Expression and formulation of bluetongue virus genes and proteins for development of effective vaccination strategies. THIS GRANT IS A SUPPLEMENTATION
Lead Research Organisation:
The Pirbright Institute
Department Name: Div of Epidemiology Pirbright
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Technical Summary
Since 1998, five serotypes of bluetongue virus (BTV) have invaded southern and central Europe, killing over 1.5 million sheep. The virus is transmitted by biting midges (Culicoides spp.) which are most active and abundant in warm climates. As a result of climate change, both vectors and virus have expanded progressively northwards and westwards within Europe. The live attenuated vaccines currently available (developed in South Africa) are not suitable for European breeds of sheep (causing disease, abortion, foetal malformation) and are not recommended for cattle or goats (alternative host species). The other potential vaccine candidates already available, include baculovirus-expressed virus like particles (VLP) and inactivated virus preparations, although questions remain concerning their relative cost, efficacy in the field or safety of inactivation processes. We will use established technologies to express BTV capsid proteins (VP2, VP5 and VP7) in bacteria and insect cells (recombinant baculovirus). The open reading frames of relevant genome segments (Seg-2, - 6 and -7) of representative European BTV strains will be converted to full length cDNA using terminal primers. These will be cloned into IPTG-inducible T7 promoter plasmids and expressed as hexa-His-tagged fusion proteins, initially in the Origami E.coli strain (for optimal disulphide bond formation believed important for VP2). The His-tagged recombinant proteins will be purified using affinity chromatography on 'nickel' columns (AKTA purification system). The BTV cDNAs will also be inserted into i) the pFastBac vector (Invitrogen) to facilitate the generation of recombinant baculoviruses, ii) a recombinant vaccinia virus (Ankara strain - MVA), considered safe in humans and other animals (viral DNA vaccine) and iii) the high-yield transgene-producing plasmid gWIZ (Gene Therapy Systems) harbouring an optimised human cytomegalovirus (CMV) expression cassette and intopCI-neo ( Promega), (for non- viral DNA vaccine). The expressed fusion proteins will be purified using affinity chromatography on 'nickel' columns (AKTA purification system). The pCI-neo Vector contains the neomycin phosphotransferase gene, a selectable marker for mammalian cells and can be used for transient expression or for stable expression by selecting transfected cells with the antibiotic G-418. The BTV outer capsid and cell attachment protein VP2, is also the major neutralisation antigen. It can be cleaved into a number of polypeptides by proteinases, generating infectious subviral particles (ISVP). However, ISVP retain the ability to interact with neutralising antibodies and full infectivity for mammalian cells, but also have an enhanced infectivity (x1000) for Culicoides cells. VP2 cleavage products will be characterised by mass spectroscopy, to identify cleavage sites; recombinants will also be expressed and purified as described above, and used to study their interaction with neutralising antibodies. The expressed outer capsid proteins (VP2 and VP5), and the cleavage products of VP2 and VP7, will be used to raise an immune response, initially in mice. The project will analyse the contribution of each arm of the immune system in protection. We will incorporate recombinant BTV proteins and/or DNA vaccines into polymeric carrier systems to generate non-viral particulate vaccines. Controlled release of antigen or DNA, will be used to achieve prolonged exposure of the immune system to the vaccine, stimulating a secondary immunisation and, improving immunity. During these studies we will investigate the influence of specific polymeric carrier systems, and the effect of i) protein localisation on/in the polymer matrix on immune response bias and ii) formulation of protein and/or DNA-encoded antigens or co-administration of these and/or MVA vaccines
Organisations
- The Pirbright Institute (Lead Research Organisation)
- University of Glasgow (Collaboration)
- Complutense University of Madrid (Collaboration)
- Kafkas University (Collaboration)
- UNIVERSITY OF NOTTINGHAM (Collaboration)
- International Livestock Research Institute (ILRI) (Collaboration)
- Pasteur Institute, Tunis (Collaboration)
- Friedrich Loeffler Institute (Collaboration)
- Hassan II Agronomic and Veterinary Institute (Collaboration)
- Hebrew University of Jerusalem (Collaboration)
- French Agricultural Research Centre for International Development (Collaboration)
- Senegalese Institute of Agricultural Research (Collaboration)
- University Libre Bruxelles (Université Libre de Bruxelles ULB) (Collaboration)
- National Institute for Agricultural and Food Research and Technology (Collaboration)
- Veterinary School of Alfort (Collaboration)
- National Veterinary Institute (Collaboration)
- THE PIRBRIGHT INSTITUTE (Collaboration)
- Wageningen University & Research (Collaboration)
- Institute of Experimental Zooprophylactic ' Abruzzo and Molise "G. Caporale" (Collaboration)
People |
ORCID iD |
Peter Mertens (Principal Investigator) |
Publications
Moulin V
(2012)
Clinical disease in sheep caused by bluetongue virus serotype 8, and prevention by an inactivated vaccine.
in Vaccine
Drolet BS
(2015)
A Review of Knowledge Gaps and Tools for Orbivirus Research.
in Vector borne and zoonotic diseases (Larchmont, N.Y.)
Darpel KE
(2016)
Using shared needles for subcutaneous inoculation can transmit bluetongue virus mechanically between ruminant hosts.
in Scientific reports
Conte A
(2016)
OIEBTLABNET: the web-based network of the OIE Bluetongue Reference Laboratories.
in Veterinaria italiana
Forzan M
(2016)
Generation of virus like particles for epizootic hemorrhagic disease virus.
in Research in veterinary science
Description | BBSRC has indicated that they do not require a response |
Exploitation Route | BBSRC has indicated that they do not require a response |
Sectors | Agriculture Food and Drink |
Description | BBSRC has indicated that they do not require a response |
Sector | Agriculture, Food and Drink |
Impact Types | Economic |
Description | "Understanding pathogen, livestock, environment interactions involving bluetongue virus" (PALE-Blu) |
Amount | € 6,300,000 (EUR) |
Funding ID | 727393-2 |
Organisation | European Commission |
Sector | Public |
Country | European Union (EU) |
Start | 05/2016 |
End | 11/2020 |
Title | Pale-Blu Web pages |
Description | The PALE-Blu Web pages provide multiple data-sets concerning the distribution of arthropod vector species, the environment livestock and disease movement and distribution, Bluetongue epidemiology and research, as well as listing novel research papers and findings of the PALE-Blu consortium. |
Type Of Material | Database/Collection of data |
Year Produced | 2016 |
Provided To Others? | Yes |
Impact | The PALE-Blu Website serves the partners in THE EU PALE-Blu consortium grant to provide information and access to research data and outcomes, concerning virus epidemiology, vaccinology and other aspect of their work concerning this important viral disease of livestock. The site also provides access to multiple data-sets concerning the environment, vector distribution, microbiomes, and ecosystems, most notably within Europe. |
URL | https://www.paleblu.eu/ |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Complutense University of Madrid |
Country | Spain |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | French Agricultural Research Centre for International Development |
Country | France |
Sector | Private |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Friedrich Loeffler Institute |
Country | Germany |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Hassan II Agronomic and Veterinary Institute |
Country | Morocco |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Institute of Experimental Zooprophylactic ' Abruzzo and Molise "G. Caporale" |
Country | Italy |
Sector | Private |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | International Livestock Research Institute (ILRI) |
Country | Kenya |
Sector | Charity/Non Profit |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Kafkas University |
Country | Turkey |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Kimron Veterinary Institute |
Country | Israel |
Sector | Charity/Non Profit |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | National Institute for Agricultural and Food Research and Technology |
Country | Spain |
Sector | Public |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | National Veterinary Institute |
Country | Sweden |
Sector | Public |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Pasteur Institute, Tunis |
Country | Tunisia |
Sector | Public |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Senegalese Institute of Agricultural Research |
Country | Senegal |
Sector | Public |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | The Pirbright Institute |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | University Libre Bruxelles (Université Libre de Bruxelles ULB) |
Country | Belgium |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | University of Glasgow |
Department | MRC - University of Glasgow Centre for Virus Research |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | University of Nottingham |
Department | School of Veterinary Medicine and Science Nottingham |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Veterinary School of Alfort |
Country | France |
Sector | Academic/University |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |
Description | PALE-Blu H20:20 grant "Understanding pathogen, livestock, environment interactions involving bluetongue virus" |
Organisation | Wageningen University & Research |
Department | Plant Research International |
Country | Netherlands |
Sector | Charity/Non Profit |
PI Contribution | Peter Mertens is coordinator of the PALE-Blu H20:20 consortium. My group is also directly involved in most of the work packages that are included in the grant. |
Collaborator Contribution | Bluetongue is an economically important disease that since 1998 has invaded Europe, particularly southern and central countries. These changes are thought to be linked to climate change and appear unlikely to be reversed. The disease causes caused economic losses due to fatalities in livestock (>25% in sheep), loss of reproductive performance and milk/meat production, and restrictions in animal movements and trade. The PALE-Blu Project brings together 19 different Partner organisations in fifteen countries to generate data concerning the distribution and interaction of genetic variants of the bluetongue virus with insect vector and host populations to inform control and prevention strategies The project will analyse interactions between different virus strains, insect vectors and vertebrate hosts at the population, individual and molecular levels., Transmission mechanisms will be analysed to inform the ways in which risks can be evaluated, modelled and mitigated. In particular the project will identify and map different virus and vector populations and the environmental factors that determine their incidence and distribution to understand how genetic variations can determine transmission of different BTV serotype / strains in different regions. Databases will be created to help in the global identification of different BTV variants based on sequence analyses. The project will develop diagnostic assays to maintain and improve current diagnostic and surveillance capabilities. These will specifically include the recently identified 'novel' serotypes (BTV-25 upwards) to ensure that they can also be rapidly and sensitively detected. The project will seek to generate additional cell lines for European and Africa Culicoides species for further studies of transmission mechanisms and differences between different vector populations / species. Cross reactive antigens and epitopes will be identified for different BTV serotypes to develop safe multivalent or cross-reactive vaccines against different BTV serotypes The project will develop and maintain communication and project management through websites periodic meetings and publications / presentations to both scientific and lay audiences. BTV sequences have been collected, annotated and curated and introduced into the BTV-GLUE website. The beta version of the BTV-GLUE dataset is available via a public web server (http://btv.glue.cvr.ac.uk). We are currently inserting an automated genotyping tool for all segments. A comprehensive database of Culicoides vector abundance, covering most of Europe and neighbouring countries, has been generated to define epizones with different insect vector populations. Livestock maps (cattle, sheep, and goats) updated to reflect 2010 have helped define epizones based on ecoclimatic data. Diagnostic tools for the novel BTV serotypes, as well as multiplexed assay systems are being developed and evaluated Primary cell lines for additional Culicoides species, have been developed and will be maintained in order to develop continuos cell lines. Rescued mono-reassortant BTV strains have been generated to explore the molecular basis for contact transmission and insect vector transmission as well as and other viral properties, including interactions with the innate immune response and inhibition by interferon. Antiviral activity of statin derivatives and calcium channel inhibitors, will be further explored Project outputs and data are being and will continue to be disseminated through one or more of the four websites that have been established or associated with the project: http://www.paleblu.eu/ : the general project website, which provides project details, presentations, publications and deliverables This includes the kick off project meeting in Glasgow 2017: http://www.paleblu.eu/system/files/2019-01/2017-09-06-MeetingReportFor1stPALE-BluMeetingCVRGlasgow-LR%20update.pdf and the 2nd meeting in Rabat 2018: http://www.paleblu.eu/system/files/2019-01/2018-09-19-20-2ndPALE-BluMeetingMorocco.pdf http://btv.glue.cvr.ac.uk/#/home : the project website which hosts datacentric software package which includes sequence data, genome annotations and bioinformatic analysis tools. See WP1 above https://www.edenextdata.com/: the project spatial data archive, see also WP3 above. http://mapserver.izs.it/gis_oiemaps/: a site which displays global BTV distributions. A newly developed haploid embryonic stem cell library, is being used to characterize cellular genes and pathways essential for productive BTV-8 infection. |
Impact | The BTV Glue database (http://btv.glue.cvr.ac.uk/#/home) Publications are in preparations from the PALE-Blu consortium Scientific meetings have been organised in Glasgow, Rabat and Brussels. |
Start Year | 2016 |