Comparative genomics reveals Cyclospora cayetanensis possesses coccidia-like metabolism and invasion components but unique surface antigens

Liu, Shiyou; Wang, Lin; Zheng, Huajun; Xu, Zhixiao; Roellig, Dawn M.; Li, Na; Frace, Michael; Tang, Kevin; Arrowood, Michael J.; Moss, Delynn M.; Zhang, Longxian; Feng, Yaoyu; Xiao, Lihua

doi:10.1186/s12864-016-2632-3

Cited by 46 publications

(51 citation statements)

References 73 publications

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“…andToxoplasma gondii. The dominant surface antigens observed in other coccidian are not present or significantly diminished (Liu et al, 2016). Nevertheless, these results need to be validated.…”

Section: Taxonomymentioning

confidence: 97%

“…The conserved sequence nature of rRNA and HSP70 genes and intra-isolate variations among different copies of ITS-1 and ITS-2 had made the development of genotyping tools for the parasite difficult (Adam et al, 2000;Olivier et al, 2001;Riner et al, 2010;Zhou et al, 2011;Sulaiman et al, 2013Sulaiman et al, , 2014. The recent availability of whole mitochondrial and apicoplast genome sequences (Tang et al, 2015;Qvarnstrom et al, 2015;Cinar et al, 2015) and whole genome sequencing (Liu et al, 2016) beyond rRNA and heat shock protein genes could facilitate development of genotyping tools for investigations of Cyclospora outbreaks. Recently, whole-genome sequence data from C. cayetanensis protozoa enabled the development of a MLST genotyping tool for characterizing isolates.…”

Section: Detection Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Cyclospora cayetanensis

Chacín-Bonilla¹

2019

Water and Sanitation for the 21st Century: Health and Microbiological Aspects of Excreta and Wastewater Management (Global Wate

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Section: Taxonomymentioning

confidence: 97%

Section: Detection Methodsmentioning

confidence: 99%

Cyclospora cayetanensis

Chacín-Bonilla¹

2019

Water and Sanitation for the 21st Century: Health and Microbiological Aspects of Excreta and Wastewater Management (Global Wate

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“…Even so, the apparent lack of transporters in Plasmodium parasites suggests there is little functional redundancy and reinforces their potential therapeutic possibilities [11]. Though not studied in as much detail in other apicomplexan parasites (see for example [12]), Toxoplasma has a greater number of transporters than Plasmodium (including within transporter classes), suggesting far more redundancy and thus fewer targeting opportunities. Interestingly, Cryptosporidium and Babesia parasites may have reduced numbers of transporters and/or transporter classes compared with Plasmodium (in this case targeting opportunities could be increased due to less functional redundancy and/or decreased due to druggable transport classes not being present).…”

Section: New Discoveriesmentioning

confidence: 99%

Transmembrane solute transport in the apicomplexan parasite Plasmodium

Staines

Moore

Slavic

et al. 2017

Emerging Topics in Life Sciences

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Apicomplexa are a large group of eukaryotic, single-celled parasites, with complex life cycles that occur within a wide range of different microenvironments. They include important human pathogens such as Plasmodium, the causal agent of malaria, and Toxoplasma, which causes toxoplasmosis most often in immunocompromised individuals. Despite environmental differences in their life cycles, these parasites retain the ability to obtain nutrients, remove waste products, and control ion balances. They achieve this flexibility by relying on proteins that can deliver and remove solutes. This reliance on transport proteins for essential functions makes these pathways excellent potential targets for drug development programmes. Transport proteins are frequently key mediators of drug resistance by their ability to remove drugs from their sites of action. The study of transport processes mediated by integral membrane proteins and, in particular, identification of their physiological functions and localisation, and differentiation from host orthologues has already established new validated drug targets. Our understanding of how apicomplexan parasites have adapted to changing environmental challenges has also increased through the study of their transporters. This brief introduction to membrane transporters of apicomplexans highlights recent discoveries focusing on Plasmodium and emphasises future directions.

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“…Progress on the development of molecular epidemiologic tools to link cases with sources of infection has been hindered by the limited DNA sequence information. With the recent advances in sequencing technologies such as nextgeneration sequencing (NGS) and availability of efficient genome assembly programs, whole genome assemblies, complete mitochondrial and apicoplast genomes of C. cayetanensis have become available [11][12][13][14][15][16][17][18]. NGS is the preferred technology for generation of high-throughput high-resolution data in streamlined fashion for clinical diagnostics, forensic science, and public health research.…”

Section: Introductionmentioning

confidence: 99%

Molecular typing of Cyclospora cayetanensis in produce and clinical samples using targeted enrichment of complete mitochondrial genomes and next-generation sequencing

et al. 2020

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Background: Outbreaks of cyclosporiasis, a diarrheal illness caused by Cyclospora cayetanensis, have been a public health issue in the USA since the mid 1990's. In 2018, 2299 domestically acquired cases of cyclosporiasis were reported in the USA as a result of multiple large outbreaks linked to different fresh produce commodities. Outbreak investigations are hindered by the absence of standardized molecular epidemiological tools for C. cayetanensis. For other apicomplexan coccidian parasites, multicopy organellar DNA such as mitochondrial genomes have been used for detection and molecular typing. Methods: We developed a workflow to obtain complete mitochondrial genome sequences from cilantro samples and clinical samples for typing of C. cayetanensis isolates. The 6.3 kb long C. cayetanensis mitochondrial genome was amplified by PCR in four overlapping amplicons from genomic DNA extracted from cilantro, seeded with oocysts, and from stool samples positive for C. cayetanensis by diagnostic methods. DNA sequence libraries of pooled amplicons were prepared and sequenced via next-generation sequencing (NGS). Sequence reads were assembled using a custom bioinformatics pipeline. Results: This approach allowed us to sequence complete mitochondrial genomes from the samples studied. Sequence alterations, such as single nucleotide polymorphism (SNP) profiles and insertion and deletions (InDels), in mitochondrial genomes of 24 stool samples from patients with cyclosporiasis diagnosed in 2014, exhibited discriminatory power. The cluster dendrogram that was created based on distance matrices of the complete mitochondrial genome sequences, indicated distinct strain-level diversity among the 2014 C. cayetanensis outbreak isolates analyzed in this study. Conclusions: Our results suggest that genomic analyses of mitochondrial genome sequences may help to link outbreak cases to the source.

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Comparative genomics reveals Cyclospora cayetanensis possesses coccidia-like metabolism and invasion components but unique surface antigens

Cited by 46 publications

References 73 publications

Cyclospora cayetanensis

Cyclospora cayetanensis

Transmembrane solute transport in the apicomplexan parasite Plasmodium

Molecular typing of Cyclospora cayetanensis in produce and clinical samples using targeted enrichment of complete mitochondrial genomes and next-generation sequencing

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