Protein variation in blood-dwelling schistosome worms generated by differential splicing of micro-exon gene transcripts

DeMarco, Ricardo; Mathieson, William; Manuel, Sophia J.; Dillon, G.; Curwen, Rachel S.; Ashton, Peter D.; Ivens, Alasdair; Berriman, Matthew; Verjovski-Almeida, Sérgio; Wilson, R. A.

doi:10.1101/gr.100099.109

Cited by 90 publications

(153 citation statements)

References 27 publications

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“…It is expressed in eggs and miracidia and has been shown to be glycosylated and secreted in eggs. Its potential role in the context of immune evasion strategy has been previously discussed (DeMarco et al 2010). It is of particular interest that MEG-2 shares many common features with the SmPoMuc genes, previously described as major molecular determinants for the compatibility polymorphism (Roger et al 2008b).…”

Section: Discussionmentioning

confidence: 89%

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Towards an understanding of the epigenetics of schistosomes: a comparative epigenomic study

Lepesant

Grunau

Cosseau

2011

Mem. Inst. Oswaldo Cruz

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Section: Discussionmentioning

confidence: 89%

“…These MEG-type genes have only been described in S. mansoni (DeMarco et al 2010). They are composed of 18 different family members and are a molecular system for creating protein variation through alternate splicing of short exons.…”

Section: Discussionmentioning

confidence: 99%

Towards an understanding of the epigenetics of schistosomes: a comparative epigenomic study

Lepesant

Grunau

Cosseau

2011

Mem. Inst. Oswaldo Cruz

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“…Ingested dextran was endocytosed at the luminal surface of the gut epithelium, being concentrated into micron sized vesicles by 24 h after feeding. The uncoating process is intriguing because it takes place at the exact point in the oesophagus where the only authenticated product of the oesophageal gland, Ag10.3/MEG-4.1, is released into the lumen (DeMarco et al 2010). It is tempting to conclude that this protein plays a key role as the uncoating agent.…”

Section: The Gut Epithelium and Oesophageal Glandmentioning

confidence: 97%

“…It is tempting to conclude that this protein plays a key role as the uncoating agent. The gene is encoded by microexons and has a repeating modular structure, the number units expressed being controlled by alternative splicing (DeMarco et al 2010). The molecular weight on 2D gels is much higher than predicted from its amino acid sequence, suggesting that it may be heavily glycosylated.…”

Section: The Gut Epithelium and Oesophageal Glandmentioning

confidence: 99%

The cell biology of schistosomes: a window on the evolution of the early metazoa

Wilson

2011

Protoplasma

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This review of schistosome cell biology has a dual purpose; its intent is to alert two separate research communities to the activities of the other. Schistosomes are by far and away the best-characterised platyhelminths, due to their medical and economic importance, but seem to be almost totally ignored by researchers on the free-living lower metazoans. Equally, in their enthusiasm for the parasitic way of life, schistosome researchers seldom pay attention to the work on free-living animals that could inform their molecular investigations. The publication of transcriptomes and/or genomes for Schistosoma mansoni and Schistosoma japonicum, the sponge Archimedon, the cnidarians Nematostella and Hydra and the planarian Schmidtea provide the raw material for comparisons. Apart from interrogation of the databases for molecular similarities, there have been differences in technical approach to these lower metazoans; widespread application of whole mount in situ hybridisation to Schmidtea contrasts with the application of targeted proteomics to schistosomes. Using schistosome cell biology as the template, the key topics of cell adhesion, development, signalling pathways, nerve and muscle, and epithelia, are reviewed, where possible interspersing comparisons with the sponge, cnidarian and planarian data. The biggest jump in the evolution of cellular capabilities appears to be in the transition from a diploblast to triploblast level of organisation associated with development of a mobile and plastic body form.

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“…It is also known that the parasite has a sophisticated alternative splicing mechanism for genes encoding secreted proteins such as micro-exon genes (MEGs) (Demarco et al 2010), polymorphic mucins genes (SmPoMucs) (Roger et al 2008) and venom allergen-like (SmVALs) genes (Chalmers et al 2008). These mechanisms are supposed to increase the repertoire of parasite proteins (Verjovski-Almeida and Demarco 2011), possibly helping to evade the immune response.…”

mentioning

confidence: 99%

Non-coding RNAs in schistosomes: an unexplored world

Oliveira

Carvalho

Maracaja-Coutinho

et al. 2011

An. Acad. Bras. Ciênc.

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Non-coding RNAs (ncRNAs) were recently given much higher attention due to technical advances in sequencing which expanded the characterization of transcriptomes in different organisms. ncRNAs have different lengths (22 nt to >1,000 nt) and mechanisms of action that essentially comprise a sophisticated gene expression regulation network. Recent publication of schistosome genomes and transcriptomes has increased the description and characterization of a large number of parasite genes. Here we review the number of predicted genes and the coverage of genomic bases in face of the public ESTs dataset available, including a critical appraisal of the evidence and characterization of ncRNAs in schistosomes. We show expression data for ncRNAs in Schistosoma mansoni. We analyze three different microarray experiment datasets: (1) adult worms' large-scale expression measurements; (2) differentially expressed S. mansoni genes regulated by a human cytokine (TNF-α) in a parasite culture; and (3) a stage-specific expression of ncRNAs. All these data point to ncRNAs involved in different biological processes and physiological responses that suggest functionality of these new players in the parasite's biology. Exploring this world is a challenge for the scientists under a new molecular perspective of host-parasite interactions and parasite development.

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Protein variation in blood-dwelling schistosome worms generated by differential splicing of micro-exon gene transcripts

Cited by 90 publications

References 27 publications

Towards an understanding of the epigenetics of schistosomes: a comparative epigenomic study

Towards an understanding of the epigenetics of schistosomes: a comparative epigenomic study

The cell biology of schistosomes: a window on the evolution of the early metazoa

Non-coding RNAs in schistosomes: an unexplored world

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