Abstract

BackgroundThe P-loop NTPases constitute one of the largest groups of globular protein domains that play highly diverse functional roles in most of the organisms. Even with the availability of nearly 300 different Hidden Markov Models representing the P-loop NTPase superfamily, not many P-loop NTPases are known in Plasmodium falciparum. A number of characteristic attributes of the genome have resulted into the lack of knowledge about this functionally diverse, but important class of proteins.MethodIn the study, protein sequences with characteristic motifs of NTPase domain (Walker A and Walker B) are computationally extracted from the P. falciparum database. A detailed secondary structure analysis, functional classification, phylogenetic and orthology studies of the NTPase domain of repertoire of 97 P. falciparum P-loop NTPases is carried out.ResultsBased upon distinct sequence features and secondary structure profile of the P-loop domain of obtained sequences, a cladistic classification is also conceded: nucleotide kinases and GTPases, ABC and SMC family, SF1/2 helicases, AAA+ and AAA protein families. Attempts are made to identify any ortholog(s) for each of these proteins in other Plasmodium sp. as well as its vertebrate host, Homo sapiens. A number of P. falciparum P-loop NTPases that have no homologue in the host, as well as those annotated as hypothetical proteins and lack any characteristic functional domain are identified.ConclusionThe study suggests a strong correlation between sequence and secondary structure profile of P-loop domains and functional roles of these proteins and thus provides an opportunity to speculate the role of many hypothetical proteins. The study provides a methodical framework for the characterization of biologically diverse NTPases in the P. falciparum genome.The efforts made in the analysis are first of its kind; and the results augment to explore the functional role of many of these proteins from the parasite that could provide leads to identify novel drug targets against malaria.

Highlights

  • The P-loop NTPases constitute one of the largest groups of globular protein domains that play highly diverse functional roles in most of the organisms

  • A number of P. falciparum P-loop NTPases that have no homologue in the host, as well as those annotated as hypothetical proteins and lack any characteristic functional domain are identified

  • The study suggests a strong correlation between sequence and secondary structure profile of P-loop domains and functional roles of these proteins and provides an opportunity to speculate the role of many hypothetical proteins

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Summary

Introduction

The P-loop NTPases constitute one of the largest groups of globular protein domains that play highly diverse functional roles in most of the organisms. The availability of the complete genome sequence of Plasmodium falciparum, the causative agent of fatal cerebral malaria, has opened new avenues to identify genes important for the parasite's survival. This information can be utilized for the development of effective drugs or vaccines against the parasite. Nearly 60% of the P. falciparum genome (5411 proteins) has been designated as hypothetical proteins as they lack sequence similarity to any protein known to date [2] This large and unexplored group of hypothetical proteins may contain proteins that play an important role in physiological pathways specific to the malaria parasite. A pipeline of systematic studies is required to elucidate the functional relevance of such proteins in the parasite's survival

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