Comparative genomic analysis of three Leishmania species that cause diverse human disease

Peacock, Christopher; Seeger, Kathy; Harris, David; Murphy, Lee; Ruiz, Jerônimo C.; Quail, Michael A.; Peters, Nick T.; Adlem, Ellen; Tivey, Adrian; Aslett, Martin; Kerhornou, Arnaud; Ivens, Alasdair; Fraser, Audrey; Rajandream, Marie‐Adèle; Carver, Tim; Norbertczak, Halina; Chillingworth, Tracey; Hance, Zahra; Jagels, Kay; Moule, Sharon; Ormond, Doug; Rutter, Simon; Squares, Rob; Whitehead, Sally; Rabbinowitsch, Ester; Arrowsmith, C.; White, Brian R.; Thurston, Scott; Bringaud, Frédéric; Baldauf, Sandra L.; Faulconbridge, Adam; Jeffares, Daniel C.; Depledge, Daniel P.; Oyola, Samuel O.; Hilley, James D.; Brito, Loislene O; Tosi, Luiz Ricardo Orsini; Barrell, Barclay G.; Cruz, Ângela K.; Mottram, Jeremy C.; Smith, Deborah F.; Berriman, Matthew

doi:10.1038/ng2053

Cited by 657 publications

(707 citation statements)

References 51 publications

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“…This diversity contrasts with the relative structural conservation of Leishmania genomes (Peacock et al 2007). Possibly, Leishmania's natural phenotypic diversity lies in differential features downstream of the genome, in the transcriptome or in the proteome.…”

Section: Discussionmentioning

confidence: 93%

“…This type of study has become feasible since the introduction of 2 high-throughput expression profiling techniques : (i) microarrays, used for comparative analysis of thousands of genes in distinct RNA populations (Schena et al 1995), and (ii) quantitative real-time PCR (Q-PCR), used for rapid simultaneous analysis of a specific set of genes in large sample collections (Heid et al 1996 ;Vandesompele et al 2002). Both these techniques are rapidly gaining popularity in Leishmania studies since the Leishmania genome sequences have become available (Duncan, 2004 ;Ivens et al 2005 ;Peacock et al 2007). However, the interpretation and standardization of gene expression studies in Leishmania might be more challenging in comparison to other eukaryotes due to the specific biology of this parasite.…”

Section: Introductionmentioning

confidence: 99%

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Gene expression profiling ofLeishmania (Leishmania) donovani: overcoming technical variation and exploiting biological variation

et al. 2007

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Gene expression profiling is increasingly used in the field of infectious diseases for characterization of host, pathogen and the nature of their interaction. The purpose of this study was to develop a robust, standardized method for comparative expression profiling and molecular characterization of Leishmania donovani clinical isolates. The limitations and possibilities associated with expression profiling in intracellular amastigotes and promastigotes were assessed through a series of comparative experiments in which technical and biological parameters were scrutinized. On a technical level, our results show that it is essential to use parasite harvesting procedures that involve minimal disturbance of the parasite's environment in order to ' freeze' gene expression levels instantly ; this is particularly a delicate task for intracellular amastigotes and for specific ' sensory ' genes. On the biological level, we demonstrate that gene expression levels fluctuate during in vitro development of both intracellular amastigotes and promastigotes. We chose to use expression-curves rather than single, specific, time-point measurements to capture this biological variation. Intracellular amastigote protocols need further refinement, but we describe a first generation tool for high-throughput comparative molecular characterization of patients' isolates, based on the changing expression profiles of promastigotes during in vitro differentiation.

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Section: Discussionmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Gene expression profiling ofLeishmania (Leishmania) donovani: overcoming technical variation and exploiting biological variation

et al. 2007

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“…Genomes of L. major 6 , L. infantum and L. braziliensis 8 were not available at the time and obtained amino acid sequences were used for identification of homologous proteins by using the BLAST search algorithm that requires a very high degree of sequence conservation to unambiguously identify a protein, hence only two proteins (isocitrate dehydrogenase and triosephosphate isomerase) could be identified. Later the GeneDB database became publicly available which provided a platform for initially the L. major genome and later for all sequenced genomes 24 .…”

Section: Identification Of Life Cycle Stage Specific Proteinsmentioning

confidence: 99%

“…proteome profiling in pre-genomic era Leishmania spp. have a core genome of 8178 genes shared between the three currently sequenced and annotated genomes of L. major, L. infantum and L. braziliensis, and only few genes are species specific, 5, 27 and 49, respectively 8 . Although it is known that host factors play also a part in disease outcome, it is reasonable to assume that for the course of an infection differences in gene content or expression level in parasite species and isolates determine their respective virulence.…”

Section: Introductionmentioning

confidence: 99%

“…However, it was the sequencing of the genomes of L. major 6 , L. infantum and L. braziliensis 8 , with data available since the beginning of this millennium that enabled the relatively straight forward identification of protein-species excised from 2DE gels by mass spectrometry or from peptides separated by liquid chromatography (LC) as discussed below.…”

Section: Introductionmentioning

confidence: 99%

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Contribution of proteomics of Leishmania spp. to the understanding of differentiation, drug resistance mechanisms, vaccine and drug development

Paape

Aebischer

2011

Journal of Proteomics

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:Leishmania spp., protozoan parasites with a digenetic life cycle, cause a spectrum of diseases in humans. Recently several Leishmania spp. have been sequenced which significantly boosted the number and quality of proteomic studies conducted. Here a historic review will summarize work of the pre-genomic era and then focus on studies after genome information became available. Firstly works comparing the different life cycle stages, in order to identify stage specific proteins, will be discussed. Identifying of post-translational modifications by proteomics especially phosphorylation events will be discussed. Further the contribution of proteomics to the understanding of the molecular mechanism of drug resistance and the investigation of immunogenic proteins for the identification of vaccine candidates will be summarized. Approaches of how potentially secreted proteins were identified are discussed. So far 30 -35% of the total predicted proteome of Leishmania spp. has been identified. This comprises mainly the abundant proteins, therefore the last section will look into technological approaches how this coverage may be increased and what the gel-free and gel-based proteomics have to offer will be compared.

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Eukaryotic Genomes: From Parasites to Primates

Pevsner

2009

Bioinformatics and Functional Genomics

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Comparative genomic analysis of three Leishmania species that cause diverse human disease

Cited by 657 publications

References 51 publications

Gene expression profiling ofLeishmania (Leishmania) donovani: overcoming technical variation and exploiting biological variation

Gene expression profiling ofLeishmania (Leishmania) donovani: overcoming technical variation and exploiting biological variation

Contribution of proteomics of Leishmania spp. to the understanding of differentiation, drug resistance mechanisms, vaccine and drug development

Eukaryotic Genomes: From Parasites to Primates

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