Evolutionary and functional insights into Leishmania META1: evidence for lateral gene transfer and a role for META1 in secretion

Puri, Vidhi ; Goyal, Aneesh ; Sankaranarayanan, Rajan ; Enright, Anton J. ; Vaidya, Tushar (2011) Evolutionary and functional insights into Leishmania META1: evidence for lateral gene transfer and a role for META1 in secretion BMC Evolutionary Biology, 11 (1). 334_1-334_16. ISSN 1471-2148

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Official URL: http://www.biomedcentral.com/1471-2148/11/334

Related URL: http://dx.doi.org/10.1186/1471-2148-11-334

Abstract

Background Leishmania META1 has for long been a candidate molecule for involvement in virulence: META1 transcript and protein are up-regulated in metacyclic Leishmania. Yet, how META1 contributes to virulence remains unclear. We sought insights into the possible functions of META1 by studying its evolutionary origins. Results Using multiple criteria including sequence similarity, nucleotide composition, phylogenetic analysis and selection pressure on gene sequence, we present evidence that META1 originated in trypanosomatids as a result of a lateral gene transfer of a bacterial heat-inducible protein, HslJ. Furthermore, within the Leishmania genome, META1 sequence is under negative selection pressure against change/substitution. Using homology modeling of Leishmania META1 based on solved NMR structure of HslJ, we show that META1 and HslJ share a similar structural fold. The best hit for other proteins with similar fold is MxiM, a protein involved in the type III secretion system in Shigella. The striking structural similarity shared by META1, HslJ and MxiM suggests a possibility of shared functions. Upon structural superposition with MxiM, we have observed a putative hydrophobic cavity in META1. Mutagenesis of select hydrophobic residues in this cavity affects the secretion of the secreted acid phosphatase (SAP), indicating META1's involvement in secretory processes in Leishmania. Conclusions Overall, this work uses an evolutionary biology approach, 3D-modeling and site-directed mutagenesis to arrive at new insights into functions of Leishmania META1.

Item Type:Article
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ID Code:96462
Deposited On:24 Dec 2012 11:53
Last Modified:24 Dec 2012 11:53

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