Project acronym AHRIMMUNITY
Project The influence of Aryl hydrocarbon receptor ligands on protective and pathological immune responses
Researcher (PI) Brigitta Stockinger
Host Institution (HI) MEDICAL RESEARCH COUNCIL
Call Details Advanced Grant (AdG), LS6, ERC-2008-AdG
Summary The Aryl hydrocarbon receptor is an evolutionary conserved widely expressed transcription factor that mediates the toxicity of a substantial variety of exogenous toxins, but is also stimulated by endogenous physiological ligands. While it is known that this receptor mediates the toxicity of dioxin, this is unlikely to be its physiological function. We have recently identified selective expression of AhR in the Th17 subset of effector CD4 T cells. Ligation of AhR by a candidate endogenous ligand (FICZ) which is a UV metabolite of tryptophan causes expansion of Th17 cells and the induction of IL-22 production. As a consequence, AhR ligation will exacerbate autoimmune diseases such as experimental autoimmune encephalomyelitis. Little is known so far about the impact of AhR ligands on IL-17/IL-22 mediated immune defense functions. IL-22 is considered a pro-inflammatory Th17 cytokine, which is involved in the etiology of psoriasis, but it has also been shown to be a survival factor for epithelial cells. AhR is polymorphic and defined as high or low affinity receptor for dioxin leading to the classification of high and low responder mouse strains based on defined mutations. In humans similar polymorphisms exist and although on the whole human AhR is thought to be of low affinity in humans, there are identified mutations that confer high responder status. No correlations have been made with Th17 mediated immune responses in mice and humans. This study aims to investigate the role of AhR ligands and polymorphisms in autoimmunity as well as protective immune responses using both mouse models and human samples from normal controls as well as psoriasis patients.
Summary
The Aryl hydrocarbon receptor is an evolutionary conserved widely expressed transcription factor that mediates the toxicity of a substantial variety of exogenous toxins, but is also stimulated by endogenous physiological ligands. While it is known that this receptor mediates the toxicity of dioxin, this is unlikely to be its physiological function. We have recently identified selective expression of AhR in the Th17 subset of effector CD4 T cells. Ligation of AhR by a candidate endogenous ligand (FICZ) which is a UV metabolite of tryptophan causes expansion of Th17 cells and the induction of IL-22 production. As a consequence, AhR ligation will exacerbate autoimmune diseases such as experimental autoimmune encephalomyelitis. Little is known so far about the impact of AhR ligands on IL-17/IL-22 mediated immune defense functions. IL-22 is considered a pro-inflammatory Th17 cytokine, which is involved in the etiology of psoriasis, but it has also been shown to be a survival factor for epithelial cells. AhR is polymorphic and defined as high or low affinity receptor for dioxin leading to the classification of high and low responder mouse strains based on defined mutations. In humans similar polymorphisms exist and although on the whole human AhR is thought to be of low affinity in humans, there are identified mutations that confer high responder status. No correlations have been made with Th17 mediated immune responses in mice and humans. This study aims to investigate the role of AhR ligands and polymorphisms in autoimmunity as well as protective immune responses using both mouse models and human samples from normal controls as well as psoriasis patients.
Max ERC Funding
1 242 352 €
Duration
Start date: 2009-02-01, End date: 2014-01-31
Project acronym ALBUGON
Project Genomics and effectoromics to understand defence suppression and disease resistance in Arabidopsis-Albugo candida interactions
Researcher (PI) Jonathan Jones
Host Institution (HI) THE SAINSBURY LABORATORY
Call Details Advanced Grant (AdG), LS6, ERC-2008-AdG
Summary This project focuses on two questions about host/parasite interactions: how do biotrophic plant pathogens suppress host defence? and, what is the basis for pathogen specialization on specific host species? A broadly accepted model explains resistance and susceptibility to plant pathogens. First, pathogens make conserved molecules ( PAMPS ) such as flagellin, that plants detect via cell surface receptors, leading to PAMP-Triggered Immunity (PTI). Second, pathogens make effectors that suppress PTI. Third, plants carry 100s of Resistance (R) genes that detect an effector, and activate Effector-Triggered Immunity (ETI). One effector is sufficient to trigger resistance. Albugo candida (Ac) (white rust) strongly suppresses host defence; Ac-infected Arabidopsis are susceptible to pathogen races to which they are otherwise resistant. Ac is an oomycete, not a fungus. Arabidopsis is resistant to races of Ac that infect brassicas. The proposed project involves three programs. First ( genomics, transcriptomics and bioinformatics ), we will use next-generation sequencing (NGS) methods (Solexa and GS-Flex), and novel transcriptomics methods to define the genome sequence and effector set of three Ac strains, as well as carrying out >40- deep resequencing of 7 additional Ac strains. Second, ( effectoromics ), we will carry out functional assays using Effector Detector Vectors (Sohn Plant Cell 19:4077 [2007]), with the set of Ac effectors, screening for enhanced virulence, for suppression of defence, for effectors that are recognized by R genes in disease resistant Arabidopsis and for host effector targets. Third, ( resistance diversity ), we will characterize Arabidopsis germplasm for R genes to Ac, both for recognition of Arabidopsis strains of Ac, and for recognition in Arabidopsis of effectors from Ac strains that infect brassica. This proposal focuses on Ac, but will establish methods that could discover new R genes in non-hosts against many plant diseases.
Summary
This project focuses on two questions about host/parasite interactions: how do biotrophic plant pathogens suppress host defence? and, what is the basis for pathogen specialization on specific host species? A broadly accepted model explains resistance and susceptibility to plant pathogens. First, pathogens make conserved molecules ( PAMPS ) such as flagellin, that plants detect via cell surface receptors, leading to PAMP-Triggered Immunity (PTI). Second, pathogens make effectors that suppress PTI. Third, plants carry 100s of Resistance (R) genes that detect an effector, and activate Effector-Triggered Immunity (ETI). One effector is sufficient to trigger resistance. Albugo candida (Ac) (white rust) strongly suppresses host defence; Ac-infected Arabidopsis are susceptible to pathogen races to which they are otherwise resistant. Ac is an oomycete, not a fungus. Arabidopsis is resistant to races of Ac that infect brassicas. The proposed project involves three programs. First ( genomics, transcriptomics and bioinformatics ), we will use next-generation sequencing (NGS) methods (Solexa and GS-Flex), and novel transcriptomics methods to define the genome sequence and effector set of three Ac strains, as well as carrying out >40- deep resequencing of 7 additional Ac strains. Second, ( effectoromics ), we will carry out functional assays using Effector Detector Vectors (Sohn Plant Cell 19:4077 [2007]), with the set of Ac effectors, screening for enhanced virulence, for suppression of defence, for effectors that are recognized by R genes in disease resistant Arabidopsis and for host effector targets. Third, ( resistance diversity ), we will characterize Arabidopsis germplasm for R genes to Ac, both for recognition of Arabidopsis strains of Ac, and for recognition in Arabidopsis of effectors from Ac strains that infect brassica. This proposal focuses on Ac, but will establish methods that could discover new R genes in non-hosts against many plant diseases.
Max ERC Funding
2 498 923 €
Duration
Start date: 2009-01-01, End date: 2014-06-30
Project acronym ALREG
Project Analysing Learning in Regulatory Governance
Researcher (PI) Claudio Radaelli
Host Institution (HI) THE UNIVERSITY OF EXETER
Call Details Advanced Grant (AdG), SH2, ERC-2008-AdG
Summary This four-year interdisciplinary project addresses the question what has been learned through the use of better regulation ? Better regulation is a flagship policy on the Lisbon agenda for growth and jobs. Its aims are to provide new governance architectures for law-making, to increase the competitiveness of the regulatory environment, and to secure wide social legitimacy for multi-level systems of rules. Whilst most of the research has looked at how better regulation is changing, this project will produce findings on what has changed because of better regulation. Theoretically, the project will use (and significantly improve on) theories of policy learning. Empirically, it will cover Denmark, Italy, the Netherlands, Poland, the UK and the EU including multi-level analysis and analysis by sector of regulation. Methodologically, the project will draw on comparative analysis of types of learning, experiments with regulatory policy-makers in six countries and the European Commission, large-n analysis of impact assessments, backward-mapping of legislation (to appraise the role played by better regulation in the formulation or laws in the UK and the EU), meta-analysis of case-studies and co-production of knowledge with better regulation officers. Dissemination will target both stakeholders (i.e., policy officers, civil society organizations, and business federations) and academic conferences in political science, law, and risk analysis, with a major research monograph to be completed in year 4 and a final interdisciplinary conference.
Summary
This four-year interdisciplinary project addresses the question what has been learned through the use of better regulation ? Better regulation is a flagship policy on the Lisbon agenda for growth and jobs. Its aims are to provide new governance architectures for law-making, to increase the competitiveness of the regulatory environment, and to secure wide social legitimacy for multi-level systems of rules. Whilst most of the research has looked at how better regulation is changing, this project will produce findings on what has changed because of better regulation. Theoretically, the project will use (and significantly improve on) theories of policy learning. Empirically, it will cover Denmark, Italy, the Netherlands, Poland, the UK and the EU including multi-level analysis and analysis by sector of regulation. Methodologically, the project will draw on comparative analysis of types of learning, experiments with regulatory policy-makers in six countries and the European Commission, large-n analysis of impact assessments, backward-mapping of legislation (to appraise the role played by better regulation in the formulation or laws in the UK and the EU), meta-analysis of case-studies and co-production of knowledge with better regulation officers. Dissemination will target both stakeholders (i.e., policy officers, civil society organizations, and business federations) and academic conferences in political science, law, and risk analysis, with a major research monograph to be completed in year 4 and a final interdisciplinary conference.
Max ERC Funding
948 448 €
Duration
Start date: 2009-09-01, End date: 2013-09-30
Project acronym AMSTAT
Project Problems at the Applied Mathematics-Statistics Interface
Researcher (PI) Andrew Stuart
Host Institution (HI) THE UNIVERSITY OF WARWICK
Call Details Advanced Grant (AdG), PE1, ERC-2008-AdG
Summary Applied mathematics is concerned with developing models with predictive capability, and with probing those models to obtain qualitative and quantitative insight into the phenomena being modelled. Statistics is data-driven and is aimed at the development of methodologies to optimize the information derived from data. The increasing complexity of phenomena that scientists and engineers wish to model, together with our increased ability to gather, store and interrogate data, mean that the subjects of applied mathematics and statistics are increasingly required to work in conjunction. This research proposal is concerned with a research program at the interface between these two disciplines, aimed at problems in differential equations where profusion of data and the sophisticated model combine to produce the mathematical problem of obtaining information from a probability measure on function space. Applications are far-reaching and include the atmospheric sciences, geophysics, chemistry, econometrics and signal processing. The objectives of the research are: (i) to create the systematic foundations for a range of problems at the applied mathematics and statistics interface which share the common mathematical structure underpinning the range of applications described above; (ii) to exploit this common mathematical structure to design effecient algorithms to sample probability measures on function space; (iii) to apply these algorithms to attack a range of significant problems arising in molecular dynamics and in the atmospheric sciences.
Summary
Applied mathematics is concerned with developing models with predictive capability, and with probing those models to obtain qualitative and quantitative insight into the phenomena being modelled. Statistics is data-driven and is aimed at the development of methodologies to optimize the information derived from data. The increasing complexity of phenomena that scientists and engineers wish to model, together with our increased ability to gather, store and interrogate data, mean that the subjects of applied mathematics and statistics are increasingly required to work in conjunction. This research proposal is concerned with a research program at the interface between these two disciplines, aimed at problems in differential equations where profusion of data and the sophisticated model combine to produce the mathematical problem of obtaining information from a probability measure on function space. Applications are far-reaching and include the atmospheric sciences, geophysics, chemistry, econometrics and signal processing. The objectives of the research are: (i) to create the systematic foundations for a range of problems at the applied mathematics and statistics interface which share the common mathematical structure underpinning the range of applications described above; (ii) to exploit this common mathematical structure to design effecient algorithms to sample probability measures on function space; (iii) to apply these algorithms to attack a range of significant problems arising in molecular dynamics and in the atmospheric sciences.
Max ERC Funding
1 693 501 €
Duration
Start date: 2008-12-01, End date: 2014-11-30
Project acronym BRIO
Project Bounded Rationality in Industrial Organization
Researcher (PI) Ran Spiegler
Host Institution (HI) UNIVERSITY COLLEGE LONDON
Call Details Advanced Grant (AdG), SH1, ERC-2008-AdG
Summary "Economists' modern understanding of the functioning of markets is based on the behavioral assumption of individual rationality. Market agents are assumed to hold well-defined preferences and have perfect ability to draw Bayesian inferences in accordance with correct knowledge of the market model and market equilibrium. This research proposal is based on the premise that bounded rationality on the part of consumers is potentially a major source of market friction. My objective is to develop general theoretical tools to investigate this intuition, and to examine whether these tools can be insightfully applied to realistic market settings. So far, the literature on the subject has progressed as a sequence of specific models that capture one aspect of consumer psychology at a time. The challenge is to synthesize and generalize these models into flexible theoretical frameworks for modelling market interaction between profit-maximizing firms and boundedly rational consumers. Hopefully, various aspects of consumer psychology can be embedded into these frameworks, so that analytic results can be stated in terms of general, abstract properties of consumer behavior, rather than in terms of specific psychological effects. In turn, this general analysis is expected to lead to novel applications. Here are some of the general questions that I hope to address. Can we view certain aspects of firms' pricing and marketing strategies as responses to consumers' bounded rationality? To what extent are boundedly rational consumers vulnerable to exploitation by firms? Does competition protect them from exploitation? Does interaction between firms and boundedly rational consumers give rise to inefficiencies, and how are these affected by competition? What is the impact of various regulatory interventions in this context? Do market forces lead firms to ""educate"" or ""debias"" boundedly rational consumers? Does greater consumer rationality imply more competitive industry profits?"
Summary
"Economists' modern understanding of the functioning of markets is based on the behavioral assumption of individual rationality. Market agents are assumed to hold well-defined preferences and have perfect ability to draw Bayesian inferences in accordance with correct knowledge of the market model and market equilibrium. This research proposal is based on the premise that bounded rationality on the part of consumers is potentially a major source of market friction. My objective is to develop general theoretical tools to investigate this intuition, and to examine whether these tools can be insightfully applied to realistic market settings. So far, the literature on the subject has progressed as a sequence of specific models that capture one aspect of consumer psychology at a time. The challenge is to synthesize and generalize these models into flexible theoretical frameworks for modelling market interaction between profit-maximizing firms and boundedly rational consumers. Hopefully, various aspects of consumer psychology can be embedded into these frameworks, so that analytic results can be stated in terms of general, abstract properties of consumer behavior, rather than in terms of specific psychological effects. In turn, this general analysis is expected to lead to novel applications. Here are some of the general questions that I hope to address. Can we view certain aspects of firms' pricing and marketing strategies as responses to consumers' bounded rationality? To what extent are boundedly rational consumers vulnerable to exploitation by firms? Does competition protect them from exploitation? Does interaction between firms and boundedly rational consumers give rise to inefficiencies, and how are these affected by competition? What is the impact of various regulatory interventions in this context? Do market forces lead firms to ""educate"" or ""debias"" boundedly rational consumers? Does greater consumer rationality imply more competitive industry profits?"
Max ERC Funding
1 098 637 €
Duration
Start date: 2008-11-01, End date: 2014-10-31
Project acronym CADRE
Project Cardiac Death and Regeneration
Researcher (PI) Michael David Schneider
Host Institution (HI) IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE
Call Details Advanced Grant (AdG), LS4, ERC-2008-AdG
Summary Cardiac muscle death, unmatched by muscle cell creation, is the hallmark of acute myocardial infarction and chronic cardiomyopathies. The notion of heart failure as a muscle-cell deficiency disease has driven interest worldwide in ways to increase heart muscle cell number, by over-riding cell cycle constraints, suppressing cell death, or, most directly, cell grafting. Using stem cell antigen-1, we previously identified telomerase-expressing cells in adult mouse myocardium, which have salutary properties for bona fide cardiac regeneration. Here, we seek to address systematically the mechanisms for long-term self-renewal in Sca-1+ adult cardiac progenitor cells and in the smaller side population fraction, which is clonogenic and expresses telomerase at even higher levels. Specifically, we propose to study the roles of telomerase and of the telomere-capping protein, TRF2. Aim 1, Determine the properties of adult cardiac progenitor cells in mice that lack the RNA component of telomerase (TERC). Aim 2, Determine the properties of adult cardiac progenitor cells in mice that lack the catalytic component (TERT). To distinguish between effects of these two gene products themselves versus those that depend on cumulative telomere dysfunction, G2- and G5-null mice will be compared. Aim 3, Determine the properties of adult cardiac muscle and adult cardiac progenitor cells that lack the telomere-capping protein TRF2. Aim 4, Test the prediction that forced expression of TERT and TRF2 can augment cardiac muscle engraftment in vivo and enhance the clonal derivation of adult cardiac progenitor cells in vitro, without adversely affecting the cells differentiation potential. Work proposed in Aims 1-3 would provide indispensable fundamental information about the function of endogenous telomerase in adult cardiac progenitor cells. Conversely, work in Aim 4 would test potential therapeutic implications of telomerase and a telomere-capping protein with this auspicious population.
Summary
Cardiac muscle death, unmatched by muscle cell creation, is the hallmark of acute myocardial infarction and chronic cardiomyopathies. The notion of heart failure as a muscle-cell deficiency disease has driven interest worldwide in ways to increase heart muscle cell number, by over-riding cell cycle constraints, suppressing cell death, or, most directly, cell grafting. Using stem cell antigen-1, we previously identified telomerase-expressing cells in adult mouse myocardium, which have salutary properties for bona fide cardiac regeneration. Here, we seek to address systematically the mechanisms for long-term self-renewal in Sca-1+ adult cardiac progenitor cells and in the smaller side population fraction, which is clonogenic and expresses telomerase at even higher levels. Specifically, we propose to study the roles of telomerase and of the telomere-capping protein, TRF2. Aim 1, Determine the properties of adult cardiac progenitor cells in mice that lack the RNA component of telomerase (TERC). Aim 2, Determine the properties of adult cardiac progenitor cells in mice that lack the catalytic component (TERT). To distinguish between effects of these two gene products themselves versus those that depend on cumulative telomere dysfunction, G2- and G5-null mice will be compared. Aim 3, Determine the properties of adult cardiac muscle and adult cardiac progenitor cells that lack the telomere-capping protein TRF2. Aim 4, Test the prediction that forced expression of TERT and TRF2 can augment cardiac muscle engraftment in vivo and enhance the clonal derivation of adult cardiac progenitor cells in vitro, without adversely affecting the cells differentiation potential. Work proposed in Aims 1-3 would provide indispensable fundamental information about the function of endogenous telomerase in adult cardiac progenitor cells. Conversely, work in Aim 4 would test potential therapeutic implications of telomerase and a telomere-capping protein with this auspicious population.
Max ERC Funding
2 497 576 €
Duration
Start date: 2009-01-01, End date: 2013-12-31
Project acronym CAPER/BREAST CANCE
Project CAPER in Invasive Breast Cancer
Researcher (PI) Michael Lisanti
Host Institution (HI) THE UNIVERSITY OF MANCHESTER
Call Details Advanced Grant (AdG), LS7, ERC-2008-AdG
Summary Breast cancer is a major cause of death in the United States and the Western World. Advanced medical technologies and therapeutic strategies are necessary for the successful detection, diagnosis, and treatment of breast cancer. Here, we propose to use novel technologies (tissue microarrays (TMA) and automated quantivative bioimaging (AQUA)) to identify new therapeutic and prognostic markers for human breast cancer. More specifically, we will study the activation status of a new signaling pathway which we have implicated in breast cancer pathogenesis, using both mouse animal models and cells in culture. For this purpose, we will study the association of CAPER expression with pre-malignant lesions and progression from pre-malignancy to full-blown breast cancer. We expect that this new molecular marker will allow us to improve diagnostic accuracy for individual patients, enhancing both the prognostic predictions as well as the prediction of drug responsiveness for a given patient.
Summary
Breast cancer is a major cause of death in the United States and the Western World. Advanced medical technologies and therapeutic strategies are necessary for the successful detection, diagnosis, and treatment of breast cancer. Here, we propose to use novel technologies (tissue microarrays (TMA) and automated quantivative bioimaging (AQUA)) to identify new therapeutic and prognostic markers for human breast cancer. More specifically, we will study the activation status of a new signaling pathway which we have implicated in breast cancer pathogenesis, using both mouse animal models and cells in culture. For this purpose, we will study the association of CAPER expression with pre-malignant lesions and progression from pre-malignancy to full-blown breast cancer. We expect that this new molecular marker will allow us to improve diagnostic accuracy for individual patients, enhancing both the prognostic predictions as well as the prediction of drug responsiveness for a given patient.
Max ERC Funding
1 500 000 €
Duration
Start date: 2010-01-01, End date: 2014-12-31
Project acronym CITSEE
Project The Europeanisation of Citizenship in the Successor States of the Former Yugoslavia
Researcher (PI) Josephine Shaw
Host Institution (HI) THE UNIVERSITY OF EDINBURGH
Call Details Advanced Grant (AdG), SH2, ERC-2008-AdG
Summary CITSEE is a comparative and contextualised study of the citizenship regimes of the seven successor states of the former Yugoslavia (SFRY) in their broader European context. It focuses on the relationship between how these regimes have developed after the disintegration of SFRY and the processes of re-integration occurring in the context of the enlargement of the European Union applied in the region. It makes use of the varied statuses under EU law of the SFRY successor states, of which only Slovenia is so far a Member State. The processes at the heart of the study include the effects of previous and prospective enlargements of the EU and the broader stabilisation and association processes. CITSEE uses methods which look at legal and institutional change in its broader political context and applies the broad approach of constitutional ethnography. It has national case studies and thematic case studies of key issues which have a transnational dimension, including the status of residents of the former SFRY Republics resident in other Republics at the moment of independence, dual and multiple nationality, the granting or denial of political rights for resident non-nationals and non-resident nationals, the status of minorities such as the Roma, gender issues arising in a citizenship context, and the impact of citizenship concepts on free movement and travel across borders. While CITSEE s objectives are not normative in nature, and are not intended to supply answers as to best or worst practices in relation to citizenship regimes, or to evaluate the impact of Europeanisation as negative or positive, none the less such an evaluative study is likely to be of interest not only to researchers, but also to NGOs and to policy-makers in the region and in the EU and other international institutions because it fills in many gaps in our current knowledge and provides improved evidence on the basis of which policies may be developed in the future.
Summary
CITSEE is a comparative and contextualised study of the citizenship regimes of the seven successor states of the former Yugoslavia (SFRY) in their broader European context. It focuses on the relationship between how these regimes have developed after the disintegration of SFRY and the processes of re-integration occurring in the context of the enlargement of the European Union applied in the region. It makes use of the varied statuses under EU law of the SFRY successor states, of which only Slovenia is so far a Member State. The processes at the heart of the study include the effects of previous and prospective enlargements of the EU and the broader stabilisation and association processes. CITSEE uses methods which look at legal and institutional change in its broader political context and applies the broad approach of constitutional ethnography. It has national case studies and thematic case studies of key issues which have a transnational dimension, including the status of residents of the former SFRY Republics resident in other Republics at the moment of independence, dual and multiple nationality, the granting or denial of political rights for resident non-nationals and non-resident nationals, the status of minorities such as the Roma, gender issues arising in a citizenship context, and the impact of citizenship concepts on free movement and travel across borders. While CITSEE s objectives are not normative in nature, and are not intended to supply answers as to best or worst practices in relation to citizenship regimes, or to evaluate the impact of Europeanisation as negative or positive, none the less such an evaluative study is likely to be of interest not only to researchers, but also to NGOs and to policy-makers in the region and in the EU and other international institutions because it fills in many gaps in our current knowledge and provides improved evidence on the basis of which policies may be developed in the future.
Max ERC Funding
2 240 000 €
Duration
Start date: 2009-04-01, End date: 2014-12-31
Project acronym COLSTRUCTION
Project Numerical Design of Self Assembly of Complex Colloidal Structures
Researcher (PI) Daniel Frenkel
Host Institution (HI) THE CHANCELLOR MASTERS AND SCHOLARSOF THE UNIVERSITY OF CAMBRIDGE
Call Details Advanced Grant (AdG), PE3, ERC-2008-AdG
Summary I propose to use computer simulations to predict the thermodynamic stability and kinetics of formation of three-dimensional structures of DNA-linked colloids. I then aim to go beyond simple binary structures and use simulation to explore novel strategies to build multi-component three-dimensional colloidal structures. At present, the complexity of self-assembled colloidal crystals is limited: ordered structures with more than two distinct components are rare. To make more complex structures, particles should bind selectively to their designated neighbours. This may be achieved by coating colloids with single-stranded DNA that hybridises selectively with the complementary sequence on another colloid. However, there are many practical obstacles to go from there to the self assembly of multi-component structures. In order to make progress, we need to understand the factors that determine the thermodynamic stability and, even more importantly, the kinetics of formation of complex structures. Such a numerical study will require a wide range of numerical techniques, many of which do not yet exist. As I have played a key role in the development of the numerical methods to study both the stability and the kinetics of formation of simple colloidal crystals, I am well positioned to make a breakthrough that should have important implications for experimental work in this field. My research will focus on DNA-linked colloidal systems, as this is an active area of experimental research. However, I stress that many of the techniques that I aim to develop are general. During the project, I aim to study the factors that influence the equilibrium phase diagram and the kinetics of passive and active self-assembly of (multi-component) DNA-colloid systems During the project, I aim to study the factors that influence the equilibrium phase diagram and the kinetics of passive and active self-assembly of (multi-component) DNA-colloid systems
Summary
I propose to use computer simulations to predict the thermodynamic stability and kinetics of formation of three-dimensional structures of DNA-linked colloids. I then aim to go beyond simple binary structures and use simulation to explore novel strategies to build multi-component three-dimensional colloidal structures. At present, the complexity of self-assembled colloidal crystals is limited: ordered structures with more than two distinct components are rare. To make more complex structures, particles should bind selectively to their designated neighbours. This may be achieved by coating colloids with single-stranded DNA that hybridises selectively with the complementary sequence on another colloid. However, there are many practical obstacles to go from there to the self assembly of multi-component structures. In order to make progress, we need to understand the factors that determine the thermodynamic stability and, even more importantly, the kinetics of formation of complex structures. Such a numerical study will require a wide range of numerical techniques, many of which do not yet exist. As I have played a key role in the development of the numerical methods to study both the stability and the kinetics of formation of simple colloidal crystals, I am well positioned to make a breakthrough that should have important implications for experimental work in this field. My research will focus on DNA-linked colloidal systems, as this is an active area of experimental research. However, I stress that many of the techniques that I aim to develop are general. During the project, I aim to study the factors that influence the equilibrium phase diagram and the kinetics of passive and active self-assembly of (multi-component) DNA-colloid systems During the project, I aim to study the factors that influence the equilibrium phase diagram and the kinetics of passive and active self-assembly of (multi-component) DNA-colloid systems
Max ERC Funding
1 863 234 €
Duration
Start date: 2008-11-01, End date: 2014-10-31
Project acronym CONANX
Project Consumer culture in an age of anxiety: political and moral economies of food
Researcher (PI) Peter Jackson
Host Institution (HI) THE UNIVERSITY OF SHEFFIELD
Call Details Advanced Grant (AdG), SH3, ERC-2008-AdG
Summary Food safety and security are high priority issues throughout Europe at present, the subject of intense government concern, public interest, media speculation and academic scrutiny. With few exceptions, academic research on food has been fragmented with too little interaction between food scientists, health researchers and social scientists. This application builds on the success of a recently completed research programme (Changing Families, Changing Food, 2005-8) which brought together an inter-disciplinary team of over 40 researchers from the food, health and social sciences to address the complex relationships between families and food which lie at the heart of current concerns about food safety and public health. The current proposal aims to take forward the findings of that programme regarding the socially embedded nature of contemporary food choice and to make a step change in our understanding of contemporary consumer anxiety through a focused and concerted programme of research on the political and moral economies of food. The project focuses on consumer anxieties about food at a range of geographic scales, from the global scale of international food markets to the domestic scale of individual households. By taking a whole chain approach -- examining food production and consumption at all points along the chain from farm to fork -- the findings of our research will enable a major advance in our understanding of contemporary anxieties around food, with tangible effects on public health (including the reduction of obesity, diabetes and coronary heart disease).
Summary
Food safety and security are high priority issues throughout Europe at present, the subject of intense government concern, public interest, media speculation and academic scrutiny. With few exceptions, academic research on food has been fragmented with too little interaction between food scientists, health researchers and social scientists. This application builds on the success of a recently completed research programme (Changing Families, Changing Food, 2005-8) which brought together an inter-disciplinary team of over 40 researchers from the food, health and social sciences to address the complex relationships between families and food which lie at the heart of current concerns about food safety and public health. The current proposal aims to take forward the findings of that programme regarding the socially embedded nature of contemporary food choice and to make a step change in our understanding of contemporary consumer anxiety through a focused and concerted programme of research on the political and moral economies of food. The project focuses on consumer anxieties about food at a range of geographic scales, from the global scale of international food markets to the domestic scale of individual households. By taking a whole chain approach -- examining food production and consumption at all points along the chain from farm to fork -- the findings of our research will enable a major advance in our understanding of contemporary anxieties around food, with tangible effects on public health (including the reduction of obesity, diabetes and coronary heart disease).
Max ERC Funding
1 684 460 €
Duration
Start date: 2009-01-01, End date: 2012-12-31
