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Individuals from non-participating countries should contact the Action Chair to inquire about membership before submitting an application. Affiliation* University or Company name*
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Professional Data Highest achieved academic level:* Are you an early career investigator (ECI)?* Researcher whose career spans less than 8 years since the date of the PhD/doctorate (or equivalent) and the date of joining this COST Action. Periods of leave (e.g. for familial or health reasons) do not count towards this limit.
Working groups
More detailed descriptions of each work group are available here . Please select the group(s) that you are primarily interested in:*
The following keywords will be used to improve our COST Action and will be shown on the ERNEST website to encourage collaborations between members:
ERC keyword classification of your research - (First priority) 1. Mathematics (applications in science and industry) 2. Physics and Chemistry Nanophysics Statistical physics Physics of biological systems Physical chemistry Spectroscopic and spectrometric techniques Molecular architecture and structure Surface science and nanostructures Analytical chemistry Chemical physics Chemical instrumentation Electrochemistry, electrodialysis, microfluidics, sensors Method development in chemistry Heterogeneous catalysis Physical chemistry of biological systems Chemical reactions: mechanisms, dynamics, kinetics and catalytic reactions Theoretical and computational chemistry Photochemistry Biological chemistry Macromolecular chemistry Organic chemistry Medicinal chemistry 3. Computer Science and Informatics Computer architecture Computer systems Software engineering, operating systems, computer languages Theoretical computer science, formal methods, and quantum computing Algorithms Artificial intelligence, intelligent systems, multi agent systems Computer graphics, computer vision, multi media Human computer interaction and interface Web and information systems, database systems Machine learning Scientific computing, simulation and modelling tools Bioinformatics Biocomputing and molecular computation 4. Molecular Biology, Biochemistry, Structural Biology and Molecular Biophysics Macromolecular complexes Biochemistry DNA synthesis, modification, repair, recombination, degradation RNA synthesis, processing, modification, degradation Protein synthesis, modification, turnover Lipid biology Glycobiology Molecular biophysics (e.g. single-molecule approaches, bioenergetics, fluorescence) Structural biology and its methodologies (e.g. crystallography, cryo-EM, NMR and new technologies) Molecular mechanisms of signalling pathways Fundamental aspects of synthetic biology and chemical biology 5. Genetics, ’Omics’, Bioinformatics and Systems Biology Molecular genetics, reverse genetics, forward genetics, genome editing Non-coding RNAs Quantitative genetics Genetic epidemiology Epigenetics and gene regulation Genomics (e.g. comparative genomics, functional genomics) Metagenomics Transcriptomics Proteomics Metabolomics Glycomics/Lipidomics Bioinformatics Computational biology Biostatistics Systems biology 6. Cellular and Developmental Biology Morphology and functional imaging of cells and tissues Cytoskeleton and cell behaviour Organelle biology and trafficking Cell junctions, cell adhesion, cell communication and the extracellular matrix Cell signalling and signal transduction Cell cycle, division and growth Cell death (including senescence) and autophagy Cell differentiation, physiology and dynamics Developmental genetics in animals and plants Embryology and pattern formation Tissue organisation and morphogenesis Stem cell biology 7. Physiology, Pathophysiology and Endocrinology Organ physiology and pathophysiology Comparative physiology and pathophysiology Molecular aspects of endocrinology Fundamental mechanisms underlying ageing Metabolism, biological basis of metabolism-related disorders Fundamental mechanisms underlying cancer Fundamental mechanisms underlying cardiovascular diseases Non-communicable diseases 8. Neuroscience and Neural Disorders Neural cell function, communication and signalling, neurotransmission Systems neuroscience and computational neuroscience Neuronal development, plasticity and regeneration Sensation and perception Neural bases of cognitive processes Neural bases of behaviour Neurological disorders Psychiatric disorders Neurotrauma and neurovascular conditions 9. Immunity and Infection Innate immunity Adaptive immunity Regulation and effector functions of the immune response Immunological mechanisms in disease Biology of pathogens Mechanisms of infection Biological basis of prevention and treatment of infection Infectious diseases 10. Applied Medical Technologies, Diagnostics, Therapies and Public Health Imaging for medical diagnosis Genetic tools for medical diagnosis Other medical technologies for diagnosis and monitoring of diseases Pharmacology and pharmacogenomics (including drug discovery and design) Applied gene and cell therapies, regenerative medicine Epidemiology and public health Health services, health care research, medical ethics 11. Ecology, Evolution and Environmental Biology Population biology, population dynamics, population genetics Evolutionary genetics Phylogenetics, systematics, comparative biology Behavioural ecology and evolution 12. Applied Life Sciences and Biotechnology Applied biotechnology (including transgenic organisms, applied genetics and genomics, biosensors, bioreactors, microbiology, bioactive compounds) Applied bioengineering, synthetic biology, chemical biology, nanobiotechnology, metabolic engineering, protein and glyco-engineering, tissue engineering, biocatalysis, biomimetics Applied animal sciences (including animal breeding, veterinary sciences) Food sciences Environmental biotechnology
ERC keyword classification of your research - (Second priority) 1. Mathematics (applications in science and industry) 2. Physics and Chemistry Nanophysics Statistical physics Physics of biological systems Physical chemistry Spectroscopic and spectrometric techniques Molecular architecture and structure Surface science and nanostructures Analytical chemistry Chemical physics Chemical instrumentation Electrochemistry, electrodialysis, microfluidics, sensors Method development in chemistry Heterogeneous catalysis Physical chemistry of biological systems Chemical reactions: mechanisms, dynamics, kinetics and catalytic reactions Theoretical and computational chemistry Photochemistry Biological chemistry Macromolecular chemistry Organic chemistry Medicinal chemistry 3. Computer Science and Informatics Computer architecture Computer systems Software engineering, operating systems, computer languages Theoretical computer science, formal methods, and quantum computing Algorithms Artificial intelligence, intelligent systems, multi agent systems Computer graphics, computer vision, multi media Human computer interaction and interface Web and information systems, database systems Machine learning Scientific computing, simulation and modelling tools Bioinformatics Biocomputing and molecular computation 4. Molecular Biology, Biochemistry, Structural Biology and Molecular Biophysics Macromolecular complexes Biochemistry DNA synthesis, modification, repair, recombination, degradation RNA synthesis, processing, modification, degradation Protein synthesis, modification, turnover Lipid biology Glycobiology Molecular biophysics (e.g. single-molecule approaches, bioenergetics, fluorescence) Structural biology and its methodologies (e.g. crystallography, cryo-EM, NMR and new technologies) Molecular mechanisms of signalling pathways Fundamental aspects of synthetic biology and chemical biology 5. Genetics, ’Omics’, Bioinformatics and Systems Biology Molecular genetics, reverse genetics, forward genetics, genome editing Non-coding RNAs Quantitative genetics Genetic epidemiology Epigenetics and gene regulation Genomics (e.g. comparative genomics, functional genomics) Metagenomics Transcriptomics Proteomics Metabolomics Glycomics/Lipidomics Bioinformatics Computational biology Biostatistics Systems biology 6. Cellular and Developmental Biology Morphology and functional imaging of cells and tissues Cytoskeleton and cell behaviour Organelle biology and trafficking Cell junctions, cell adhesion, cell communication and the extracellular matrix Cell signalling and signal transduction Cell cycle, division and growth Cell death (including senescence) and autophagy Cell differentiation, physiology and dynamics Developmental genetics in animals and plants Embryology and pattern formation Tissue organisation and morphogenesis Stem cell biology 7. Physiology, Pathophysiology and Endocrinology Organ physiology and pathophysiology Comparative physiology and pathophysiology Molecular aspects of endocrinology Fundamental mechanisms underlying ageing Metabolism, biological basis of metabolism-related disorders Fundamental mechanisms underlying cancer Fundamental mechanisms underlying cardiovascular diseases Non-communicable diseases 8. Neuroscience and Neural Disorders Neural cell function, communication and signalling, neurotransmission Systems neuroscience and computational neuroscience Neuronal development, plasticity and regeneration Sensation and perception Neural bases of cognitive processes Neural bases of behaviour Neurological disorders Psychiatric disorders Neurotrauma and neurovascular conditions 9. Immunity and Infection Innate immunity Adaptive immunity Regulation and effector functions of the immune response Immunological mechanisms in disease Biology of pathogens Mechanisms of infection Biological basis of prevention and treatment of infection Infectious diseases 10. Applied Medical Technologies, Diagnostics, Therapies and Public Health Imaging for medical diagnosis Genetic tools for medical diagnosis Other medical technologies for diagnosis and monitoring of diseases Pharmacology and pharmacogenomics (including drug discovery and design) Applied gene and cell therapies, regenerative medicine Epidemiology and public health Health services, health care research, medical ethics 11. Ecology, Evolution and Environmental Biology Population biology, population dynamics, population genetics Evolutionary genetics Phylogenetics, systematics, comparative biology Behavioural ecology and evolution 12. Applied Life Sciences and Biotechnology Applied biotechnology (including transgenic organisms, applied genetics and genomics, biosensors, bioreactors, microbiology, bioactive compounds) Applied bioengineering, synthetic biology, chemical biology, nanobiotechnology, metabolic engineering, protein and glyco-engineering, tissue engineering, biocatalysis, biomimetics Applied animal sciences (including animal breeding, veterinary sciences) Food sciences Environmental biotechnology
ERC keyword classification of your research - (Third priority) 1. Mathematics (applications in science and industry) 2. Physics and Chemistry Nanophysics Statistical physics Physics of biological systems Physical chemistry Spectroscopic and spectrometric techniques Molecular architecture and structure Surface science and nanostructures Analytical chemistry Chemical physics Chemical instrumentation Electrochemistry, electrodialysis, microfluidics, sensors Method development in chemistry Heterogeneous catalysis Physical chemistry of biological systems Chemical reactions: mechanisms, dynamics, kinetics and catalytic reactions Theoretical and computational chemistry Photochemistry Biological chemistry Macromolecular chemistry Organic chemistry Medicinal chemistry 3. Computer Science and Informatics Computer architecture Computer systems Software engineering, operating systems, computer languages Theoretical computer science, formal methods, and quantum computing Algorithms Artificial intelligence, intelligent systems, multi agent systems Computer graphics, computer vision, multi media Human computer interaction and interface Web and information systems, database systems Machine learning Scientific computing, simulation and modelling tools Bioinformatics Biocomputing and molecular computation 4. Molecular Biology, Biochemistry, Structural Biology and Molecular Biophysics Macromolecular complexes Biochemistry DNA synthesis, modification, repair, recombination, degradation RNA synthesis, processing, modification, degradation Protein synthesis, modification, turnover Lipid biology Glycobiology Molecular biophysics (e.g. single-molecule approaches, bioenergetics, fluorescence) Structural biology and its methodologies (e.g. crystallography, cryo-EM, NMR and new technologies) Molecular mechanisms of signalling pathways Fundamental aspects of synthetic biology and chemical biology 5. Genetics, ’Omics’, Bioinformatics and Systems Biology Molecular genetics, reverse genetics, forward genetics, genome editing Non-coding RNAs Quantitative genetics Genetic epidemiology Epigenetics and gene regulation Genomics (e.g. comparative genomics, functional genomics) Metagenomics Transcriptomics Proteomics Metabolomics Glycomics/Lipidomics Bioinformatics Computational biology Biostatistics Systems biology 6. Cellular and Developmental Biology Morphology and functional imaging of cells and tissues Cytoskeleton and cell behaviour Organelle biology and trafficking Cell junctions, cell adhesion, cell communication and the extracellular matrix Cell signalling and signal transduction Cell cycle, division and growth Cell death (including senescence) and autophagy Cell differentiation, physiology and dynamics Developmental genetics in animals and plants Embryology and pattern formation Tissue organisation and morphogenesis Stem cell biology 7. Physiology, Pathophysiology and Endocrinology Organ physiology and pathophysiology Comparative physiology and pathophysiology Molecular aspects of endocrinology Fundamental mechanisms underlying ageing Metabolism, biological basis of metabolism-related disorders Fundamental mechanisms underlying cancer Fundamental mechanisms underlying cardiovascular diseases Non-communicable diseases 8. Neuroscience and Neural Disorders Neural cell function, communication and signalling, neurotransmission Systems neuroscience and computational neuroscience Neuronal development, plasticity and regeneration Sensation and perception Neural bases of cognitive processes Neural bases of behaviour Neurological disorders Psychiatric disorders Neurotrauma and neurovascular conditions 9. Immunity and Infection Innate immunity Adaptive immunity Regulation and effector functions of the immune response Immunological mechanisms in disease Biology of pathogens Mechanisms of infection Biological basis of prevention and treatment of infection Infectious diseases 10. Applied Medical Technologies, Diagnostics, Therapies and Public Health Imaging for medical diagnosis Genetic tools for medical diagnosis Other medical technologies for diagnosis and monitoring of diseases Pharmacology and pharmacogenomics (including drug discovery and design) Applied gene and cell therapies, regenerative medicine Epidemiology and public health Health services, health care research, medical ethics 11. Ecology, Evolution and Environmental Biology Population biology, population dynamics, population genetics Evolutionary genetics Phylogenetics, systematics, comparative biology Behavioural ecology and evolution 12. Applied Life Sciences and Biotechnology Applied biotechnology (including transgenic organisms, applied genetics and genomics, biosensors, bioreactors, microbiology, bioactive compounds) Applied bioengineering, synthetic biology, chemical biology, nanobiotechnology, metabolic engineering, protein and glyco-engineering, tissue engineering, biocatalysis, biomimetics Applied animal sciences (including animal breeding, veterinary sciences) Food sciences Environmental biotechnology
Up to three techniques of expertise - First Computational Structural Biophysical Biochemical Cell biology Pharmacology Chemistry Animal models Behavioral Clinical
The user can select a maximum of three categories (the same can be selected several times). For each selected technique, the user can type a keyword connected to it.
Up to three techniques of expertise - Second Computational Structural Biophysical Biochemical Cell biology Pharmacology Chemistry Animal models Behavioral Clinical
The user can select a maximum of three categories (the same can be selected several times). For each selected technique, the user can type a keyword connected to it.
Up to three techniques of expertise - Third Computational Structural Biophysical Biochemical Cell biology Pharmacology Chemistry Animal models Behavioral Clinical
The user can select a maximum of three categories (the same can be selected several times). For each selected technique, the user can type a keyword connected to it.
Connected keyword - technique 1
Connected keyword - Technique 2
Connected keyword - Technique 3
Research Interests
Three keywords to describe your research interests:Keyword 1
Keyword 2
Keyword 3
What are the emerging technologies in your research field?
Agreement* By filling and submitting this form you express your interest to participate in COST Action CA18133.