The European virus archive GLOBAL (EVA-GLOBAL) project is funded under -H2020 - Research and Innovation Framework Programme of the European Union.
The EVA GLOBAL project is referenced as the H2020 - grant agreement n°871029-EVA-GLOBAL
- Bottom-up approach: Integrating and opening research infrastructures of European interest
- Funded under: H2020-EU.1.4.1.2. - Integrating and opening existing national and regional research infrastructures of European interest
- Topic: INFRAIA -01- 2018- 2019 Integrating Activities for Advanced Communities
- Call for proposal: H2020-INFRAIA-2019-1
- Funding scheme: RIA - Research and Innovation action
- Project acronym: EVA-GLOBAL
- Coordinated in: France
- Coordinator:
- Description by E.C.: CORDIS Website
Access and benefit sharing under the Convention on Biological Diversity and the Nagoya Protocol
The EVA-GLOBAL community supports fair and equitable benefit sharing as conceived in various United Nations frameworks. The consortium is actively implementing a CBD/Nagoya Protocol compliance strategy.
Privacy policy and GDPR compliance
Personal data is collected when you create an account and when you place an enquiry for any product or service, or when you initiate these processes. Personal data is collected to allow you to personalise your use of the EVA-GLOBAL website and related services’ (placing enquiries, email notifications, newsletters) and for the delivery of ordered products...
Medias used on this website
Credits
This transmission electron micrograph (TEM) revealed some of the ultrastructural morphology of a number of intact rotavirus double-shelled particles. Distinctive rim of radiating capsomeres.- 1981-
This negative stained transmission electron micrograph (TEM) shows recreated 1918 influenza virions that were collected from supernatants of 1918-infected Madin-Darby Canine Kidney (MDCK) cells cultures 18 hours after infection.
To separate these virions, the MDCK cells are spun down (centrifugation), and the 1918 virus in the fluid is immediately fixed for negative staining. The solid mass in lower center contains MDCK cell debris that did not spin down during the procedure.
Transmission electron micrograph, negative stain image of the polio virus (1971).
Created by CDC microbiologist Frederick A. Murphy, this colorized transmission electron micrograph (TEM) revealed some of the ultrastructural morphology displayed by an Ebola virus virion.
This image was created by Nahid Bhadelia, M.D., Assistant Professor of Medicine in the Section of Infectious Diseases, and the Associate Hospital Epidemiologist at Boston Medical Center. It was captured while the U.S. Centers for Disease Control and Prevention’s (CDC) 2014 Domestic Ebola ETU Training Course for healthcare workers was underway. The program had been designed in order to educate participants who would be deployed as members of the West African Ebola Response team, as to the proper protocols to be followed when treating Ebola hemorrhagic fever (Ebola HF) patients. Here you can see two participants who’d paired up in order to dress in their required personal protective equipment (PPE). By applying the buddy system, each healthcare worker can act as the secondary check for the other, thereby, assuring that the each other’s PPE had been properly secured.
This transmission electron micrograph (TEM) revealed some of the ultrastructural morphology of a number of intact rotavirus double-shelled particles. Distinctive rim of radiating capsomeres.- 1981-
This negative stained transmission electron micrograph (TEM) shows recreated 1918 influenza virions that were collected from supernatants of 1918-infected Madin-Darby Canine Kidney (MDCK) cells cultures 18 hours after infection.
To separate these virions, the MDCK cells are spun down (centrifugation), and the 1918 virus in the fluid is immediately fixed for negative staining. The solid mass in lower center contains MDCK cell debris that did not spin down during the procedure.
Transmission electron micrograph, negative stain image of the polio virus (1971).
Created by CDC microbiologist Frederick A. Murphy, this colorized transmission electron micrograph (TEM) revealed some of the ultrastructural morphology displayed by an Ebola virus virion.
This image was created by Nahid Bhadelia, M.D., Assistant Professor of Medicine in the Section of Infectious Diseases, and the Associate Hospital Epidemiologist at Boston Medical Center. It was captured while the U.S. Centers for Disease Control and Prevention’s (CDC) 2014 Domestic Ebola ETU Training Course for healthcare workers was underway. The program had been designed in order to educate participants who would be deployed as members of the West African Ebola Response team, as to the proper protocols to be followed when treating Ebola hemorrhagic fever (Ebola HF) patients. Here you can see two participants who’d paired up in order to dress in their required personal protective equipment (PPE). By applying the buddy system, each healthcare worker can act as the secondary check for the other, thereby, assuring that the each other’s PPE had been properly secured.