Putative DNA G-quadruplex formation within the promoters of Plasmodium falciparum var genes

doi:10.1186/1471-2164-10-362

BMC Genomics. 2009; 10: 362.

Published online 2009 August 6. doi: 10.1186/1471-2164-10-362

PMCID: PMC2736202

Putative DNA G-quadruplex formation within the promoters of Plasmodium falciparum var genes

Nicolas Smargiasso,^#¹ Valérie Gabelica,¹ Christian Damblon,² Frédéric Rosu,¹ Edwin De Pauw,¹ Marie-Paule Teulade-Fichou,³ J Alexandra Rowe,⁴ and Antoine Claessens^#⁴

¹Mass Spectrometry Laboratory, GIGA-Research, University of Liege, Liege, Belgium

²Structural Biological Chemistry Laboratory, University of Liege, Liege, Belgium

³Institut Curie, Section Recherche, CNRS UMR176, Centre Universitaire Paris XI, Bat. 110, 91405 Orsay, France

⁴Centre for Immunity, Infection and Evolution, Institute of Immunology and Infection Research, School of Biological Sciences, University of Edinburgh, Edinburgh, UK

Corresponding author.

^#Contributed equally.

Nicolas Smargiasso: nsmargiasso/at/ulg.ac.be; Valérie Gabelica: V.Gabelica/at/ulg.ac.be; Christian Damblon: c.damblon/at/ulg.ac.be; Frédéric Rosu: F.Rosu/at/ulg.ac.be; Edwin De Pauw: E.DePauw/at/ulg.ac.be; Marie-Paule Teulade-Fichou: marie-paule.teulade-fichou/at/curie.fr; J Alexandra Rowe: Alex.Rowe/at/ed.ac.uk; Antoine Claessens: a.j.a.h.claessens/at/sms.ed.ac.uk

Received July 28, 2008; Accepted August 6, 2009.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background

Guanine-rich nucleic acid sequences are capable of folding into an intramolecular four-stranded structure called a G-quadruplex. When found in gene promoter regions, G-quadruplexes can downregulate gene expression, possibly by blocking the transcriptional machinery. Here we have used a genome-wide bioinformatic approach to identify Putative G-Quadruplex Sequences (PQS) in the Plasmodium falciparum genome, along with biophysical techniques to examine the physiological stability of P. falciparum PQS in vitro.

Results

We identified 63 PQS in the non-telomeric regions of the P. falciparum clone 3D7. Interestingly, 16 of these PQS occurred in the upstream region of a subset of the P. falciparum var genes (group B var genes). The var gene family encodes PfEMP1, the parasite's major variant antigen and adhesin expressed at the surface of infected erythrocytes, that plays a key role in malaria pathogenesis and immune evasion. The ability of the PQS found in the upstream regions of group B var genes (UpsB-Q) to form stable G-quadruplex structures in vitro was confirmed using ¹H NMR, circular dichroism, UV spectroscopy, and thermal denaturation experiments. Moreover, the synthetic compound BOQ1 that shows a higher affinity for DNA forming quadruplex rather than duplex structures was found to bind with high affinity to the UpsB-Q.

Conclusion

This is the first demonstration of non-telomeric PQS in the genome of P. falciparum that form stable G-quadruplexes under physiological conditions in vitro. These results allow the generation of a novel hypothesis that the G-quadruplex sequences in the upstream regions of var genes have the potential to play a role in the transcriptional control of this major virulence-associated multi-gene family.

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