Summary
Malaria is caused by parasites of the genus Plasmodium. Whilst the disease is caused by asexual parasites, only sexual forms are capable of transmitting the infection to mosquitoes. Sexual forms arise from a small subset of blood-stage parasites which divert from the cycle of asexual replication and embark on a sexual developmental trajectory. Targeting the small population of parasites transmitted to mosquitoes would provide a powerful malaria control method. Although several genes have been found to have sex-specific roles, the molecular basis of the sex-determining mechanisms of Plasmodium into one or the other sex is mostly unknown.
In this proposal I will apply innovative approaches to uncover the pathway of sex-determination in P. falciparum, in both lab-adapted parasites and wild parasite populations. Specifically, I will (i) determine the earliest events in sexual dimorphism using single-cell transcriptomics (scRNAseq) in a lab-adapted P. falciparum strain (NF54); (ii) understand determinants of malaria sexual determination in wild parasites by harnessing the power of scRNAseq; (iii) identify factors that influence determination into male or female gametocytes in natural parasite populations obtained from infected carriers.
My supervisor, Dr Talman, is a leading figure in Plasmodium transcriptome analysis and sexual biology of the parasite. He has recently set up his group in Montpellier at MIGEVEC, one of the top IRD Centres in France. MIVEGEC has a unique and long history of supporting research and provides the best environment to conduct cutting-edge research in the lab as well as in challenging conditions in malaria endemic countries. Although this project represents an ambitious undertaking, I am confident my strong previous experience in malaria research and the genuine commitment to widen my field of expertise will contribute to have a major impact, providing an invaluable insight into a basic biological process essential for parasite propagation.
In this proposal I will apply innovative approaches to uncover the pathway of sex-determination in P. falciparum, in both lab-adapted parasites and wild parasite populations. Specifically, I will (i) determine the earliest events in sexual dimorphism using single-cell transcriptomics (scRNAseq) in a lab-adapted P. falciparum strain (NF54); (ii) understand determinants of malaria sexual determination in wild parasites by harnessing the power of scRNAseq; (iii) identify factors that influence determination into male or female gametocytes in natural parasite populations obtained from infected carriers.
My supervisor, Dr Talman, is a leading figure in Plasmodium transcriptome analysis and sexual biology of the parasite. He has recently set up his group in Montpellier at MIGEVEC, one of the top IRD Centres in France. MIVEGEC has a unique and long history of supporting research and provides the best environment to conduct cutting-edge research in the lab as well as in challenging conditions in malaria endemic countries. Although this project represents an ambitious undertaking, I am confident my strong previous experience in malaria research and the genuine commitment to widen my field of expertise will contribute to have a major impact, providing an invaluable insight into a basic biological process essential for parasite propagation.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/891456 |
| Start date: | 01-10-2020 |
| End date: | 30-09-2022 |
| Total budget - Public funding: | 184 707,84 Euro - 184 707,00 Euro |
Cordis data
Original description
Malaria is caused by parasites of the genus Plasmodium. Whilst the disease is caused by asexual parasites, only sexual forms are capable of transmitting the infection to mosquitoes. Sexual forms arise from a small subset of blood-stage parasites which divert from the cycle of asexual replication and embark on a sexual developmental trajectory. Targeting the small population of parasites transmitted to mosquitoes would provide a powerful malaria control method. Although several genes have been found to have sex-specific roles, the molecular basis of the sex-determining mechanisms of Plasmodium into one or the other sex is mostly unknown.In this proposal I will apply innovative approaches to uncover the pathway of sex-determination in P. falciparum, in both lab-adapted parasites and wild parasite populations. Specifically, I will (i) determine the earliest events in sexual dimorphism using single-cell transcriptomics (scRNAseq) in a lab-adapted P. falciparum strain (NF54); (ii) understand determinants of malaria sexual determination in wild parasites by harnessing the power of scRNAseq; (iii) identify factors that influence determination into male or female gametocytes in natural parasite populations obtained from infected carriers.
My supervisor, Dr Talman, is a leading figure in Plasmodium transcriptome analysis and sexual biology of the parasite. He has recently set up his group in Montpellier at MIGEVEC, one of the top IRD Centres in France. MIVEGEC has a unique and long history of supporting research and provides the best environment to conduct cutting-edge research in the lab as well as in challenging conditions in malaria endemic countries. Although this project represents an ambitious undertaking, I am confident my strong previous experience in malaria research and the genuine commitment to widen my field of expertise will contribute to have a major impact, providing an invaluable insight into a basic biological process essential for parasite propagation.
Status
CLOSEDCall topic
MSCA-IF-2019Update Date
28-04-2024
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