Biochemical and physiological investigations on adenosine 5ʹ monophosphate deaminase fromPlasmodium spp.

Nagappa, Lakshmeesha Kempaiah ; Singh, Dipti ; Dey, Sandeep ; Kumar, Kota Arun ; Balaram, Hemalatha (2019) Biochemical and physiological investigations on adenosine 5ʹ monophosphate deaminase fromPlasmodium spp. Molecular Microbiology, 112 (2). pp. 699-717. ISSN 0950-382X

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Official URL: http://doi.org/10.1111/mmi.14313

Related URL: http://dx.doi.org/10.1111/mmi.14313

Abstract

The interplay between ATP generating and utilizing pathways in a cell is responsible for maintaining cellular ATP/energy homeostasis that is reflected by Adenylate Energy Charge (AEC) ratio. Adenylate kinase (AK), that catalyzes inter-conversion of ADP, ATP and AMP, plays a major role in maintaining AEC and is regulated by cellular AMP levels. Hence, the enzymes AMP deaminase (AMPD) and nucleotidases, which catabolize AMP, indirectly regulate AK activity and in-turn affect AEC. Here, we present the first report on AMPD from Plasmodium, the causative agent of malaria. The recombinant enzyme expressed in Saccharomyces cerevisiae was studied using functional complementation assay and residues vital for enzyme activity have been identified. Similarities and differences between Plasmodium falciparum AMPD (PfAMPD) and its homologs from yeast, Arabidopsis and humans are also discussed. The AMPD gene was deleted in the murine malaria parasite P. berghei and was found to be dispensable during all stages of the parasite life cycle. However, when episomal expression was attempted, viable parasites were not obtained, suggesting that perturbing AMP homeostasis by over-expressing AMPD might be lethal. As AMPD is known to be allosterically modulated by ATP, GTP and phosphate, allosteric activators of PfAMPD could be developed as anti-parasitic agents.

Item Type:Article
Source:Copyright of this article belongs to John Wiley & Sons, Inc.
ID Code:128748
Deposited On:03 Nov 2022 05:12
Last Modified:03 Nov 2022 05:12

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