A structural annotation resource for the selection of putative target proteins in the malaria parasite

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dc.contributor.author Joubert, Yolandi
dc.contributor.author Joubert, Fourie
dc.date.accessioned 2009-02-13T06:42:20Z
dc.date.available 2009-02-13T06:42:20Z
dc.date.issued 2008
dc.description.abstract BACKGROUND: Protein structure plays a pivotal role in elucidating mechanisms of parasite functioning and drug resistance. Moreover, protein structure aids the determination of protein function, which can together with the structure be used to identify novel drug targets in the parasite. However, various structural features in Plasmodium falciparum proteins complicate the experimental determination of protein structures. Limited similarity to proteins in the Protein Data Bank and the shortage of solved protein structures in the malaria parasite necessitate genome-scale structural annotation of P. falciparum proteins. Additionally, the annotation of a range of structural features facilitates the identification of suitable targets for experimental and computational studies. METODS: An integrated structural annotation system was developed and applied to P. falciparum, Plasmodium vivax and Plasmodium yoelii. The annotation included searches for sequence similarity, patterns and domains in addition to the following predictions: secondary structure, transmembrane helices, protein disorder, low complexity, coiled-coils and small molecule interactions. Subsequently, candidate proteins for further structural studies were identified based on the annotated structural features. RESULTS: The annotation results are accessible through a web interface, enabling users to select groups of proteins which fulfil multiple criteria pertaining to structural and functional features [1]. Analysis of features in the P. falciparum proteome showed that protein-interacting proteins contained a higher percentage of predicted disordered residues than non-interacting proteins. Proteins interacting with 10 or more proteins have a disordered content concentrated in the range of 60–100%, while the disorder distribution for proteins having only one interacting partner, was more evenly spread. CONCLUSION: A series of P. falciparum protein targets for experimental structure determination, comparative modelling and in silico docking studies were putatively identified. The system is available for public use, where researchers may identify proteins by uerying with multiple physico-chemical, sequence similarity and interaction features. en_US
dc.identifier.citation Joubert, Y & Joubert, F 2008, ‘A structural annotation resource for the selection of putative target proteins in the malaria parasite’, Malaria Journal, vol. 7, no. 90, pp. 1-7. [http://www.malariajournal.com/content/7/1/90] en_US
dc.identifier.issn 1475-2875
dc.identifier.other 10.1186/1475-2875-7-90
dc.identifier.uri http://hdl.handle.net/2263/8902
dc.language.iso en en_US
dc.publisher BioMed Central en_US
dc.rights Y Joubert and F Joubert en_US
dc.subject Plasmodium falciparum en_US
dc.subject Protein targets en_US
dc.subject.lcsh Plasmodium
dc.subject.lcsh Drug resistance
dc.subject.lcsh Malaria vaccine -- Research
dc.title A structural annotation resource for the selection of putative target proteins in the malaria parasite en_US
dc.type Article en_US


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