mechanisms of nervous system architecture
• van Gestel Group – Evolution of microbial development
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Furlong Group – Genome regulation and chromatin topology during embryonic development

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

• Stegle Group – Statistical genomics and systems genetics

Structural Biology Unit – EMBL Grenoble

• Bhogaraju Group – Structural biology of ubiquitin signalling
• Márquez Team – High-throughput crystallisation laboratory
• McCarthy Team – Synchrotron Crystallography Team

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Dayton group – Organoid models of neuroendocrine development and cancer
• Sharpe group – Multicellular systems biology
• Trivedi group – Self-organization in multi-cellular systems

Epigenetics and Neurobiology Unit – EMBL Rome

• Boskovic group – Mechanisms of embryonic gene regulation
• Hackett group – Epigenetic mechanisms and intergenerational inheritance

Bioinformatics – EMBL-EBI Hinxton

• Petsalaki group – Whole cell signalling
• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Banterle group – Understanding cross-scale principles of cellular organisation
• Cuylen group – Cellular phase separation by surfactants
• Dey group – Evolutionary cell biology of the nucleus
• Diz-Muñoz group – Mechanobiology at the cell surface
• Ellenberg group – Systems biology of cell division and nuclear organisation
• Köhler group – Self-organisation in meiosis
• Pepperkok team – Membrane traffic and organelle biogenesis
• Quail group – Principles of genome self-organisation 
• Schwab team – Volume correlative light and electron microscopy
• Watt group – Regulation of stem cell fate

Developmental Biology Unit – EMBL Heidelberg

• Crocker Group – Gene regulation during evolution and development
• Ikmi group – Plasticity of animal body design
• Petridou Group – Critical points and transitions in tissue morphogenesis
• Rapti Group – Assembly mechanisms of nervous system architecture
• van Gestel Group – Evolution of microbial development

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Mattei team – High-throughput cryo-EM
• Savitski Team – Stability proteomics for assessing the state of the proteome

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Dayton group – Organoid models of neuroendocrine development and cancer
• Haase group – Engineering vascularised tissue-specific disease models
• Torres-Sánchez Group – Computational modelling of multicellular systems
• Trivedi group – Self-organization in multi-cellular systems

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Deo group – Next-generation fluorescent tools for biological imaging

Developmental Biology Unit – EMBL Heidelberg

• Ikmi group – Plasticity of animal body design

Molecular Systems Biology Unit – EMBL Hidelberg

• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level

Structural Biology Unit – EMBL Grenoble

• Márquez Team – High-throughput crystallisation laboratory
• McCarthy Team – Synchrotron Crystallography Team

Bioinformatics – EMBL-EBI Hinxton

• Leach group – Molecular recognition and drug discovery

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Petridou Group – Critical points and transitions in tissue morphogenesis
• van Gestel Group – Evolution of microbial development
• Vincent Group – Symbiosis in marine unicellular eukaryotes 

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Kreshuk group – Machine learning for bioimage analysis
• Quail group – Principles of genome self-organisation 

Developmental Biology Unit – EMBL Heidelberg

• van Gestel Group – Evolution of microbial development

Genome Biology Unit – EMBL Heidelberg

• Huber Group – Quantitative Biology and Statistics
• Stegle Group – Statistical genomics and systems genetics
• Steinmetz Group – Systems genetics and precision health
• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Molecular Systems Biology Unit – EMBL Hidelberg

• Bork group – Deciphering function and evolution of biological systems
• Dorrity group – Environmental response at the single-cell level

Structural Biology Unit – EMBL Hamburg

• Kosinski group – Integrative modelling of infection cycles

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Sharpe group – Multicellular systems biology

Bioinformatics – EMBL-EBI Hinxton

• Cortes Ciriano group – Cancer genomics
• Finn group – Computational approaches to understanding microbiomes
• Goldman group – Evolutionary tools for genomic analysis
• Iqbal group – Computational microbial genomics
• Petsalaki group – Whole cell signalling
• Saez-Rodriguez group – Systems biomedicine

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Eustermann group – Exploring the chromatin landscape by cryo-electron microscopy
• Mattei team – High-throughput cryo-EM

Structural Biology Unit – EMBL Hamburg

• Garcia Alai team – Molecular biophysics and high-throughput crystallisation

Structural Biology Unit – EMBL Grenoble

• Galej Group – Structure and function of RNA-protein complexes
• Kowalinski Group – Structural biology of macromolecular protein-RNA complexes

Molecular Systems Biology Unit – EMBL Hidelberg

• Mahamid group – In situ structural analysis of phase separation and molecular crowding

Structural Biology Unit – EMBL Hamburg

• Kosinski group – Integrative modelling of infection cycles

Structural Biology Unit – EMBL Grenoble

• Galej Group – Structure and function of RNA-protein complexes

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Kreshuk group – Machine learning for bioimage analysis

Genome Biology Unit – EMBL Heidelberg

• Korbel Group – From genomic variation to molecular mechanism

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Mahamid group – In situ structural analysis of phase separation and molecular crowding

Epigenetics and Neurobiology Unit – EMBL Rome

• Gross group – Neural control of instinctive behaviour

Bioinformatics – EMBL-EBI Hinxton

• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Erzberger group – Theory of cellular and multicellular organisation
• Schwab team – Volume correlative light and electron microscopy
• Watt group – Regulation of stem cell fate

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Petridou Group – Critical points and transitions in tissue morphogenesis
• van Gestel Group – Evolution of microbial development
• Vu Group – Control principles of animal body size

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Trivedi group – Self-organization in multi-cellular systems

Epigenetics and Neurobiology Unit – EMBL Rome

• Boulard group – Epigenetic gene silencing in mammals

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Pepperkok team – Membrane traffic and organelle biogenesis
• Schwab team – Volume correlative light and electron microscopy
• Watt group – Regulation of stem cell fate

Genome Biology Unit – EMBL Heidelberg

• Korbel Group – From genomic variation to molecular mechanism
• Steinmetz Group – Systems genetics and precision health

Molecular Systems Biology Unit – EMBL Hidelberg

• Mahamid group – In situ structural analysis of phase separation and molecular crowding

Structural Biology Unit – EMBL Grenoble

• Djinovic Group – Structure and assembly mechanisms of sarcomeric cytoskeleton

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria
• Dayton group – Organoid models of neuroendocrine development and cancer
• Haase group – Engineering vascularised tissue-specific disease models
• Trivedi group – Self-organization in multi-cellular systems

Bioinformatics – EMBL-EBI Hinxton

• Cortes Ciriano group – Cancer genomics
• Finn group – Computational approaches to understanding microbiomes
• Iqbal group – Computational microbial genomics
• Petsalaki group – Whole cell signalling

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Diz-Muñoz group – Mechanobiology at the cell surface
• Kreshuk group – Machine learning for bioimage analysis
• Prevedel group – Advanced optical techniques for deep tissue microscopy

Structural Biology Unit – EMBL Hamburg

• Duke group – Biological X-ray imaging

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria
• Haase group – Engineering vascularised tissue-specific disease models
• Trivedi group – Self-organization in multi-cellular systems

Epigenetics and Neurobiology Unit – EMBL Rome

• Gross group – Neural control of instinctive behaviour

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus
• Schwab team – Volume correlative light and electron microscopy

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Crocker Group – Gene regulation during evolution and development
• Ikmi group – Plasticity of animal body design
• van Gestel Group – Evolution of microbial development
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Furlong Group – Genome regulation and chromatin topology during embryonic development

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Dorrity group – Environmental response at the single-cell level

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Trivedi group – Self-organization in multi-cellular systems

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Finn group – Computational approaches to understanding microbiomes
• Goldman group – Evolutionary tools for genomic analysis
• Iqbal group – Computational microbial genomics

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Ellenberg group – Systems biology of cell division and nuclear organisation
• Quail group – Principles of genome self-organisation 

Developmental Biology Unit – EMBL Heidelberg

• Crocker Group – Gene regulation during evolution and development

Genome Biology Unit – EMBL Heidelberg

• Furlong Group – Genome regulation and chromatin topology during embryonic development
• Krebs Group – Decoding gene regulation using single-molecule genomics
• Stegle Group – Statistical genomics and systems genetics
• Steinmetz Group – Systems genetics and precision health

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes

Structural Biology Unit – EMBL Grenoble

• Galej Group – Structure and function of RNA-protein complexes
• Márquez Team – High-throughput crystallisation laboratory

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Sharpe group – Multicellular systems biology

Epigenetics and Neurobiology Unit – EMBL Rome

• Boskovic group – Mechanisms of embryonic gene regulation
• Boulard group – Epigenetic gene silencing in mammals
• Hackett group – Epigenetic mechanisms and intergenerational inheritance

Bioinformatics – EMBL-EBI Hinxton

• Brazma group – Functional genomics research
• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Köhler group – Self-organisation in meiosis

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Crocker Group – Gene regulation during evolution and development
• Rapti Group – Assembly mechanisms of nervous system architecture
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Furlong Group – Genome regulation and chromatin topology during embryonic development
• Korbel Group – From genomic variation to molecular mechanism
• Krebs Group – Decoding gene regulation using single-molecule genomics
• Stegle Group – Statistical genomics and systems genetics
• Steinmetz Group – Systems genetics and precision health

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Typas Group – Systems microbiology

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Sharpe group – Multicellular systems biology

Epigenetics and Neurobiology Unit – EMBL Rome

• Boskovic group – Mechanisms of embryonic gene regulation
• Boulard group – Epigenetic gene silencing in mammals

Bioinformatics – EMBL-EBI Hinxton

• Birney group – Intraspecies variation in medaka fish and humans
• Brazma group – Functional genomics research
• Cortes Ciriano group – Cancer genomics
• Finn group – Computational approaches to understanding microbiomes
• Goldman group – Evolutionary tools for genomic analysis
• Iqbal group – Computational microbial genomics
• Keane group – Computational comparative genomics
• Lees group – Pathogen informatics and modelling

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Kreshuk group – Machine learning for bioimage analysis

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Banterle group – Understanding cross-scale principles of cellular organisation
• Cuylen group – Cellular phase separation by surfactants
• Deo group – Next-generation fluorescent tools for biological imaging
• Dey group – Evolutionary cell biology of the nucleus
• Diz-Muñoz group – Mechanobiology at the cell surface
• Ellenberg group – Systems biology of cell division and nuclear organisation
• Köhler group – Self-organisation in meiosis
• Pepperkok team – Membrane traffic and organelle biogenesis
• Prevedel group – Advanced optical techniques for deep tissue microscopy
• Quail group – Principles of genome self-organisation 
• Schwab team – Volume correlative light and electron microscopy
• Zimmermann team – Advanced Light Microscopy technology development and service provision

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Aulehla Group – Timing in embryonic development
• Crocker Group – Gene regulation during evolution and development
• Ikmi group – Plasticity of animal body design
• Petridou Group – Critical points and transitions in tissue morphogenesis
• Vincent Group – Symbiosis in marine unicellular eukaryotes 

Genome Biology Unit – EMBL Heidelberg

• Huber Group – Quantitative Biology and Statistics
• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Mattei team – High-throughput cryo-EM
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes

Structural Biology Unit – EMBL Hamburg

• Duke group – Biological X-ray imaging
• Schneider group – Tools for structure determination and analysis

Structural Biology Unit – EMBL Grenoble

• Galej Group – Structure and function of RNA-protein complexes
• McCarthy Team – Synchrotron Crystallography Team

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria
• Dayton group – Organoid models of neuroendocrine development and cancer
• Haase group – Engineering vascularised tissue-specific disease models
• Sharpe group – Multicellular systems biology
• Trivedi group – Self-organization in multi-cellular systems

Epigenetics and Neurobiology Unit – EMBL Rome

• Boulard group – Epigenetic gene silencing in mammals
• Gross group – Neural control of instinctive behaviour
• Rompani group – Visual circuits in the thalamus

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Schwab team – Volume correlative light and electron microscopy

Molecular Systems Biology Unit – EMBL Hidelberg

• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Mattei team – High-throughput cryo-EM
• Typas Group – Systems microbiology

Structural Biology Unit – EMBL Grenoble

• Bhogaraju Group – Structural biology of ubiquitin signalling
• McCarthy Team – Synchrotron Crystallography Team

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria

Epigenetics and Neurobiology Unit – EMBL Rome

• Boulard group – Epigenetic gene silencing in mammals

Bioinformatics – EMBL-EBI Hinxton

• Leach group – Molecular recognition and drug discovery

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Erzberger group – Theory of cellular and multicellular organisation
• Kreshuk group – Machine learning for bioimage analysis

Genome Biology Unit – EMBL Heidelberg

• Huber Group – Quantitative Biology and Statistics
• Stegle Group – Statistical genomics and systems genetics

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Torres-Sánchez Group – Computational modelling of multicellular systems

Bioinformatics – EMBL-EBI Hinxton

• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Diz-Muñoz group – Mechanobiology at the cell surface

Developmental Biology Unit – EMBL Heidelberg

• Petridou Group – Critical points and transitions in tissue morphogenesis

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Ikmi group – Plasticity of animal body design
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Molecular Systems Biology Unit – EMBL Hidelberg

• Savitski Team – Stability proteomics for assessing the state of the proteome
• Zimmermann group – Metabolic host-microbiome interactions

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Trivedi group – Self-organization in multi-cellular systems

Epigenetics and Neurobiology Unit – EMBL Rome

• Boskovic group – Mechanisms of embryonic gene regulation

Bioinformatics – EMBL-EBI Hinxton

• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Zimmermann team – Advanced Light Microscopy technology development and service provision

Structural Biology Unit – EMBL Hamburg

• Duke group – Biological X-ray imaging
• Kosinski group – Integrative modelling of infection cycles

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus

Developmental Biology Unit – EMBL Heidelberg

• van Gestel Group – Evolution of microbial development
• Vincent Group – Symbiosis in marine unicellular eukaryotes 

Genome Biology Unit – EMBL Heidelberg

• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Molecular Systems Biology Unit – EMBL Hidelberg

• Bork group – Deciphering function and evolution of biological systems
• Typas Group – Systems microbiology
• Zimmermann group – Metabolic host-microbiome interactions

Bioinformatics – EMBL-EBI Hinxton

• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Cuylen group – Cellular phase separation by surfactants
• Köhler group – Self-organisation in meiosis
• Pepperkok team – Membrane traffic and organelle biogenesis

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Dorrity group – Environmental response at the single-cell level
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Mattei team – High-throughput cryo-EM
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes
• Zimmermann group – Metabolic host-microbiome interactions

Structural Biology Unit – EMBL Grenoble

• Bhogaraju Group – Structural biology of ubiquitin signalling

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Petridou Group – Critical points and transitions in tissue morphogenesis
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Bioinformatics – EMBL-EBI Hinxton

• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Prevedel group – Advanced optical techniques for deep tissue microscopy

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Rapti Group – Assembly mechanisms of nervous system architecture

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Structural Biology Unit – EMBL Grenoble

• McCarthy Team – Synchrotron Crystallography Team

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria

Epigenetics and Neurobiology Unit – EMBL Rome

• Boulard group – Epigenetic gene silencing in mammals
• Gross group – Neural control of instinctive behaviour
• Rompani group – Visual circuits in the thalamus

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Vincent Group – Symbiosis in marine unicellular eukaryotes 
• Vu Group – Control principles of animal body size

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Erzberger group – Theory of cellular and multicellular organisation
• Prevedel group – Advanced optical techniques for deep tissue microscopy

Developmental Biology Unit – EMBL Heidelberg

• Aulehla Group – Timing in embryonic development
• Graf Group – Theory of biological homeostasis and plasticity
• Petridou Group – Critical points and transitions in tissue morphogenesis

Structural Biology Unit – EMBL Hamburg

• Duke group – Biological X-ray imaging

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Torres-Sánchez Group – Computational modelling of multicellular systems
• Trivedi group – Self-organization in multi-cellular systems

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Dey group – Evolutionary cell biology of the nucleus
• Schwab team – Volume correlative light and electron microscopy

Developmental Biology Unit – EMBL Heidelberg

• van Gestel Group – Evolution of microbial development
• Vincent Group – Symbiosis in marine unicellular eukaryotes 
• Vu Group – Control principles of animal body size

Genome Biology Unit – EMBL Heidelberg

• Huber Group – Quantitative Biology and Statistics

Molecular Systems Biology Unit – EMBL Hidelberg

• Bork group – Deciphering function and evolution of biological systems
• Dorrity group – Environmental response at the single-cell level

Structural Biology Unit – EMBL Hamburg

• Garcia Alai team – Molecular biophysics and high-throughput crystallisation

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Trivedi group – Self-organization in multi-cellular systems

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Banterle group – Understanding cross-scale principles of cellular organisation
• Cuylen group – Cellular phase separation by surfactants

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes
• Savitski Team – Stability proteomics for assessing the state of the proteome
• Typas Group – Systems microbiology

Structural Biology Unit – EMBL Grenoble

• Bhogaraju Group – Structural biology of ubiquitin signalling
• Djinovic Group – Structure and assembly mechanisms of sarcomeric cytoskeleton
• Galej Group – Structure and function of RNA-protein complexes
• McCarthy Team – Synchrotron Crystallography Team

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Finn group – Computational approaches to understanding microbiomes
• Leach group – Molecular recognition and drug discovery
• Petsalaki group – Whole cell signalling
• Saez-Rodriguez group – Systems biomedicine

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria

Genome Biology Unit – EMBL Heidelberg

• Furlong Group – Genome regulation and chromatin topology during embryonic development
• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes

Structural Biology Unit – EMBL Grenoble

• Galej Group – Structure and function of RNA-protein complexes
• Kowalinski Group – Structural biology of macromolecular protein-RNA complexes

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Dayton group – Organoid models of neuroendocrine development and cancer

Epigenetics and Neurobiology Unit – EMBL Rome

• Boskovic group – Mechanisms of embryonic gene regulation
• Boulard group – Epigenetic gene silencing in mammals

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Brazma group – Functional genomics research

Genome Biology Unit – EMBL Heidelberg

• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Banterle group – Understanding cross-scale principles of cellular organisation
• Schwab team – Volume correlative light and electron microscopy

Molecular Systems Biology Unit – EMBL Hidelberg

• Dodonova group – Organisational principles and 3D architecture of archaeal chromatin
• Duss group – Assembly mechanisms of protein–RNA complexes at the single-molecule level
• Eustermann group – Exploring the chromatin landscape by cryo-electron microscopy
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Mattei team – High-throughput cryo-EM
• Müller group – Molecular mechanisms of transcriptional regulation in eukaryotes
• Savitski Team – Stability proteomics for assessing the state of the proteome

Structural Biology Unit – EMBL Hamburg

• Fiedler team – Synchrotron instrumentation for structural biology beamlines at PETRA III
• Garcia Alai team – Molecular biophysics and high-throughput crystallisation
• Kosinski group – Integrative modelling of infection cycles
• Schneider group – Tools for structure determination and analysis

Structural Biology Unit – EMBL Grenoble

• Bhogaraju Group – Structural biology of ubiquitin signalling
• Djinovic Group – Structure and assembly mechanisms of sarcomeric cytoskeleton
• Galej Group – Structure and function of RNA-protein complexes
• Kowalinski Group – Structural biology of macromolecular protein-RNA complexes
• Márquez Team – High-throughput crystallisation laboratory
• McCarthy Team – Synchrotron Crystallography Team

Bioinformatics – EMBL-EBI Hinxton

• Bateman group – Analysis of protein and RNA sequence
• Leach group – Molecular recognition and drug discovery

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Ellenberg group – Systems biology of cell division and nuclear organisation

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Crocker Group – Gene regulation during evolution and development
• Rapti Group – Assembly mechanisms of nervous system architecture
• van Gestel Group – Evolution of microbial development

Genome Biology Unit – EMBL Heidelberg

• Korbel Group – From genomic variation to molecular mechanism
• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation
• Steinmetz Group – Systems genetics and precision health
• Zimmermann-Kogadeeva Group – Multi-omics-based modelling of microbial ecosystems

Molecular Systems Biology Unit – EMBL Hidelberg

• Dorrity group – Environmental response at the single-cell level
• Eustermann group – Exploring the chromatin landscape by cryo-electron microscopy
• Mahamid group – In situ structural analysis of phase separation and molecular crowding
• Typas Group – Systems microbiology
• Zimmermann group – Metabolic host-microbiome interactions

Structural Biology Unit – EMBL Hamburg

• Garcia Alai team – Molecular biophysics and high-throughput crystallisation

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Sharpe group – Multicellular systems biology
• Torres-Sánchez Group – Computational modelling of multicellular systems

Bioinformatics – EMBL-EBI Hinxton

• Petsalaki group – Whole cell signalling
• Saez-Rodriguez group – Systems biomedicine

Cell Biology and Biophysics Unit – EMBL Heidelberg

• Ellenberg group – Systems biology of cell division and nuclear organisation
• Schwab team – Volume correlative light and electron microscopy
• Watt group – Regulation of stem cell fate

Developmental Biology Unit – EMBL Heidelberg

• Arendt Group – Evolution of the nervous system in bilateria
• Crocker Group – Gene regulation during evolution and development
• Petridou Group – Critical points and transitions in tissue morphogenesis
• Rapti Group – Assembly mechanisms of nervous system architecture

Genome Biology Unit – EMBL Heidelberg

• Korbel Group – From genomic variation to molecular mechanism
• Saka Group – Spatial biology from molecules to tissues: high-dimensional investigation of cellular organisation

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria
• Haase group – Engineering vascularised tissue-specific disease models
• Trivedi group – Self-organization in multi-cellular systems

Bioinformatics – EMBL-EBI Hinxton

• Petsalaki group – Whole cell signalling

Tissue Biology and Disease Modelling Unit – EMBL Barcelona

• Bernabeu group – In vitro 3D blood-brain barrier model and cerebral malaria
• Haase group – Engineering vascularised tissue-specific disease models
• Trivedi group – Self-organization in multi-cellular systems