Abstract
BackgroundEimeria tenella is an apicomplexan parasite that causes coccidiosis in the domestic fowl. Infection with this parasite is diagnosed frequently in intensively reared poultry and its control is usually accorded a high priority, especially in chickens raised for meat. Prophylactic chemotherapy has been the primary method used for the control of coccidiosis. However, drug efficacy can be compromised by drug-resistant parasites and the lack of new drugs highlights demands for alternative control strategies including vaccination. In the long term, sustainable control of coccidiosis will most likely be achieved through integrated drug and vaccination programmes. Characterisation of the E. tenella transcriptome may provide a better understanding of the biology of the parasite and aid in the development of a more effective control for coccidiosis.ResultsMore than 15,000 partial sequences were generated from the 5' and 3' ends of clones randomly selected from an E. tenella second generation merozoite full-length cDNA library. Clustering of these sequences produced 1,529 unique transcripts (UTs). Based on the transcript assembly and subsequently primer walking, 433 full-length cDNA sequences were successfully generated. These sequences varied in length, ranging from 441 bp to 3,083 bp, with an average size of 1,647 bp. Simple sequence repeat (SSR) analysis identified CAG as the most abundant trinucleotide motif, while codon usage analysis revealed that the ten most infrequently used codons in E. tenella are UAU, UGU, GUA, CAU, AUA, CGA, UUA, CUA, CGU and AGU. Subsequent analysis of the E. tenella complete coding sequences identified 25 putative secretory and 60 putative surface proteins, all of which are now rational candidates for development as recombinant vaccines or drug targets in the effort to control avian coccidiosis.ConclusionsThis paper describes the generation and characterisation of full-length cDNA sequences from E. tenella second generation merozoites and provides new insights into the E. tenella transcriptome. The data generated will be useful for the development and validation of diagnostic and control strategies for coccidiosis and will be of value in annotation of the E. tenella genome sequence.
Highlights
Eimeria tenella is an apicomplexan parasite that causes coccidiosis in the domestic fowl
Generation of full-length cDNA sequences A total of 9,024 clones were randomly selected for plasmid extraction and subsequent single-pass sequencing from the 5’ and 3’ ends
Clones representing 586 consensus sequences with both 5’ and results are consistent with the biological role of the second generation merozoite, a life cycle stage characterised by metabolically active processes including motility within the caeca, host cell attachment and cellular invasion
Summary
Eimeria tenella is an apicomplexan parasite that causes coccidiosis in the domestic fowl. The annual cost of coccidiosis to the poultry industry worldwide has been estimated to exceed £2 billion [1] Control of this disease in intensively reared poultry is Eimeria tenella is widely considered to be the most economically relevant and well known of the seven Eimeria species that cause coccidiosis in chickens [2]. The second generation merozoite of Eimeria is an interesting target for transcriptomic studies as it is the progeny derived from the most pathogenic endogenous stage of the E. tenella life cycle [3] and may contribute to the stimulation of the protective immune response in the host for at least some Eimeria species [4]. Detailed study of the merozoite stage will support the identification of proteins important to key biological processes in the parasite including host invasion, replication, pathogenicity and the stimulation of host immunity
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