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Dr Johannes Dessens

Professor of Parasite Cell Biology

United Kingdom

I studied Plant Pathology at the University of Wageningen, The Netherlands, before embarking on a PhD in molecular virology at the John Innes Institute in Norwich. After a couple of postdocs in virology in INRA Versailles and IVEM Oxford, respectively, I got involved with malaria research at Imperial College London. The recipient of a Wellcome Trust University Award I obtained an Associate Professor position at the LSHTM, which I started in the autumn of 2005.

Affiliations

Department of Infection Biology
Faculty of Infectious and Tropical Diseases

Centres

Malaria Centre

Teaching

I am Organiser of the study unit "Molecular Biology" (3333) taught in Term 1. I also teach on the study unit "Vector biology and vector parasite interactions" (3166) in Term 2. I am Departmental Research Degree Coordinator in the Department of Infection Biology.

Research

My research involves functional genomics of malaria parasites using the rodent malaria model Plasmodium berghei. This work evolves around the generation of genetically modified parasites in which target genes are disrupted, tagged or mutated, providing important information on the expression, function and redundancy of gene products. I was the first in the UK to successfully establish the gene targeting technology in P. berghei and have since applied the technology to investigate the function of many different Plasmodium genes. I have over 25yrs experience of working with this parasite model in the mouse and mosquito stages and possess a comprehensive set of specific reagents, molecular tools, and biological protocols to facilitate this work. My group successfully pioneered protein tagging with green fluorescent protein and mCherry red fluorescent protein in P. berghei, allowing studies of protein subcellular trafficking and interaction in living cells.

My active and longstanding research programme has two main components:

(1) The role of the subpellicular network (SPN) in malaria parasite development and infectivity. The SPN is a cortical cytoskeletal structure of apicomplexan parasites that is involved in morphogenesis, viscoelasticity and motility of apicomplexan zoites. We were the first to identify a family of unique intermediate proteins termed alveolins that are major components of the SPN, and we have shown that many have essential functions throughout the Plasmodiumlife cycle. Our current focus is on determining the molecular mechanisms by which alveolins facilitate SPN targeting, filament formation, tensile strength and locomotion.

(2) The role of the crystalloid organelle in sporogonic development of malaria parasites. The crystalloid is an enigmatic organelle found uniquely in the ookinete and young oocyst life cycle stages of malaria parasites. We were the first to identify a family of LCCL lectin domain adhesive-like proteins (LAPs) that reside in the crystalloid and demonstrate their essential roles in crystalloid biogenesis. These studies have revealed that the crystalloid is critically involved in sporogony. Our current focus is on elucidating the molecular mechanisms by which the crystalloid facilitates sporogonic development and sporozoite transmission.

Selected Publications

De Hoest-Thompson, C; Marugan-Hernandez, V; DESSENS, JT;
2024
Open Biology
Saeed, S; TREMP, AZ; DESSENS, JT;
2023
Scientific reports
Saeed, S; TREMP, AZ; DESSENS, JT;
2023
Scientific reports
TREMP, AZ; SAEED, S; DESSENS, JT;
2023
Frontiers in ecology and evolution
DESSENS, JT; TREMP, AZ; SAEED, S;
2021
Trends in parasitology
TREMP, AZ; SAEED, S; Sharma, V; Lasonder, E; DESSENS, JT;
2020
JOURNAL OF PROTEOMICS
SAEED, S; TREMP, AZ; Sharma, V; Lasonder, E; DESSENS, JT;
2020
EMBO reports
Coghlan, MP; TREMP, AZ; SAEED, S; Vaughan, CK; DESSENS, JT;
2019
FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY
SAEED, S; Lau, C-I; TREMP, AZ; Crompton, T; DESSENS, JT;
2019
Molecular and biochemical parasitology
SAEED, S; TREMP, AZ; DESSENS, JT;
2018
International journal for parasitology