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Literature DB >> 33489940

The Dynamic Roles of the Inner Membrane Complex in the Multiple Stages of the Malaria Parasite.

Josie Liane Ferreira^1,2, Dorothee Heincke^3,4, Jan Stephan Wichers^1,3,4, Benjamin Liffner⁵, Danny W Wilson^5,6, Tim-Wolf Gilberger^1,3,4.

Abstract

Apicomplexan parasites, such as human malaria parasites, have complex lifecycles encompassing multiple and diverse environmental niches. Invading, replicating, and escaping from different cell types, along with exploiting each intracellular niche, necessitate large and dynamic changes in parasite morphology and cellular architecture. The inner membrane complex (IMC) is a unique structural element that is intricately involved with these distinct morphological changes. The IMC is a double membrane organelle that forms de novo and is located beneath the plasma membrane of these single-celled organisms. In Plasmodium spp. parasites it has three major purposes: it confers stability and shape to the cell, functions as an important scaffolding compartment during the formation of daughter cells, and plays a major role in motility and invasion. Recent years have revealed greater insights into the architecture, protein composition and function of the IMC. Here, we discuss the multiple roles of the IMC in each parasite lifecycle stage as well as insights into its sub-compartmentalization, biogenesis, disassembly and regulation during stage conversion of P. falciparum.

Entities: Chemical Disease Gene Species

Keywords: Alveolata; Apicomplexa; Plasmodium; inner membrane complex; malaria; membrane dynamics

Year: 2021 PMID： 33489940 PMCID： PMC7820811 DOI： 10.3389/fcimb.2020.611801

Source DB: PubMed Journal: Front Cell Infect Microbiol ISSN： 2235-2988 Impact factor: 5.293

134 in total

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6. Origin, composition, organization and function of the inner membrane complex of Plasmodium falciparum gametocytes.

Authors: Megan K Dearnley; Jeffrey A Yeoman; Eric Hanssen; Shannon Kenny; Lynne Turnbull; Cynthia B Whitchurch; Leann Tilley; Matthew W A Dixon
Journal: J Cell Sci Date: 2012-02-10 Impact factor: 5.285

7. A conserved molecular motor drives cell invasion and gliding motility across malaria life cycle stages and other apicomplexan parasites.

Authors: Jake Baum; Dave Richard; Julie Healer; Melanie Rug; Zita Krnajski; Tim-Wolf Gilberger; Judith L Green; Anthony A Holder; Alan F Cowman
Journal: J Biol Chem Date: 2005-12-01 Impact factor: 5.157

8. Palmitoylation of Plasmodium alveolins promotes cytoskeletal function.

Authors: Annie Z Tremp; Fatimah S Al-Khattaf; Johannes T Dessens
Journal: Mol Biochem Parasitol Date: 2017-02-20 Impact factor: 1.759

9. The Actinomyosin Motor Drives Malaria Parasite Red Blood Cell Invasion but Not Egress.

Authors: Abigail J Perrin; Christine R Collins; Matthew R G Russell; Lucy M Collinson; David A Baker; Michael J Blackman
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Authors: Annie Z Tremp; Emad I Khater; Johannes T Dessens
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Journal: Elife Date: 2022-07-01 Impact factor: 8.713

5. Identification of a novel AP2 transcription factor in zygotes with an essential role in Plasmodium ookinete development.

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