Project description:[Original Title] Malaria Host Pathogen Interaction Center Experiment 03: Host and parasite gene transcript abundance measures from bone marrow for Macaca mulatta infected with Plasmodium coatneyi Hackeri strain from 7 time points over a 101 day study of acute, recrudescent, and chronic infections. This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - a transdisciplinary malaria systems biology research program initially supported by an NIH/NIAID contract (# HHSN272201200031C, 2012-2017; see http://www.systemsbiology.emory.edu). The MaHPIC continues with ongoing support from the Defense Advanced Research Project Agency (DARPA) and others. The MaHPIC generates many data types (e.g., clinical, hematological, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response, telemetry) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates (NHPs), and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC: Mary Galinski mary.galinski@emory.edu (MaHPIC Program Director), Jessica Kissinger jkissinger@uga.edu (MaHPIC Co-Program Director), and Alberto Moreno alberto.moreno@emory.edu (MaHPIC Co-Program Director).
Project description:This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - a transdisciplinary malaria systems biology research program initially supported by an NIH/NIAID contract (# HHSN272201200031C, 2012-2017; see http://www.systemsbiology.emory.edu). The MaHPIC has continued with support from the Defense Advanced Research Project Agency (DARPA) and others. The MaHPIC generates many data types (e.g., clinical, hematological, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response, telemetry) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates (NHPs), and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC.
Project description:This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - a transdisciplinary malaria systems biology research program initially supported by an NIH/NIAID contract (# HHSN272201200031C, 2012-2017; see http://www.systemsbiology.emory.edu). The MaHPIC has continued with support from the Defense Advanced Research Project Agency (DARPA) and others. The MaHPIC generates many data types (e.g., clinical, hematological, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response, telemetry) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates (NHPs), and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC.
Project description:This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - a transdisciplinary malaria systems biology research program initially supported by an NIH/NIAID contract (# HHSN272201200031C, 2012-2017; see http://www.systemsbiology.emory.edu). The MaHPIC has continued with support from the Defense Advanced Research Project Agency (DARPA) and others. The MaHPIC generates many data types (e.g., clinical, hematological, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response, telemetry) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates (NHPs), and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC.
Project description:This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - is a transdisciplinary malaria systems biology research program initially supported by an NIH/NIAID contract (# HHSN272201200031C, 2012-2017; see http://www.systemsbiology.emory.edu). The MaHPIC continues with ongoing support from the Defense Advanced Research Project Agency (DARPA) and others. The MaHPIC generates many data types (e.g., clinical, hematological, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response, telemetry) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates (NHPs), and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC
Project description:The apicomplexan parasite Plasmodium vivax reportedly caused 13.8 million cases of vivax malaria in 2015. Much of the unique biology of this pathogen remains unknown. To expand our proteomics interrogation of the blood-stage interaction with its host animal model Saimiri boliviensis, we analyzed the proteome of infected host reticulocytes undergoing transition from the trophozoite to schizont stages. Two biological replicates analyzed using five database search engines identified 1923 P. vivax and 3188 S. boliviensis proteins. This project is part of the Malaria Host-Pathogen Interaction Center (MaHPIC) - a transdisciplinary malaria systems biology research program supported by an NIH/NIAID contract (# HHSN272201200031C; see http://www.systemsbiology.emory.edu). The MaHPIC generates many data types (e.g., clinical, parasitological, metabolomics, functional genomics, lipidomics, proteomics, immune response) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates, and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Within the MaHPIC, this project is known as 'Integral Supporting Project 05 (S05)'. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC. This dataset was produced by Dave Anderson at SRI International.
