Nonsense-mediated decay machinery in Plasmodium falciparum is inefficient and non-essential

Author:

McHugh Emma1ORCID,Bulloch Michaela S.1,Batinovic Steven2,Patrick Cameron J.3,Sarna Drishti K.1,Ralph Stuart A.1ORCID

Affiliation:

1. Department of Biochemistry and Pharmacology, Bio21 Molecular Science and Biotechnology Institute, The University of Melbourne , Parkville, Victoria, Australia

2. Department of Physiology, Anatomy and Microbiology, La Trobe University , Bundoora, Victoria, Australia

3. School of Mathematics and Statistics, The University of Melbourne , Parkville, Victoria, Australia

Abstract

ABSTRACT Nonsense-mediated decay (NMD) is a conserved mRNA quality control process that eliminates transcripts bearing a premature termination codon. In addition to its role in removing erroneous transcripts, NMD is involved in post-transcriptional regulation of gene expression via programmed intron retention in metazoans. The apicomplexan parasite Plasmodium falciparum shows relatively high levels of intron retention, but it is unclear whether these variant transcripts are functional targets of NMD. In this study, we use CRISPR-Cas9 to disrupt and epitope-tag the P. falciparum orthologs of two core NMD components: Pf UPF1 (PF3D7_1005500) and Pf UPF2 (PF3D7_0925800). We localize both Pf UPF1 and Pf UPF2 to puncta within the parasite cytoplasm and show that these proteins interact with each other and other mRNA-binding proteins. Using RNA-seq, we find that although these core NMD orthologs are expressed and interact in P. falciparum , they are not required for degradation of nonsense transcripts. Furthermore, our work suggests that the majority of intron retention in P. falciparum has no functional role and that NMD is not required for parasite growth ex vivo . IMPORTANCE In many organisms, the process of destroying nonsense transcripts is dependent on a small set of highly conserved proteins. We show that in the malaria parasite, these proteins do not impact the abundance of nonsense transcripts. Furthermore, we demonstrate efficient CRISPR-Cas9 editing of the malaria parasite using commercial Cas9 nuclease and synthetic guide RNA, streamlining genomic modifications in this genetically intractable organism.

Funder

Australian National Health and Medical Research Council

Publisher

American Society for Microbiology

Subject

Molecular Biology,Microbiology

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