Crystalloids are transient organelles that form in developing malaria ookinetes and disappear after ookinete-to-oocyst transition. Their origins and functions remain poorly understood. The Plasmodium berghei scavenger receptor-like protein PbSR is essential for mosquito-to-host transmission of the parasite: PbSR knockout parasites produce normal numbers of oocysts that fail to form sporozoites, pointing to a role for PbSR in the oocyst during sporogony. Here, using fluorescent protein tagging and targeted gene disruption, we show that PbSR is synthesized in macrogametocytes, gets targeted to the crystalloids of developing ookinetes and is involved in crystalloid formation. While oocyst sporulation rates of PbSR knockout parasites are highly reduced in parasite-infected mosquitoes, sporulation rates in vitro are not adversely affected, supporting the view that mosquito factors could be involved in the PbSR loss-of-function phenotype. These findings are the first to identify a parasite protein involved with the crystalloid organelle, and suggest a novel protein-trafficking mechanism to deliver PbSR to the oocysts

Al-Olayan

Arai

Carter

Claudianos

DasGupta

Davies

Delrieu

Dessens

Garnham

Greenwood

Hall

Khan

Lasonder

McDonald

Mehlhorn

Natarajan

Papassideri

Pradel

Raine

Shaner

Sinden

Terzakis

Trefiak

Trueman

van Dijk

Waters

English

PubMed

Crossref

PbSR is synthesized in macrogametocytes and involved in formation of the malaria crystalloids

Carter, Victoria

Shimizu, Shoichi

Arai, Meiji

Dessens, Johannes T

LSHTM Research Online

Carter, V; Shimizu, S; Arai, M; Dessens, JT (2008) PbSR is synthe-sized in macrogametocytes and involved in formation of the malariacrystalloids. Molecular microbiology, 68 (6). pp. 1560-9. ISSN 0950-382XDownloaded from: http://researchonline.lshtm.ac.uk/7691/Usage GuidelinesPlease refer to usage guidelines at http://researchonline.lshtm.ac.uk/policies.html or alterna-tively contact researchonline@lshtm.ac.uk.Available under license: Creative Commons Attribution Non-commercial No Derivativeshttp://creativecommons.org/licenses/by-nc-nd/2.5/Fig. S1 Analysis of a second independent clone of parasite line ∆SRCR/EGFP.A: GFP fluorescence in an ookinete, showing lack of focal spots correspondingto crystalloids. B: Molecular analysis by PCR. Lane 1: 1kb product obtained withprimers DHFRCAS3’ (TCGTGGGCTACGTCCCGCAC) and SR3’-R(CGCCTTCACGCTGATGT), confirming genomic integration of the selectablemarker gene cassette in the pbsr locus. Lane 2: 2.2kb product obtained withprimers SR1250 (CGGAATTTTCGATTATAGAAGG) and pDNR-PbSR-R(ATGAGGGCCCCTAAGCTTAAGCGTTTCAAAAAGGTAAATGA), confirming thepresence of the modified pbsr locus (missing the sequence encoding the SRCRdomains) and the absence of the wild-type pbsr locus (would give band of 2.9kb).Lane M: DNA size markers.1.0kb -3.0kb -2.0kb -2.5kb -1.5kb -1 2MBA

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PbSR is synthesized in macrogametocytes and involved in formation of the malaria crystalloids

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