Your search keyword '"Parasites genetics"' showing total 71 results

1. The RNA-binding KH-domain in the unique transcription factor of the malaria parasite is responsible for its transcriptional regulatory activity.

Author

Komaki-Yasuda K and Kano S

Subjects

Animals, Humans, Transcription Factors genetics, Transcription Factors metabolism, Protozoan Proteins metabolism, Plasmodium falciparum genetics, Plasmodium falciparum metabolism, RNA metabolism, Parasites genetics, Plasmodium genetics, Malaria

Abstract

To date, only a small number of regulatory transcription factors have been predicted from the genome of Plasmodium and Apicomplexan parasites. We previously identified a nuclear factor named Prx regulatory element-binding protein (PREBP) from Plasmodium falciparum. PREBP had been suggested to bind to the cis-element in the promoter of an antioxidant pf1-cys-prx gene, thereby promoting the expression of downstream genes. PREBP has 4 putative K homology (KH) domains, which are known to bind RNA and single-stranded DNA. In this study, to understand the detailed action of PREBP in parasite cells, we first observed that in living parasite cells, PREBP was localized in the nucleus in the trophozoite and schizont stages, in which the expression of the target pf1-cys-prx was enhanced. The interaction of PREBP and the cis-element of pf1-cys-prx in the parasite cells was also confirmed. Further, the activities of PREBP deletion mutants were analyzed, and regions with repeated KH domains in PREBP seemed to be responsible for the recognition of the cis-element. These results led us to hypothesize that Plasmodium and other Apicomplexan parasites might have a transcription factor family with KH domains. Bioinformatic analysis revealed a putative ortholog group including PREBP and several Plasmodium and Apicomplexan factors with KH domains. One of the P. falciparum-derived factors, which were included in the putative ortholog group, was found to be localized at the nucleus in the trophozoite stage, indicating that it might be a novel transcription factor. The discovery of PREBP and putative transcription factors with KH domains suggested that multi-functional proteins with KH domains possibly evolved in the Apicomplexan organisms. They might play key roles in transcriptional regulatory processes that are essential for living organisms and may even represent unique drug targets for malaria therapy., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Komaki-Yasuda, Kano. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

2. Prevalence of Leucocytozoon infection in domestic birds in Ghana.

Author

Agbemelo-Tsomafo C, Adjei S, Kusi KA, Deitsch KW, Amoah D, Obeng-Kyeremeh R, Sumabe AM, and Aniweh Y

Subjects

Animals, Phylogeny, Prevalence, Ghana epidemiology, Birds, Bird Diseases epidemiology, Bird Diseases parasitology, Haemosporida genetics, Parasites genetics, Protozoan Infections, Animal epidemiology, Protozoan Infections, Animal parasitology

Abstract

Leucocytozoon is a haemosporidian parasite known to cause leucocytozoonosis in domestic and wild birds in most parts of the world. It is an important pathogen, as some species can be pathogenic, especially in domestic birds. One of the factors affecting poultry health management worldwide is parasitism. However, the study of haemosporidian parasites in Ghana is still lacking. This study sought to assess the prevalence and diversity of Leucocytozoon parasites in domestic birds in Ghana. Blood samples were collected from domestic birds in Ghana's Bono and Eastern regions to screen for Leucocytozoon parasites. Thin blood smears were prepared for microscopy and DNA was extracted from whole blood kept in ethylenediaminetetraacetic acid (EDTA) tubes for PCR. Due to the large number of samples, real-time PCR was performed to amplify the conserved rDNA gene. Two different nested PCR protocols were performed on the positive samples obtained from real-time PCR results, to amplify a partial region of the mitochondrial cytochrome b gene and the amplicons were sequenced. Sequencing revealed six new lineages of Leucocytozoon sp. recovered in 976 individual domestic birds and these sequences were deposited in the National Center for Biotechnology Information (NCBI) GenBank. An overall Leucocytozoon prevalence of 11.6% was reported in all birds sampled. The most prevalent lineage LGHA146 (GenBank accession no. OM643346) (93.8%) was found infecting 3 bird species, Gallus gallus, Meleagris gallopavo, and Anas platyrhynchos. Phylogenetic analysis revealed that the new lineages (GenBank accession nos. OM643342, OM643343, OM643344, OM643345, OM643346, and OM643347), reported in this study were closely related to Leucocytozoon schoutedeni. We suggest that further studies be conducted to evaluate the effect of these parasite species on the general well-being of poultry in Ghana., Competing Interests: The authors have declared that no competing interests exist., (Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.)

Published

2023

3. Differences in morphology, mitochondrial genomes, and reproductive compatibility between two clades of parasitic wasps Aphelinus mali (Hymenoptera: Aphelindae) in China.

Author

Su M, Du L, Ali MY, Yu J, Chi M, Teng Z, Fan Y, Tan X, and Zhou H

Subjects

Animals, Female, Male, Mali, Reproduction, China, Phylogeny, Wasps genetics, Genome, Mitochondrial, Parasites genetics

Abstract

Aphelinus mali (Haldeman) (Hymenoptera: Aphelinidae) in China is comprised of two clades (termed, the Shandong and Liaoning clades). In order to clarify the genetic relationship between these two clades, we compared and analyzed the morphological characteristics and the mitochondrial genome of each, and performed a hybridization experiment. Morphological results showed that both males and females of the Liaoning clade were larger than Shandong clade, in terms of whole body, abdominal, wing and antennal lengths, however, there were no significant differences between clades for total length of the middle or hind leg of females. The length of the mitochondrial genome of the Shandong clade was 14415 bp and, for the Liaoning clade, it was 14804 bp. Each contained 31 genes, including 13 protein-encoded genes, 16 tRNA genes, and 2 rRNA genes. The highest AT level among the 13 protein-coding genes for the two clades were the same gene (ATP8) (Shandong clade, 91.52%; Liaoning clade, 90.91%). By hybridization and backcrossing, we found that there was no cross incompatibility between these two clades of A. mali. Our results indicate that the historic geographical isolation between these clades has not yet caused reproductive isolation of these populations, and they belong to the same species., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Su et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

4. Cytokine gene polymorphism and parasite susceptibility in free-living rodents: Importance of non-coding variants.

Author

Kloch A, Mierzejewska EJ, Welc-Falęciak R, Bajer A, and Biedrzycka A

Subjects

Animals, Cytokines genetics, Polymorphism, Genetic, Parasites genetics, Cryptosporidiosis, Cryptosporidium, Nematoda

Abstract

Associations between genetic variants and susceptibility to infections have long been studied in free-living hosts so as to infer the contemporary evolutionary forces that shape the genetic polymorphisms of immunity genes. Despite extensive studies of proteins interacting with pathogen-derived ligands, such as MHC (major histocompatilbility complex) or TLR (Toll-like receptors), little is known about the efferent arm of the immune system. Cytokines are signalling molecules that trigger and modulate the immune response, acting as a crucial link between innate and adaptive immunity. In the present study we investigated how genetic variation in cytokines in bank voles Myodes glareolus affects their susceptibility to infection by parasites (nematodes: Aspiculuris tianjensis, Heligmosomum mixtum, Heligmosomoides glareoli) and microparasites (Cryptosporidium sp, Babesia microti, Bartonella sp.). We focused on three cytokines: tumour necrosis factor (TNF), lymphotoxin alpha (LTα), and interferon beta (IFNβ1). Overall, we identified four single nucleotide polymorphisms (SNPs) associated with susceptibility to nematodes: two located in LTα and two in IFNβ1. One of those variants was synonymous, another located in an intron. Each SNP associated with parasite load was located in or next to a codon under selection, three codons displayed signatures of positive selection, and one of purifying selection. Our results indicate that cytokines are prone to parasite-driven selection and that non-coding variants, although commonly disregarded in studies of the genetic background of host-parasite co-evolution, may play a role in susceptibility to infections in wild systems., Competing Interests: he authors have declared that no competing interests exist., (Copyright: © 2023 Kloch et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

5. LupiQuant: A real-time PCR based assay for determining host-to-parasite DNA ratios of Onchocerca lupi and host Canis lupus from onchocercosis samples.

Author

Roe CC, Urbanz J, Auten C, Verocai GG, Upshaw-Bia K, Holiday O, Hepp C, and Sahl JW

Subjects

Dogs, Animals, Humans, Onchocerca genetics, Real-Time Polymerase Chain Reaction, DNA, Parasites genetics, Wolves genetics, Onchocerciasis epidemiology

Abstract

Onchocerca lupi is a filarial nematode that causes ocular onchocercosis in canines globally including North America and areas of Europe, North Africa, and the Middle East. Reported incidence of this parasite in canines has continued to steadily escalate since the early 21st century and was more recently documented in humans. Whole genome sequencing (WGS) of this parasite can provide insight into gene content, provide novel surveillance targets, and elucidate the origin and range expansion. However, past attempts of whole genome sequencing of other Onchocerca species reported a substantial portion of their data unusable due to the variable over-abundance of host DNA in samples. Here, we have developed a method to determine the host-to-parasite DNA ratio using a quantitative PCR (qPCR) approach that relies on two standard plasmids each of which contains a single copy gene specific to the parasite genus Onchocerca (major body wall myosin gene, myosin) or a single copy gene specific to the canine host (polycystin-1 precursor, pkd1). These plasmid standards were used to determine the copy number of the myosin and pkd1 genes within a sample to calculate the ratio of parasite and host DNA. Furthermore, whole genome sequence (WGS) data for three O. lupi isolates were consistent with our host-to-parasite DNA ratio results. Our study demonstrates, despite unified DNA extraction methods, variable quantities of host DNA within any one sample which will likely affect downstream WGS applications. Our quantification assay of host-to-parasite genome copy number provides a robust and accurate method of assessing canine host DNA load in an O. lupi specimen that will allow informed sample selection for WGS. This study has also provided the first whole genome draft sequence for this species. This approach is also useful for future focused WGS studies of other parasites., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Roe et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

6. Transcriptomic complexity of the human malaria parasite Plasmodium falciparum revealed by long-read sequencing.

Author

Shaw PJ, Kaewprommal P, Wongsombat C, Ngampiw C, Taechalertpaisarn T, Kamchonwongpaisan S, Tongsima S, and Piriyapongsa J

Subjects

Animals, Humans, Transcriptome, Plasmodium falciparum genetics, Proteomics, Protein Isoforms genetics, Alternative Splicing, Parasites genetics, Malaria, Malaria, Falciparum genetics

Abstract

The Plasmodium falciparum human malaria parasite genome is incompletely annotated and does not accurately represent the transcriptomic diversity of this species. To address this need, we performed long-read transcriptomic sequencing. 5' capped mRNA was enriched from samples of total and nuclear-fractionated RNA from intra-erythrocytic stages and converted to cDNA library. The cDNA libraries were sequenced on PacBio and Nanopore long-read platforms. 12,495 novel isoforms were annotated from the data. Alternative 5' and 3' ends represent the majority of isoform events among the novel isoforms, with retained introns being the next most common event. The majority of alternative 5' ends correspond to genomic regions with features similar to those of the reference transcript 5' ends. However, a minority of alternative 5' ends showed markedly different features, including locations within protein-coding regions. Alternative 3' ends showed similar features to the reference transcript 3' ends, notably adenine-rich termination signals. Distinguishing features of retained introns could not be observed, except for a tendency towards shorter length and greater GC content compared with spliced introns. Expression of antisense and retained intron isoforms was detected at different intra-erythrocytic stages, suggesting developmental regulation of these isoform events. To gain insights into the possible functions of the novel isoforms, their protein-coding potential was assessed. Variants of P. falciparum proteins and novel proteins encoded by alternative open reading frames suggest that P. falciparum has a greater proteomic repertoire than the current annotation. We provide a catalog of annotated transcripts and encoded alternative proteins to support further studies on gene and protein regulation of this pathogen., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Shaw et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

7. Genomic insights into host and parasite interactions during intracellular infection by Toxoplasma gondii.

Author

Ulahannan N, Cutler R, Doña-Termine R, Simões-Pires CA, Wijetunga NA, Croken MM, Johnston AD, Kong Y, Maqbool SB, Suzuki M, and Greally JM

Subjects

Animals, Chromatin genetics, Gene Expression Profiling, Genomics, Humans, Transcription Factors genetics, Parasites genetics, Toxoplasma genetics, Toxoplasmosis genetics, Toxoplasmosis parasitology

Abstract

To gain insights into the molecular interactions of an intracellular pathogen and its host cell, we studied the gene expression and chromatin states of human fibroblasts infected with the Apicomplexan parasite Toxoplasma gondii. We show a striking activation of host cell genes that regulate a number of cellular processes, some of which are protective of the host cell, others likely to be advantageous to the pathogen. The simultaneous capture of host and parasite genomic information allowed us to gain insights into the regulation of the T. gondii genome. We show how chromatin accessibility and transcriptional profiling together permit novel annotation of the parasite's genome, including more accurate mapping of known genes and the identification of new genes and cis-regulatory elements. Motif analysis reveals not only the known T. gondii AP2 transcription factor-binding site but also a previously-undiscovered candidate TATA box-containing motif at one-quarter of promoters. By inferring the transcription factor and upstream cell signaling responses involved in the host cell, we can use genomic information to gain insights into T. gondii's perturbation of host cell physiology. Our resulting model builds on previously-described human host cell signalling responses to T. gondii infection, linked to induction of specific transcription factors, some of which appear to be solely protective of the host cell, others of which appear to be co-opted by the pathogen to enhance its own survival., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

8. The in vivo RNA structurome of the malaria parasite Plasmodium falciparum, a protozoan with an A/U-rich transcriptome.

Author

Dumetz F, Enright AJ, Zhao J, Kwok CK, and Merrick CJ

Subjects

Animals, Genome, Protozoan, Humans, Plasmodium falciparum genetics, Protozoan Proteins genetics, RNA, RNA, Protozoan genetics, Transcriptome, Malaria genetics, Malaria, Falciparum parasitology, Parasites genetics

Abstract

Plasmodium falciparum, a protozoan parasite and causative agent of human malaria, has one of the most A/T-biased genomes sequenced to date. This may give the genome and the transcriptome unusual structural features. Recent progress in sequencing techniques has made it possible to study the secondary structures of RNA molecules at the transcriptomic level. Thus, in this study we produced the in vivo RNA structurome of a protozoan parasite with a highly A/U-biased transcriptome. We showed that it is possible to probe the secondary structures of P. falciparum RNA molecules in vivo using two different chemical probes, and obtained structures for more than half of all transcripts in the transcriptome. These showed greater stability (lower free energy) than the same structures modelled in silico, and structural features appeared to influence translation efficiency and RNA decay. Finally, we compared the P. falciparum RNA structurome with the predicted RNA structurome of an A/U-balanced species, P. knowlesi, finding a bias towards lower overall transcript stability and more hairpins and multi-stem loops in P. falciparum. This unusual protozoan RNA structurome will provide a basis for similar studies in other protozoans and also in other unusual genomes., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

9. Novel RNA viruses associated with avian haemosporidian parasites.

Author

Rodrigues JR, Roy SW, and Sehgal RNM

Subjects

Amino Acids genetics, Animals, Birds genetics, Humans, Phylogeny, RNA, Bird Diseases parasitology, Haemosporida genetics, Parasites genetics, Plasmodium genetics, Protozoan Infections, Animal, RNA Viruses genetics

Abstract

Avian haemosporidian parasites can cause malaria-like symptoms in their hosts and have been implicated in the demise of some bird species. The newly described Matryoshka RNA viruses (MaRNAV1 and MaRNAV2) infect haemosporidian parasites that in turn infect their vertebrate hosts. MaRNAV2 was the first RNA virus discovered associated with parasites of the genus Leucocytozoon. By analyzing metatranscriptomes from the NCBI SRA database with local sequence alignment tools, we detected two novel RNA viruses; we describe them as MaRNAV3 associated with Leucocytozoon and MaRNAV4 associated with Parahaemoproteus. MaRNAV3 had ~59% amino acid identity to the RNA-dependent RNA-polymerase (RdRp) of MaRNAV1 and ~63% amino acid identity to MaRNAV2. MaRNAV4 had ~44% amino acid identity to MaRNAV1 and ~47% amino acid identity to MaRNAV2. These findings lead us to hypothesize that MaRNAV_like viruses are widespread and tightly associated with the order Haemosporida since they have been described in human Plasmodium vivax, and now two genera of avian haemosporidians., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

10. Evaluation of a parasite-density based pooled targeted amplicon deep sequencing (TADS) method for molecular surveillance of Plasmodium falciparum drug resistance genes in Haiti.

Author

Louha S, Herman C, Gupta M, Patel D, Kelley J, Oh JM, Guru J, Lemoine JF, Chang MA, Venkatachalam U, Rogier E, and Talundzic E

Subjects

Animals, Antimalarials pharmacology, Dried Blood Spot Testing methods, Epidemiological Monitoring, Haiti, High-Throughput Nucleotide Sequencing methods, Humans, Malaria epidemiology, Malaria, Falciparum parasitology, Nucleic Acid Amplification Techniques methods, Parasites genetics, Plasmodium falciparum drug effects, Plasmodium falciparum pathogenicity, Polymerase Chain Reaction methods, Sequence Analysis, DNA, Drug Resistance genetics, High-Throughput Screening Assays methods, Plasmodium falciparum genetics

Abstract

Sequencing large numbers of individual samples is often needed for countrywide antimalarial drug resistance surveillance. Pooling DNA from several individual samples is an alternative cost and time saving approach for providing allele frequency (AF) estimates at a population level. Using 100 individual patient DNA samples of dried blood spots from a 2017 nationwide drug resistance surveillance study in Haiti, we compared codon coverage of drug resistance-conferring mutations in four Plasmodium falciparum genes (crt, dhps, dhfr, and mdr1), for the same deep sequenced samples run individually and pooled. Samples with similar real-time PCR cycle threshold (Ct) values (+/- 1.0 Ct value) were combined with ten samples per pool. The sequencing success for samples in pools were higher at a lower parasite density than the individual samples sequence method. The median codon coverage for drug resistance-associated mutations in all four genes were greater than 3-fold higher in the pooled samples than in individual samples. The overall codon coverage distribution for pooled samples was wider than the individual samples. The sample pools with < 40 parasites/μL blood showed more discordance in AF calls for dhfr and mdr1 between the individual and pooled samples. This discordance in AF estimation may be due to low amounts of parasite DNA, which could lead to variable PCR amplification efficiencies. Grouping samples with an estimated ≥ 40 parasites/μL blood prior to pooling and deep sequencing yielded the expected population level AF. Pooling DNA samples based on estimates of > 40 parasites/μL prior to deep sequencing can be used for rapid genotyping of a large number of samples for these four genes and possibly other drug resistant markers in population-based studies. As Haiti is a low malaria transmission country with very few mixed infections and continued chloroquine sensitivity, the pooled sequencing approach can be used for routine national molecular surveillance of resistant parasites., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

11. A cross-sectional survey of hard ticks and molecular characterization of Rhipicephalus microplus parasitizing domestic animals of Khyber Pakhtunkhwa, Pakistan.

Author

Rooman M, Assad Y, Tabassum S, Sultan S, Ayaz S, Khan MF, Khan SN, and Ali R

Subjects

Animals, Cross-Sectional Studies, DNA, Intergenic genetics, Geography, Pakistan, Phylogeny, RNA, Ribosomal, 16S genetics, Seasons, Species Specificity, Animals, Domestic parasitology, Parasites genetics, Rhipicephalus genetics, Surveys and Questionnaires

Abstract

Background: In tropical and subtropical countries, tick infestation causes major public health problems and considerable financial losses to the livestock industry. This study was aimed to assess the species composition of richness and analyze the phylogeny of Rhipicephalus microplus in the District Bannu of Khyber Pakhtunkhwa, Pakistan., Methods: Collected ticks were identified morphologically and DNA extracted from R. microplus was amplified and subjected to sequencing., Results: A total of 3,600 animals were examined among them 1,494 animals were found to be infested with ticks, including 669 cows, 476 buffaloes, 163 goats, and 186 sheep (p = 0.001). Tick infestation was significantly high (43.58%) in animals of age group (<1 year) (p-value = 0.027). Female animals were more (44.05%) infested with ticks than males (34.43%) (p = 0.001). The intensity of infestation was significantly higher in summer (77.49%) (p = 0.001). A total of 5,557 ticks were collected comprising three genera and six species. R. microplus was predominantly prevalent (n = 1,474; 26.52%), followed by Rhipicephalus annulatus (n = 1,215; 21.86%), Hyalomma anatolicum (n = 1,139; 20.49%), Hyalomma marginatum (n = 1,086; 19.54%), and Rhipicephalus turanicus (n = 761; 13.69%), while the least common was Haemaphysalis aciculifer (n = 80; 1.43%) (p = 0.001). Morphologically identified R. microplus species were also analyzed genetically by using two genetic markers 16S ribosomal RNA (16S rRNA) and internal transcribed spacer 2 (ITS2) genes. The phylogenetic study revealed that R. microplus is genetically diversified and clustered in clade B with R. microplus species from China, India, and Pakistan., Conclusion: Ticks infestation was significantly correlated with various factors including age, sex, season, and animal type. R. microplus genetically resembled species reported from India and China. However, major knowledge gaps concerning various species of ticks exist and many areas are still unexplored in Pakistan. Therefore, it is necessary to explore the epidemiological and molecular aspects of various tick species in other regions of southern Khyber Pakhtunkhwa., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

12. A tale of two fish: Comparative transcriptomics of resistant and susceptible steelhead following exposure to Ceratonova shasta highlights differences in parasite recognition.

Author

Barrett DE and Bartholomew JL

Subjects

Animals, Disease Susceptibility metabolism, Fish Diseases parasitology, Gene Expression genetics, Gene Expression Profiling methods, Genomics methods, Gills parasitology, Intestines parasitology, Oncorhynchus mykiss immunology, Oncorhynchus mykiss parasitology, Parasites genetics, Parasitic Diseases, Animal parasitology, Transcriptome genetics, Genetic Predisposition to Disease genetics, Myxozoa genetics, Oncorhynchus mykiss genetics

Abstract

Diseases caused by myxozoan parasites represent a significant threat to the health of salmonids in both the wild and aquaculture setting, and there are no effective therapeutants for their control. The myxozoan Ceratonova shasta is an intestinal parasite of salmonids that causes severe enteronecrosis and mortality. Most fish populations appear genetically fixed as resistant or susceptible to the parasite, offering an attractive model system for studying the immune response to myxozoans. We hypothesized that early recognition of the parasite is a critical factor driving resistance and that susceptible fish would have a delayed immune response. RNA-seq was used to identify genes that were differentially expressed in the gills and intestine during the early stages of C. shasta infection in both resistant and susceptible steelhead (Oncorhynchus mykiss). This revealed a downregulation of genes involved in the IFN-γ signaling pathway in the gills of both phenotypes. Despite this, resistant fish quickly contained the infection and several immune genes, including two innate immune receptors were upregulated. Susceptible fish, on the other hand, failed to control parasite proliferation and had no discernible immune response to the parasite, including a near-complete lack of differential gene expression in the intestine. Further sequencing of intestinal samples from susceptible fish during the middle and late stages of infection showed a vigorous yet ineffective immune response driven by IFN-γ, and massive differential expression of genes involved in cell adhesion and the extracellular matrix, which coincided with the breakdown of the intestinal structure. Our results suggest that the parasite may be suppressing the host's immune system during the initial invasion, and that susceptible fish are unable to recognize the parasite invading the intestine or mount an effective immune response. These findings improve our understanding of myxozoan-host interactions while providing a set of putative resistance markers for future studies., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

13. Balancing selection and high genetic diversity of Plasmodium vivax circumsporozoite central region in parasites from Brazilian Amazon and Rio de Janeiro Atlantic Forest.

Author

Almeida-de-Oliveira NK, Abreu-Fernandes R, Lima-Cury L, Lavigne AR, Pina-Costa A, Perce-da-Silva DS, Catanho M, Rossi AD, Brasil P, Daniel-Ribeiro CT, and Ferreira-da-Cruz MF

Subjects

Amino Acid Sequence, Amino Acid Substitution, Animals, Atlantic Ocean, Brazil, Codon genetics, Epitopes, B-Lymphocyte chemistry, Epitopes, B-Lymphocyte genetics, Epitopes, T-Lymphocyte chemistry, Epitopes, T-Lymphocyte genetics, Geography, Haplotypes genetics, INDEL Mutation genetics, Linkage Disequilibrium genetics, Nucleotides genetics, Peptides chemistry, Phylogeny, Plasmodium vivax isolation & purification, Polymorphism, Genetic, Protozoan Proteins chemistry, Genetic Variation, Parasites genetics, Plasmodium vivax genetics, Protozoan Proteins genetics, Selection, Genetic

Abstract

Circumsporozoite protein (CSP) is the primary pre-erythrocytic vaccine target in Plasmodium species. Knowledge about their genetic diversity can help predict vaccine efficacy and the spread of novel parasite variants. Thus, we investigated pvcsp gene polymorphisms in 219 isolates (136 from Brazilian Amazon [BA], 71 from Rio de Janeiro Atlantic Forest [AF], and 12 from non-Brazilian countries [NB]). Forty-eight polymorphic sites were detected, 46 in the central repeat region (CR), and two in the C-terminal region. Also, the CR presents InDels and a variable number of repeats. All samples correspond to the VK210 variant, and 24 VK210 subtypes based on CR. Nucleotide diversity (π = 0.0135) generated a significant number of haplotypes (168) with low genetic differentiation between the Brazilian regions (Fst = 0.208). The haplotype network revealed similar distances among the BA and AF regions. The linkage disequilibrium indicates that recombination does not seem to be acting in diversity, reinforcing natural selection's role in accelerating adaptive evolution. The high diversity (low Fst) and polymorphism frequencies could be indicators of balancing selection. Although malaria in BA and AF have distinct vector species and different host immune pressures, consistent genetic signature was found in two regions. The immunodominant B-cell epitope mapped in the CR varies from seven to 19 repeats. The CR T-cell epitope is conserved only in 39 samples. Concerning to C-terminal region, the Th2R epitope presented nonsynonymous SNP only in 6% of Brazilian samples, and the Th3R epitope remained conserved in all studied regions. We conclude that, although the uneven distribution of alleles may jeopardize the deployment of vaccines directed to a specific variable locus, a unique vaccine formulation could protect populations in all Brazilian regions., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

14. Multi-copy alpha-amylase genes are crucial for Ditylenchus destructor to parasitize the plant host.

Author

Chen L, Xu M, Wang C, Zheng J, Huang G, Chen F, Peng D, and Sun M

Subjects

Amino Acid Sequence, Amylases metabolism, Animals, Gene Expression Regulation, Plant genetics, Host-Parasite Interactions genetics, Nematoda genetics, Parasites genetics, Phylogeny, Plant Tubers metabolism, Plant Tubers parasitology, RNA Interference, Real-Time Polymerase Chain Reaction methods, Rhabditida genetics, Starch metabolism, Tylenchida genetics, Tylenchoidea genetics, alpha-Amylases genetics

Abstract

Ditylenchus destructor is a migratory plant-parasitic nematode that causes huge damage to global root and tuber production annually. The main plant hosts of D. destructor contain plenty of starch, which makes the parasitic environment of D. destructor to be different from those of most other plant-parasitic nematodes. It is speculated that D. destructor may harbor some unique pathogenesis-related genes to parasitize the starch-rich hosts. Herein, we focused on the multi-copy alpha-amylase genes in D. destructor, which encode a key starch-catalyzing enzyme. Our previously published D. destructor genome showed that it has three alpha-amylase encoding genes, Dd&#95;02440, Dd&#95;11154, and Dd&#95;13225. Comparative analysis of alpha-amylases from different species demonstrated that the other plant-parasitic nematodes, even Ditylenchus dipsaci in the same genus, harbor only one or no alpha-amylase gene, and the three genes from D. destructor were closely clustered in the phylogenetic tree, indicating that there was a unique expansion of the alpha-amylase gene in D. destructor. The enzymatic activity of the three alpha-amylase proteins was verified by an enzyme assay. Quantitative real-time PCR assay showed that the expression of the three alpha-amylase genes in the post-hatching stage of D. destructor was found to be significantly higher than that in eggs. In the in situ hybridization assay, the expression of the genes was localized to the intestine, implying the association of these genes with nematode digestion. An infection assay in sweet potato demonstrated that RNA interference of any one alpha-amylase gene had no influence on the infectivity of D. destructor. Using the multi-target dsRNA cocktail method, it was found that silencing of two of the three genes inhibited nematode infection, and the infectivity of worms treated with three dsRNA simultaneously changed the most, which decreased by 76.6%. Thus, the multi-copy alpha-amylase genes in D. destructor are compensatory and crucial for nematodes to parasitize the plant host., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

15. Pre-Columbian zoonotic enteric parasites: An insight into Puerto Rican indigenous culture diets and life styles.

Author

Wiscovitch-Russo R, Rivera-Perez J, Narganes-Storde YM, García-Roldán E, Bunkley-Williams L, Cano R, and Toranzos GA

Subjects

Animals, Diet adverse effects, History, 15th Century, History, Medieval, Host-Parasite Interactions, Humans, Life Style, Metagenomics, Parasites genetics, Parasites physiology, Puerto Rico epidemiology, Sequence Analysis, DNA, Zoonoses epidemiology, Zoonoses parasitology, Parasites isolation & purification, Zoonoses history

Abstract

The pre-Columbian Huecoid and Saladoid cultures were agricultural ethnic groups that supplemented their diets by fishing, hunting and scavenging. Archaeological deposits associated to these cultures contained a variety of faunal osseous remains that hinted at the cultures' diets. The present study identified zoonotic parasites that may have infected these two cultures as a result of their diets. We used metagenomic sequencing and microscopy data from 540-1,400 year old coprolites as well as the zooarchaeological data to recreate the possible interactions between zoonotic parasites and their hosts. Microscopy revealed Diphyllobothrium spp. and Dipylidium caninum eggs along with unidentified cestode and trematode eggs. DNA sequencing together with functional prediction and phylogenetic inference identified reads of Cryptosporidium spp., Giardia intestinalis and Schistosoma spp. The complimentary nature of the molecular, microscopy and zooarchaeology data provided additional insight into the detected zoonotic parasites' potential host range. Network modeling revealed that rodents and canids living in close proximity to these cultures were most likely the main source of these zoonotic parasite infections., Competing Interests: We would also like to declare that the authors have no existing competing interests.

Published

2020

16. Pathogen surveillance in the informal settlement, Kibera, Kenya, using a metagenomics approach.

Author

Hendriksen RS, Lukjancenko O, Munk P, Hjelmsø MH, Verani JR, Ng'eno E, Bigogo G, Kiplangat S, Oumar T, Bergmark L, Röder T, Neatherlin JC, Clayton O, Hald T, Karlsmose S, Pamp SJ, Fields B, Montgomery JM, and Aarestrup FM

Subjects

Animals, Bacteria pathogenicity, Communicable Diseases microbiology, Communicable Diseases parasitology, Communicable Diseases virology, Drug Resistance, Bacterial genetics, Feces microbiology, Feces parasitology, Feces virology, Humans, Kenya epidemiology, Metagenomics methods, Parasites genetics, Parasites pathogenicity, Patient Acceptance of Health Care, Sewage microbiology, Sewage parasitology, Sewage virology, Viruses genetics, Viruses pathogenicity, Water analysis, Bacteria genetics, Communicable Diseases genetics, Metagenome genetics, Water Microbiology

Abstract

Background: Worldwide, the number of emerging and re-emerging infectious diseases is increasing, highlighting the importance of global disease pathogen surveillance. Traditional population-based methods may fail to capture important events, particularly in settings with limited access to health care, such as urban informal settlements. In such environments, a mixture of surface water runoff and human feces containing pathogenic microorganisms could be used as a surveillance surrogate., Method: We conducted a temporal metagenomic analysis of urban sewage from Kibera, an urban informal settlement in Nairobi, Kenya, to detect and quantify bacterial and associated antimicrobial resistance (AMR) determinants, viral and parasitic pathogens. Data were examined in conjunction with data from ongoing clinical infectious disease surveillance., Results: A large variation of read abundances related to bacteria, viruses, and parasites of medical importance, as well as bacterial associated antimicrobial resistance genes over time were detected. Significant increased abundances were observed for a number of bacterial pathogens coinciding with higher abundances of AMR genes. Vibrio cholerae as well as rotavirus A, among other virus peaked in several weeks during the study period whereas Cryptosporidium spp. and Giardia spp, varied more over time., Conclusion: The metagenomic surveillance approach for monitoring circulating pathogens in sewage was able to detect putative pathogen and resistance loads in an urban informal settlement. Thus, valuable if generated in real time to serve as a comprehensive infectious disease agent surveillance system with the potential to guide disease prevention and treatment. The approach may lead to a paradigm shift in conducting real-time global genomics-based surveillance in settings with limited access to health care., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

17. Worldwide paleodistribution of capillariid parasites: Paleoparasitology, current status of phylogeny and taxonomic perspectives.

Author

Borba VH, Machado-Silva JR, Le Bailly M, and Iñiguez AM

Subjects

Animals, DNA, Ribosomal genetics, Parasites genetics, Internationality, Paleontology, Parasites classification, Phylogeny

Abstract

Introduction: Paleoparasitology, the study of parasites in the past, brings the knowledge of where and when they occurred in preterit populations. Some groups of parasites, as capillariids, have a complex and controversial systematic, hindering the paleoparasitological diagnosis. In this article, we synthesized the occurrence of capillariids in both the New and the Old World in ancient times, and discussed the difficulty of the diagnosis of species and the strategies for identification. The present review also shows the current status of the phylogeny in capillariids and indicates the necessity to try new approaches for a better understanding of capillariid paleodistribution., Methods: For the systematic review, a predefined guideline defined by PRISMA was used. The articles collected were identified, screened, and included in the review following criteria for eligibility. The current status of the phylogeny of capillariids was accessed using MUSCLE, Bioedit v.7.0.5 and MEGA v. 7.0.21 programs., Results: The review discussed 38 articles that presented information about capillariids in past populations. Most of capillariid eggs found in the New and Old World were not identified. However, Calodium hepaticum eggs were the most identified, as some from Eucoleus genus. It was observed that sites from the New World had a better chance for capillariid egg identification, due to previous knowledge of its host, when compared to the Old World. In the 18S rDNA phylogenetic analyses, two datasets were constructed, one including sequences from 7 Moravec's genera, where 3 genus-specific clusters, with high bootstrap values, could be observed for Capillaria (ML = 99%, NJ = 96%), Eucoleus (ML / NJ = 100%) and Paratrichosoma (ML / NJ = 100%). A fourth cluster of 18S rDNA dataset I revealed lack of definition of Pearsonema and Aonchotheca genera. The 18S rDNA dataset II comprised 8 Moravec's genera and defined 3 clusters, 2 genus-specific for Eucoleus (ML = 99%, NJ = 100%) and Capillaria (ML / NJ = 98%). The third 18S rDNA dataset II cluster included 6 genera and exhibited, once again, Pearsonema and Aonchotheca poor discrimination. The cox1 gene data consist of 4 Moravec's genera, and in spite of grouping some species-specific clusters, did not show genera-specific definition., Conclusions: Despite the numerous archaeological findings, both in the New and the Old Worlds, the identification of capillariid species based on the morphology and morphometry of eggs remains imprecise, often resulting in a generic diagnosis of a group or morphotype of capillariid. Capillariid is one of the most diverse group of helminths recovered in archaeological sites. The phylogenetic trees produced in this study showed limited genetic information available, unresolved genera and incongruence with the classical taxonomy. The elucidation of the paleodistribution of capillariids can give insights of the ancient host-parasite associations but also in modern sceneries., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

18. Parasitic infections and resource economy of Danish Iron Age settlement through ancient DNA sequencing.

Author

Tams KW, Jensen Søe M, Merkyte I, Valeur Seersholm F, Henriksen PS, Klingenberg S, Willerslev E, Kjær KH, Hansen AJ, and Kapel CMO

Subjects

Animals, Archaeology, Cattle, Denmark, Feces parasitology, Horses parasitology, Humans, Parasites isolation & purification, Plants genetics, Sheep parasitology, Swine parasitology, Trichuris isolation & purification, Trichuris pathogenicity, DNA, Ancient analysis, Parasites genetics, Sequence Analysis, DNA, Trichuris genetics

Abstract

In this study, we screen archaeological soil samples by microscopy and analyse the samples by next generation sequencing to obtain results with parasites at species level and untargeted findings of plant and animal DNA. Three separate sediment layers of an ancient man-made pond in Hoby, Denmark, ranging from 100 BC to 200 AD, were analysed by microscopy for presence of intestinal worm eggs and DNA analysis were performed to identify intestinal worms and dietary components. Ancient DNA of parasites, domestic animals and edible plants revealed a change in use of the pond over time reflecting the household practice in the adjacent Iron Age settlement. The most abundant parasite found belonged to the Ascaris genus, which was not possible to type at species level. For all sediment layers the presence of eggs of the human whipworm Trichuris trichiura and the beef tapeworm Taenia saginata suggests continuous disposal of human faeces in the pond. Moreover, the continuous findings of T. saginata further imply beef consumption and may suggest that cattle were living in the immediate surrounding of the site throughout the period. Findings of additional host-specific parasites suggest fluctuating presence of other domestic animals over time: Trichuris suis (pig), Parascaris univalens (horse), Taenia hydatigena (dog and sheep). Likewise, alternating occurrence of aDNA of edible plants may suggest changes in agricultural practices. Moreover, the composition of aDNA of parasites, plants and vertebrates suggests a significant change in the use of the ancient pond over a period of three centuries., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

19. Ancient DNA from latrines in Northern Europe and the Middle East (500 BC-1700 AD) reveals past parasites and diet.

Author

Søe MJ, Nejsum P, Seersholm FV, Fredensborg BL, Habraken R, Haase K, Hald MM, Simonsen R, Højlund F, Blanke L, Merkyte I, Willerslev E, and Kapel CMO

Subjects

Agriculture, Animals, Archaeology methods, Biodiversity, DNA, Mitochondrial, DNA, Plant, Eggs, Europe, History, Ancient, Humans, Metagenome, Middle East, Parasites genetics, Parasitic Diseases epidemiology, Parasitic Diseases history, Phylogeny, Sequence Analysis, DNA, DNA, Ancient, Diet, Feces chemistry, Feces parasitology, Toilet Facilities

Abstract

High-resolution insight into parasitic infections and diet of past populations in Northern Europe and the Middle East (500 BC- 1700 AD) was obtained by pre-concentration of parasite eggs from ancient latrines and deposits followed by shotgun sequencing of DNA. Complementary profiling of parasite, vertebrate and plant DNA proved highly informative in the study of ancient health, human-animal interactions as well as animal and plant dietary components. Most prominent were finding of soil-borne parasites transmitted directly between humans, but also meat-borne parasites that require consumption of raw or undercooked fish and pork. The detection of parasites for which sheep, horse, dog, pig, and rodents serves as definitive hosts are clear markers of domestic and synanthropic animals living in closer proximity of the respective sites. Finally, the reconstruction of full mitochondrial parasite genomes from whipworm (Ascaris lumbricoides) and roundworm species (Trichuris trichiura and Trichuris muris) and estimates of haplotype frequencies elucidates the genetic diversity and provides insights into epidemiology and parasite biology.

Published

2018

20. Distinct seasonal infectious agent profiles in life-history variants of juvenile Fraser River Chinook salmon: An application of high-throughput genomic screening.

Author

Tucker S, Li S, Kaukinen KH, Patterson DA, and Miller KM

Subjects

Animals, Bacteria genetics, British Columbia, Fish Diseases microbiology, Fish Diseases parasitology, Fish Diseases transmission, Fungi genetics, Fungi isolation & purification, High-Throughput Screening Assays, Life History Traits, Microfluidic Analytical Techniques, Multivariate Analysis, Oceans and Seas, Parasites genetics, Prevalence, Real-Time Polymerase Chain Reaction, Rivers, Salmon virology, Viruses genetics, Bacteria isolation & purification, Fish Diseases epidemiology, Parasites isolation & purification, Salmon microbiology, Salmon parasitology, Seasons, Viruses isolation & purification

Abstract

Disease-causing infectious agents are natural components of ecosystems and considered a major selective force driving the evolution of host species. However, knowledge of the presence and abundance of suites of infectious agents in wild populations has been constrained by our ability to easily screen for them. Using salmon as a model, we contrasted seasonal pathogenic infectious agents in life history variants of juvenile Chinook salmon from the Fraser River system (N = 655), British Columbia (BC), through the application of a novel high-throughput quantitative PCR monitoring platform. This included freshwater hatchery origin fish and samples taken at sea between ocean entry in spring and over-winter residence in coastal waters. These variants currently display opposite trends in productivity, with yearling stocks generally in decline and sub-yearling stocks doing comparatively well. We detected the presence of 32 agents, 21 of which were at >1% prevalence. Variants carried a different infectious agent profile in terms of (1) diversity, (2) origin or transmission environment of infectious agents, and (3) prevalence and abundance of individual agents. Differences in profiles tended to reflect differential timing and residence patterns through freshwater, estuarine and marine habitats. Over all seasons, individual salmon carried an average of 3.7 agents. Diversity changed significantly, increasing upon saltwater entrance, increasing through the fall and decreasing slightly in winter. Diversity varied between life history types with yearling individuals carrying 1.3-times more agents on average. Shifts in prevalence and load over time were examined to identify agents with the greatest potential for impact at the stock level; those displaying concurrent decrease in prevalence and load truncation with time. Of those six that had similar patterns in both variants, five reached higher prevalence in yearling fish while only one reached higher prevalence in sub-yearling fish; this pattern was present for an additional five agents in yearling fish only.

Published

2018

21. Life in a rock pool: Radiation and population genetics of myxozoan parasites in hosts inhabiting restricted spaces.

Author

Bartošová-Sojková P, Lövy A, Reed CC, Lisnerová M, Tomková T, Holzer AS, and Fiala I

Subjects

Animals, DNA, Ribosomal genetics, Fish Diseases parasitology, Fishes parasitology, Genetics, Population methods, Parasitic Diseases, Animal parasitology, Phylogeny, South Africa, Host-Parasite Interactions genetics, Host-Parasite Interactions physiology, Life Cycle Stages genetics, Myxozoa classification, Myxozoa genetics, Parasites classification, Parasites genetics

Abstract

Introduction: Intertidal rock pools where fish and invertebrates are in constant close contact due to limited space and water level fluctuations represent ideal conditions to promote life cycles in parasites using these two alternate hosts and to study speciation processes that could contribute to understanding the roles of parasitic species in such ecosystems., Material and Methods: Gall bladder and liver samples from five clinid fish species (Blenniiformes: Clinidae) were morphologically and molecularly examined to determine the diversity, prevalence, distribution and host specificity of Ceratomyxa parasites (Cnidaria: Myxozoa) in intertidal habitats along the coast of South Africa. Phylogenetic relationships of clinid ceratomyxids based on the SSU rDNA, LSU rDNA and ITS regions were assessed additionally to the investigation of population genetic structure of Ceratomyxa cottoidii and subsequent comparison with the data known from type fish host Clinus cottoides., Results and Discussion: Seven Ceratomyxa species including previously described Ceratomyxa dehoopi and C. cottoidii were recognized in clinids. They represent a diverse group of rapidly evolving, closely related species with a remarkably high prevalence in their hosts, little host specificity and frequent concurrent infections, most probably as a result of parasite radiation after multiple speciation events triggered by limited host dispersal within restricted spaces. C. cottoidii represents the most common clinid parasite with a population structure characterized by young expanding populations in the south west and south east coast and by older populations in equilibrium on the west coast of its distribution. Parasite and fish host population structures show overlapping patterns and are very likely affected by similar oceanographic barriers possibly due to reduced host dispersal enhancing parasite community differentiation. While fish host specificity had little impact on parasite population structure, the habitat preference of the alternate invertebrate host as well as tidal water exchange may be additional crucial variables affecting the dispersal and associated population structure of C. cottoidii.

Published

2018

22. Population genetics, community of parasites, and resistance to rodenticides in an urban brown rat (Rattus norvegicus) population.

Author

Desvars-Larrive A, Pascal M, Gasqui P, Cosson JF, Benoît E, Lattard V, Crespin L, Lorvelec O, Pisanu B, Teynié A, Vayssier-Taussat M, Bonnet S, Marianneau P, Lacôte S, Bourhy P, Berny P, Pavio N, Le Poder S, Gilot-Fromont E, Jourdain E, Hammed A, Fourel I, Chikh F, and Vourc'h G

Subjects

Animals, Biodiversity, Biomarkers, Blood Cell Count, France, Genetic Variation, Genotype, Geography, Immunogenetic Phenomena, Microsatellite Repeats, Rats, Urban Health, Vitamin K Epoxide Reductases genetics, Drug Resistance, Genetics, Population, Parasites classification, Parasites genetics, Rodenticides pharmacology

Abstract

Brown rats are one of the most widespread urban species worldwide. Despite the nuisances they induce and their potential role as a zoonotic reservoir, knowledge on urban rat populations remains scarce. The main purpose of this study was to characterize an urban brown rat population from Chanteraines park (Hauts-de-Seine, France), with regards to haematology, population genetics, immunogenic diversity, resistance to anticoagulant rodenticides, and community of parasites. Haematological parameters were measured. Population genetics was investigated using 13 unlinked microsatellite loci. Immunogenic diversity was assessed for Mhc-Drb. Frequency of the Y139F mutation (conferring resistance to rodenticides) and two linked microsatellites were studied, concurrently with the presence of anticoagulant residues in the liver. Combination of microscopy and molecular methods were used to investigate the occurrence of 25 parasites. Statistical approaches were used to explore multiple parasite relationships and model parasite occurrence. Eighty-six rats were caught. The first haematological data for a wild urban R. norvegicus population was reported. Genetic results suggested high genetic diversity and connectivity between Chanteraines rats and surrounding population(s). We found a high prevalence (55.8%) of the mutation Y139F and presence of rodenticide residues in 47.7% of the sampled individuals. The parasite species richness was high (16). Seven potential zoonotic pathogens were identified, together with a surprisingly high diversity of Leptospira species (4). Chanteraines rat population is not closed, allowing gene flow and making eradication programs challenging, particularly because rodenticide resistance is highly prevalent. Parasitological results showed that co-infection is more a rule than an exception. Furthermore, the presence of several potential zoonotic pathogens, of which four Leptospira species, in this urban rat population raised its role in the maintenance and spread of these pathogens. Our findings should stimulate future discussions about the development of a long-term rat-control management program in Chanteraines urban park.

Published

2017

23. Unbiased RNA Shotgun Metagenomics in Social and Solitary Wild Bees Detects Associations with Eukaryote Parasites and New Viruses.

Author

Schoonvaere K, De Smet L, Smagghe G, Vierstraete A, Braeckman BP, and de Graaf DC

Subjects

Animals, Bees classification, Bees parasitology, Bees virology, Bees genetics, Eukaryota genetics, Metagenomics, Parasites genetics, RNA Viruses genetics

Abstract

The diversity of eukaryote organisms and viruses associated with wild bees remains poorly characterized in contrast to the well-documented pathosphere of the western honey bee, Apis mellifera. Using a deliberate RNA shotgun metagenomic sequencing strategy in combination with a dedicated bioinformatics workflow, we identified the (micro-)organisms and viruses associated with two bumble bee hosts, Bombus terrestris and Bombus pascuorum, and two solitary bee hosts, Osmia cornuta and Andrena vaga. Ion Torrent semiconductor sequencing generated approximately 3.8 million high quality reads. The most significant eukaryote associations were two protozoan, Apicystis bombi and Crithidia bombi, and one nematode parasite Sphaerularia bombi in bumble bees. The trypanosome protozoan C. bombi was also found in the solitary bee O. cornuta. Next to the identification of three honey bee viruses Black queen cell virus, Sacbrood virus and Varroa destructor virus-1 and four plant viruses, we describe two novel RNA viruses Scaldis River bee virus (SRBV) and Ganda bee virus (GABV) based on their partial genomic sequences. The novel viruses belong to the class of negative-sense RNA viruses, SRBV is related to the order Mononegavirales whereas GABV is related to the family Bunyaviridae. The potential biological role of both viruses in bees is discussed in the context of recent advances in the field of arthropod viruses. Further, fragmentary sequence evidence for other undescribed viruses is presented, among which a nudivirus in O. cornuta and an unclassified virus related to Chronic bee paralysis virus in B. terrestris. Our findings extend the current knowledge of wild bee parasites in general and addsto the growing evidence of unexplored arthropod viruses in valuable insects., Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests: Co-author Prof. Guy Smagghe is a PLoS ONE Editorial Board member. This does not alter the authors’ adherence to all PLOS ONE policies on sharing data and samples.

Published

2016

24. DNA Barcodes for the Northern European Tachinid Flies (Diptera: Tachinidae).

Author

Pohjoismäki JL, Kahanpää J, and Mutanen M

Subjects

Animals, Biodiversity, Cluster Analysis, Coleoptera genetics, DNA Barcoding, Taxonomic methods, Lepidoptera genetics, Parasites genetics, DNA genetics, Diptera genetics

Abstract

This data release provides COI barcodes for 366 species of parasitic flies (Diptera: Tachinidae), enabling the DNA based identification of the majority of northern European species and a large proportion of Palearctic genera, regardless of the developmental stage. The data will provide a tool for taxonomists and ecologists studying this ecologically important but challenging parasitoid family. A comparison of minimum distances between the nearest neighbors revealed the mean divergence of 5.52% that is approximately the same as observed earlier with comparable sampling in Lepidoptera, but clearly less than in Coleoptera. Full barcode-sharing was observed between 13 species pairs or triplets, equaling to 7.36% of all species. Delimitation based on Barcode Index Number (BIN) system was compared with traditional classification of species and interesting cases of possible species oversplits and cryptic diversity are discussed. Overall, DNA barcodes are effective in separating tachinid species and provide novel insight into the taxonomy of several genera., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

25. Evaluation of the NanoCHIP® Gastrointestinal Panel (GIP) Test for Simultaneous Detection of Parasitic and Bacterial Enteric Pathogens in Fecal Specimens.

Author

Ken Dror S, Pavlotzky E, and Barak M

Subjects

Animals, Humans, Prospective Studies, Reproducibility of Results, Retrospective Studies, Bacteria genetics, Feces microbiology, Feces parasitology, Oligonucleotide Array Sequence Analysis methods, Parasites genetics

Abstract

Infectious gastroenteritis is a global health problem associated with high morbidity and mortality rates. Rapid and accurate diagnosis is crucial to allow appropriate and timely treatment. Current laboratory stool testing has a long turnaround time (TAT) and demands highly qualified personnel and multiple techniques. The need for high throughput and the number of possible enteric pathogens compels the implementation of a molecular approach which uses multiplex technology, without compromising performance requirements. In this work we evaluated the feasibility of the NanoCHIP® Gastrointestinal Panel (GIP) (Savyon Diagnostics, Ashdod, IL), a molecular microarray-based screening test, to be used in the routine workflow of our laboratory, a big outpatient microbiology laboratory. The NanoCHIP® GIP test provides simultaneous detection of nine major enteric bacteria and parasites: Campylobacter spp., Salmonella spp., Shigella spp., Giardia sp., Cryptosporidium spp., Entamoeba histolytica, Entamoeba dispar, Dientamoeba fragilis, and Blastocystis spp. The required high-throughput was obtained by the NanoCHIP® detection system together with the MagNA Pure 96 DNA purification system (Roche Diagnostics Ltd., Switzerland). This combined system has demonstrated a higher sensitivity and detection yield compared to the conventional methods in both, retrospective and prospective samples. The identification of multiple parasites and bacteria in a single test also enabled increased efficiency of detecting mixed infections, as well as reduced hands-on time and work load. In conclusion, the combination of these two automated systems is a proper response to the laboratory needs in terms of improving laboratory workflow, turn-around-time, minimizing human errors and can be efficiently integrated in the routine work of the laboratory.

Published

2016

26. Morphological and Molecular Characterization of Reared Parasitoid Wasps of the Genus Glyptapanteles Ashmead 1904 (Insecta: Hymenoptera: Braconidae: Microgastrinae) Associated with Lepidoptera in India.

Author

Gupta A, Venkatesan T, and More RP

Subjects

Animals, Base Sequence, Bayes Theorem, Ecosystem, Electron Transport Complex IV genetics, Host Specificity, Host-Parasite Interactions, India, Likelihood Functions, Parasites genetics, Phylogeny, Species Specificity, Wasps genetics, Lepidoptera parasitology, Parasites anatomy & histology, Wasps anatomy & histology

Abstract

Glyptapanteles Ashmead (Hymenoptera: Braconidae: Microgastrinae) is a cosmopolitan group of hyperdiverse parasitic wasps. The genus remains taxonomically challenging in India due to its highly speciose nature, morphological similarity amongst species and negligible host records. The Indian fauna is one of the most diverse and also the least studied. The present study is based on 60 populations reared from 35 host species, 100+ individual caterpillar rearings (1100 wasp specimens pinned and 2000 in alcohol) and from 12 different geographical locations of the country (11 states and one Union territory) that represent 26 provisional Glyptapanteles species within 8 species-groups. Out of 60 populations, phylogenetic analyses were performed on 38 based on mitochondrial cytochrome oxidase subunit I (COI) nucleotide sequences. Maximum likelihood and Bayesian inference methods displayed three and four major discrete Glyptapanteles clades, respectively. In clade A very few Indian species were grouped along with Neotropical and Thailand species. The other clades B and C grouped the majority of the Indian species and showed considerable host specificity in both the trees. All parasitic wasp species were gregarious in nature, except for two populations. Three different sets of data (morphology, host records, and COI) were integrated in order to generate accurate boundaries between species/species-groups. Illustrations of all parasitized caterpillars/cocoons and 42 habitus views of Glyptapanteles spp., distributional information, and GenBank accession numbers, are presented. The present study, perhaps the most comprehensive done to date in India, suggests the presence of several additional Glyptapanteles species, which were previously unrecognized.

Published

2016

27. A New High-Throughput Approach to Genotype Ancient Human Gastrointestinal Parasites.

Author

Côté NM, Daligault J, Pruvost M, Bennett EA, Gorgé O, Guimaraes S, Capelli N, Le Bailly M, Geigl EM, and Grange T

Subjects

Animals, Archaeology, DNA genetics, Genetic Variation, Genotype, Helminths genetics, History, Ancient, Humans, Ovum cytology, Gastrointestinal Tract parasitology, Genotyping Techniques methods, High-Throughput Nucleotide Sequencing methods, Parasites genetics

Abstract

Human gastrointestinal parasites are good indicators for hygienic conditions and health status of past and present individuals and communities. While microscopic analysis of eggs in sediments of archeological sites often allows their taxonomic identification, this method is rarely effective at the species level, and requires both the survival of intact eggs and their proper identification. Genotyping via PCR-based approaches has the potential to achieve a precise species-level taxonomic determination. However, so far it has mostly been applied to individual eggs isolated from archeological samples. To increase the throughput and taxonomic accuracy, as well as reduce costs of genotyping methods, we adapted a PCR-based approach coupled with next-generation sequencing to perform precise taxonomic identification of parasitic helminths directly from archeological sediments. Our study of twenty-five 100 to 7,200 year-old archeological samples proved this to be a powerful, reliable and efficient approach for species determination even in the absence of preserved eggs, either as a stand-alone method or as a complement to microscopic studies.

Published

2016

28. Description of the Microsporidian Parasite, Heterosporis sutherlandae n. sp., Infecting Fish in the Great Lakes Region, USA.

Author

Phelps NB, Mor SK, Armién AG, Pelican KM, and Goyal SM

Subjects

Animals, Great Lakes Region, Sequence Analysis, RNA, Fish Diseases parasitology, Microsporidia genetics, Parasites genetics

Abstract

Heterosporosis is an increasingly important microsporidian disease worldwide, impacting wild and farmed raised fishes in both marine and freshwater environments. A previously undescribed species (Heterosporis sp.), with widespread distribution in the Great Lakes region, was the subject of this study. Three angler-caught fish were submitted to the Minnesota Veterinary Diagnostic Laboratory from 2009-2010 with lesions caused by intracellular proliferation of parasitic spores, resulting in destruction and eventual widespread necrosis of the host skeletal muscles. Mature ovoid (5.8 x 3.5 μm) spores of a microsporidian parasite, consistent with the genus Heterosporis, were observed by light and electron microscopy. Molecular identification was performed using primer walking to obtain a near-complete rRNA gene sequence (~3,600 bp). A unique species of Heterosporis was identified, demonstrating less than 96% sequence identity to other published Heterosporis sp. on the basis of partial rRNA gene sequence analysis. Heterosporis sutherlandae n. sp. (formerly Heterosporis sp.) was identified in yellow perch (Perca flavescens), northern pike (Esox lucius) and walleye (Sander vitreus) from inland lakes in Minnesota and Wisconsin. Previous research suggests this species may be even more widespread in the Great Lakes region and should be reexamined using molecular techniques to better understand the distribution of this novel species.

Published

2015

29. Transcriptome-Based Identification of Highly Similar Odorant-Binding Proteins among Neotropical Stink Bugs and Their Egg Parasitoid.

Author

Farias LR, Schimmelpfeng PH, Togawa RC, Costa MM, Grynberg P, Martins NF, Borges M, Blassioli-Moraes MC, Laumann RA, Báo SN, and Paula DP

Subjects

Amino Acid Sequence, Animals, Computer Simulation, Gene Library, Gene Ontology, Host-Parasite Interactions genetics, Models, Molecular, Molecular Sequence Annotation, Molecular Sequence Data, Phylogeny, Protein Structure, Tertiary, Receptors, Odorant chemistry, Receptors, Odorant genetics, Sequence Alignment, Sequence Analysis, RNA, Species Specificity, Heteroptera genetics, Ovum parasitology, Parasites genetics, Receptors, Odorant metabolism, Transcriptome genetics, Tropical Climate

Abstract

Olfaction plays a fundamental role in insect survival through resource location and intra and interspecific communications. We used RNA-Seq to analyze transcriptomes for odorant-binding proteins (OBPs) from major stink bug pest species in Brazil, Euschistus heros, Chinavia ubica, and Dichelops melacanthus, and from their egg parasitoid, Telenomus podisi. We identified 23 OBPs in E. heros, 25 OBPs in C. ubica, 9 OBPs in D. melacanthus, and 7 OBPs in T. podisi. The deduced amino acid sequences of the full-length OBPs had low intraspecific similarity, but very high similarity between two pairs of OBPs from E. heros and C. ubica (76.4 and 84.0%) and between two pairs of OBPs from the parasitoid and its preferred host E. heros (82.4 and 88.5%), confirmed by a high similarity of their predicted tertiary structures. The similar pairs of OBPs from E. heros and C. ubica may suggest that they have derived from a common ancestor, and retain the same biological function to bind a ligand perceived or produced in both species. The T. podisi OBPs similar to E. heros were not orthologous to any known hymenopteran OBPs, and may have evolved independently and converged to the host OBPs, providing a possible basis for the host location of T. podisi using E. heros semiochemical cues.

Published

2015

30. Genome-Wide Collation of the Plasmodium falciparum WDR Protein Superfamily Reveals Malarial Parasite-Specific Features.

Author

Chahar P, Kaushik M, Gill SS, Gakhar SK, Gopalan N, Datt M, Sharma A, and Gill R

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Chromosomes genetics, Gene Expression Profiling, Genes, Protozoan, Humans, Life Cycle Stages genetics, Molecular Sequence Annotation, Molecular Sequence Data, Parasites growth & development, Phylogeny, Physical Chromosome Mapping, Plasmodium falciparum growth & development, Protein Interaction Mapping, Protein Structure, Tertiary, Proteome metabolism, Protozoan Proteins chemistry, Protozoan Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Homology, Amino Acid, Species Specificity, Structural Homology, Protein, Subcellular Fractions metabolism, Transcriptome genetics, Genome, Malaria, Falciparum genetics, Malaria, Falciparum parasitology, Parasites genetics, Plasmodium falciparum genetics, Protozoan Proteins genetics

Abstract

Despite a significant drop in malaria deaths during the past decade, malaria continues to be one of the biggest health problems around the globe. WD40 repeats (WDRs) containing proteins comprise one of the largest and functionally diverse protein superfamily in eukaryotes, acting as scaffolds for assembling large protein complexes. In the present study, we report an extensive in silico analysis of the WDR gene family in human malaria parasite Plasmodium falciparum. Our genome-wide identification has revealed 80 putative WDR genes in P. falciparum (PfWDRs). Five distinct domain compositions were discovered in Plasmodium as compared to the human host. Notably, 31 PfWDRs were annotated/re-annotated on the basis of their orthologs in other species. Interestingly, most PfWDRs were larger as compared to their human homologs highlighting the presence of parasite-specific insertions. Fifteen PfWDRs appeared specific to the Plasmodium with no assigned orthologs. Expression profiling of PfWDRs revealed a mixture of linear and nonlinear relationships between transcriptome and proteome, and only nine PfWDRs were found to be stage-specific. Homology modeling identified conservation of major binding sites in PfCAF-1 and PfRACK. Protein-protein interaction network analyses suggested that PfWDRs are highly connected proteins with ~1928 potential interactions, supporting their role as hubs in cellular networks. The present study highlights the roles and relevance of the WDR family in P. falciparum, and identifies unique features that lay a foundation for further experimental dissection of PfWDRs.

Published

2015

31. The Complete Mitochondrial Genome of the Foodborne Parasitic Pathogen Cyclospora cayetanensis.

Author

Cinar HN, Gopinath G, Jarvis K, and Murphy HR

Subjects

Animals, Base Sequence, Eimeria genetics, Genes, Protozoan, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Reproducibility of Results, Cyclospora genetics, Food Parasitology, Genome, Mitochondrial, Parasites genetics

Abstract

Cyclospora cayetanensis is a human-specific coccidian parasite responsible for several food and water-related outbreaks around the world, including the most recent ones involving over 900 persons in 2013 and 2014 outbreaks in the USA. Multicopy organellar DNA such as mitochondrion genomes have been particularly informative for detection and genetic traceback analysis in other parasites. We sequenced the C. cayetanensis genomic DNA obtained from stool samples from patients infected with Cyclospora in Nepal using the Illumina MiSeq platform. By bioinformatically filtering out the metagenomic reads of non-coccidian origin sequences and concentrating the reads by targeted alignment, we were able to obtain contigs containing Eimeria-like mitochondrial, apicoplastic and some chromosomal genomic fragments. A mitochondrial genomic sequence was assembled and confirmed by cloning and sequencing targeted PCR products amplified from Cyclospora DNA using primers based on our draft assembly sequence. The results show that the C. cayetanensis mitochondrion genome is 6274 bp in length, with 33% GC content, and likely exists in concatemeric arrays as in Eimeria mitochondrial genomes. Phylogenetic analysis of the C. cayetanensis mitochondrial genome places this organism in a tight cluster with Eimeria species. The mitochondrial genome of C. cayetanensis contains three protein coding genes, cytochrome (cytb), cytochrome C oxidase subunit 1 (cox1), and cytochrome C oxidase subunit 3 (cox3), in addition to 14 large subunit (LSU) and nine small subunit (SSU) fragmented rRNA genes.

Published

2015

32. The Red Queen race between parasitic chytrids and their host, Planktothrix: a test using a time series reconstructed from sediment DNA.

Author

Kyle M, Haande S, Ostermaier V, and Rohrlack T

Subjects

Animals, Environmental Monitoring, Host-Pathogen Interactions genetics, Lakes microbiology, Norway, Polymerase Chain Reaction, Time Factors, Biological Evolution, Chytridiomycota genetics, DNA, Fungal genetics, Geologic Sediments microbiology, Parasites genetics, Phytoplankton microbiology

Abstract

Parasitic chytrid fungi (phylum Chytridiomycota) are known to infect specific phytoplankton, including the filamentous cyanobacterium Planktothrix. Subspecies, or chemotypes of Planktothrix can be identified by the presence of characteristic oligopeptides. Some of these oligopeptides can be associated with important health concerns due to their potential for toxin production. However, the relationship between chytrid parasite and Planktothrix host is not clearly understood and more research is needed. To test the parasite-host relationship over time, we used a sediment core extracted from a Norwegian lake known to contain both multiple Planktothrix chemotype hosts and their parasitic chytrid. Sediment DNA of chytrids and Planktothrix was amplified and a 35-year coexistence was found. It is important to understand how these two antagonistic species can coexistence in a lake. Reconstruction of the time series showed that between 1979-1990 at least 2 strains of Planktothrix were present and parasitic pressure exerted by chytrids was low. After this period one chemotype became dominant and yet showed continued low susceptibility to chytrid parasitism. Either environmental conditions or intrinsic characteristics of Planktothrix could have been responsible for this continued dominance. One possible explanation could be found in the shift of Planktothrix to the metalimnion, an environment that typically consists of low light and decreased temperatures. Planktothrix are capable of growth under these conditions while the chytrid parasites are constrained. Another potential explanation could be due to the differences between cellular oligopeptide variations found between Planktothrix chemotypes. These oligopeptides can function as defense systems against chytrids. Our findings suggest that chytrid driven diversity was not maintained over time, but that the combination of environmental constraints and multiple oligopeptide production to combat chytrids could have allowed one Planktothrix chemotype to have dominance despite chytrid presence.

Published

2015

33. Assessment of helminth biodiversity in wild rats using 18S rDNA based metagenomics.

Author

Tanaka R, Hino A, Tsai IJ, Palomares-Rius JE, Yoshida A, Ogura Y, Hayashi T, Maruyama H, and Kikuchi T

Subjects

Animals, Databases, Genetic, Helminths isolation & purification, Intestines parasitology, Parasites genetics, Parasites isolation & purification, Phylogeny, Rats, Sequence Analysis, DNA, Software, Species Specificity, Animals, Wild parasitology, Biodiversity, Helminths genetics, Metagenomics, RNA, Ribosomal, 18S genetics

Abstract

Parasite diversity has important implications in several research fields including ecology, evolutionary biology and epidemiology. Wide-ranging analysis has been restricted because of the difficult, highly specialised and time-consuming processes involved in parasite identification. In this study, we assessed parasite diversity in wild rats using 18S rDNA-based metagenomics. 18S rDNA PCR products were sequenced using an Illumina MiSeq sequencer and the analysis of the sequences using the QIIME software successfully classified them into several parasite groups. The comparison of the results with those obtained using standard methods including microscopic observation of helminth parasites in the rat intestines and PCR amplification/sequencing of 18S rDNA from isolated single worms suggests that this new technique is reliable and useful to investigate parasite diversity.

Published

2014

34. A survey of innovation through duplication in the reduced genomes of twelve parasites.

Author

DeBarry JD and Kissinger JC

Subjects

Animals, Gene Dosage, Parasites genetics, Gene Duplication, Genome, Protozoan, Parasites classification

Abstract

We characterize the prevalence, distribution, divergence, and putative functions of detectable two-copy paralogs and segmental duplications in the Apicomplexa, a phylum of parasitic protists. Apicomplexans are mostly obligate intracellular parasites responsible for human and animal diseases (e.g. malaria and toxoplasmosis). Gene loss is a major force in the phylum. Genomes are small and protein-encoding gene repertoires are reduced. Despite this genomic streamlining, duplications and gene family amplifications are present. The potential for innovation introduced by duplications is of particular interest. We compared genomes of twelve apicomplexans across four lineages and used orthology and genome cartography to map distributions of duplications against genome architectures. Segmental duplications appear limited to five species. Where present, they correspond to regions enriched for multi-copy and species-specific genes, pointing toward roles in adaptation and innovation. We found a phylum-wide association of duplications with dynamic chromosome regions and syntenic breakpoints. Trends in the distribution of duplicated genes indicate that recent, species-specific duplicates are often tandem while most others have been dispersed by genome rearrangements. These trends show a relationship between genome architecture and gene duplication. Functional analysis reveals: proteases, which are vital to a parasitic lifecycle, to be prominent in putative recent duplications; a pair of paralogous genes in Toxoplasma gondii previously shown to produce the rate-limiting step in dopamine synthesis in mammalian cells, a possible link to the modification of host behavior; and phylum-wide differences in expression and subcellular localization, indicative of modes of divergence. We have uncovered trends in multiple modes of duplicate divergence including sequence, intron content, expression, subcellular localization, and functions of putative recent duplicates that highlight the role of duplications in the continuum of forces that have shaped these genomes.

Published

2014

35. Inbreeding depression in a parasitoid wasp with single-locus complementary sex determination.

Author

Vayssade C, de Fazio C, Quaglietti B, Auguste A, Ris N, and Fauvergue X

Subjects

Animals, Body Size, Crosses, Genetic, Female, France, Linear Models, Longevity, Male, Ovum metabolism, Sex Ratio, Wasps anatomy & histology, Genetic Loci, Inbreeding, Parasites genetics, Sex Determination Processes, Wasps genetics, Wasps physiology

Abstract

Inbreeding and inbreeding depression are key processes in small or isolated populations and are therefore central concerns for the management of threatened or (re)introduced organisms. Haplodiploid species of the order Hymenoptera have a particular status with regard to inbreeding depression. Although recessive deleterious alleles that are expressed in males should be purged, an alternative form of inbreeding depression exists in species with single-locus complementary sex determination (sl-CSD). Under sl-CSD, genetically-related parents have a high probability of producing sterile sons instead of fertile daughters. In this article, we study inbreeding depression in Venturia canescens (Hymenoptera: Ichneumonidae), a parasitoid wasp with sl-CSD. We used a crossing design to manipulate relatedness according to three levels: within-family, between-family and between-population. For each level, several fitness components were measured on parents and female offspring. We found a 20% reduction in egg load at emergence for inbred crosses. Inbred crosses also yielded a higher proportion of males, as expected in a species with sl-CSD. Mating probability, presence of daughters among offspring, body size, symmetry and longevity were unaffected by inbreeding.

Published

2014

36. The evolution of body size, antennal size and host use in parasitoid wasps (Hymenoptera: Chalcidoidea): a phylogenetic comparative analysis.

Author

Symonds MR and Elgar MA

Subjects

Animals, Biological Evolution, Hymenoptera, Parasites genetics, Phylogeny, Arthropod Antennae physiology, Body Size genetics, Host-Parasite Interactions genetics, Wasps genetics

Abstract

Chalcidoid wasps represent one of the most speciose superfamilies of animals known, with ca. 23,000 species described of which many are parasitoids. They are extremely diverse in body size, morphology and, among the parasitoids, insect hosts. Parasitic chalcidoids utilise a range of behavioural adaptations to facilitate exploitation of their diverse insect hosts, but how host use might influence the evolution of body size and morphology is not known in this group. We used a phylogenetic comparative analysis of 126 chalcidoid species to examine whether body size and antennal size showed evolutionary correlations with aspects of host use, including host breadth (specificity), host identity (orders of insects parasitized) and number of plant associates. Both morphological features and identity of exploited host orders show strong phylogenetic signal, but host breadth does not. Larger body size in these wasps was weakly associated with few plant genera, and with more specialised host use, and chalcidoid wasps that parasitize coleopteran hosts tend to be larger. Intriguingly, chalcidoid wasps that parasitize hemipteran hosts are both smaller in size in the case of those parasitizing the suborder Sternorrhyncha and have relatively larger antennae, particularly in those that parasitize other hemipteran suborders. These results suggest there are adaptations in chalcidoid wasps that are specifically associated with host detection and exploitation.

Published

2013

37. Identification and characterization of a novel Plasmodium falciparum adhesin involved in erythrocyte invasion.

Author

Hans N, Singh S, Pandey AK, Reddy KS, Gaur D, and Chauhan VS

Subjects

Animals, Antibodies, Blocking pharmacology, Antibodies, Protozoan metabolism, Erythrocytes drug effects, Gene Expression Regulation drug effects, Humans, Life Cycle Stages drug effects, Life Cycle Stages genetics, Merozoites drug effects, Merozoites ultrastructure, Mice, Mice, Inbred BALB C, Parasites drug effects, Parasites genetics, Parasites ultrastructure, Plasmodium falciparum genetics, Plasmodium falciparum growth & development, Plasmodium falciparum ultrastructure, Protein Binding drug effects, Protein Transport drug effects, Protozoan Proteins genetics, Protozoan Proteins ultrastructure, Recombinant Proteins metabolism, Reproduction, Asexual drug effects, Reproduction, Asexual genetics, Subcellular Fractions drug effects, Subcellular Fractions metabolism, Transcription, Genetic drug effects, Erythrocytes parasitology, Plasmodium falciparum physiology, Protozoan Proteins metabolism

Abstract

Malaria remains a major health problem worldwide. All clinical symptoms of malaria are attributed to the asexual blood stages of the parasite life cycle. Proteins resident in apical organelles and present on the surface of P. falciparum merozoites are considered promising candidates for the development of blood stage malaria vaccines. In the present study, we have identified and characterized a microneme associated antigen, PfMA [PlasmoDB Gene ID: PF3D7&#95;0316000, PFC0700c]. The gene was selected by applying a set of screening criteria such as transcriptional upregulation at late schizogony, inter-species conservation and the presence of signal sequence or transmembrane domains. The gene sequence of PfMA was found to be conserved amongst various Plasmodium species. We experimentally demonstrated that the transcript for PfMA was expressed only in the late blood stages of parasite consistent with a putative role in erythrocyte invasion. PfMA was localized by immunofluorescence and immuno-electron microscopy to be in the micronemes, an apical organelle of merozoites. The functional role of the PfMA protein in erythrocyte invasion was identified as a parasite adhesin involved in direct attachment with the target erythrocyte. PfMA was demonstrated to bind erythrocytes in a sialic acid independent, chymotrypsin and trypsin resistant manner and its antibodies inhibited P. falciparum erythrocyte invasion. Invasion of erythrocytes is a complex multistep process that involves a number of redundant ligand-receptor interactions many of which still remain unknown and even uncharacterized. Our work has identified and characterized a novel P. falciparum adhesin involved in erythrocyte invasion.

Published

2013

38. A genome-wide siRNA screen to identify host factors necessary for growth of the parasite Toxoplasma gondii.

Author

Moser LA, Pollard AM, and Knoll LJ

Subjects

Animals, Cell Death genetics, Cell Line, Tumor, Cells, Cultured, Fibroblasts physiology, Genome-Wide Association Study methods, HeLa Cells, Humans, Proteins genetics, Host-Parasite Interactions genetics, Parasites genetics, Parasites growth & development, RNA, Small Interfering genetics, Toxoplasma genetics, Toxoplasma growth & development

Abstract

Toxoplasma gondii is an obligate intracellular parasite that is able to infect virtually any nucleated cell of all warm-blooded animals. The host cell factors important for parasite attachment, invasion, and replication are poorly understood. We screened a siRNA library targeting 18,200 individual human genes in order to identify host proteins with a role in T. gondii growth. Our screen identified 19 genes whose inhibition by siRNA consistently and significantly lowered parasite replication. The gene ontology categories for those 19 genes represented a wide variety of functions with several genes implicated in regulation of the cell cycle, ion channels and receptors, G-protein coupled receptors, and cytoskeletal structure as well as genes involved in transcription, translation and protein degradation. Further investigation of 5 of the 19 genes demonstrated that the primary reason for the reduction in parasite growth was death of the host cell. Our results suggest that once T. gondii has invaded and established an infection, global changes in the host cell may be necessary to reduce parasite replication. While siRNA screens have been used, albeit rarely, in other parasite systems, this is the first report to describe a high-throughput siRNA screen for host proteins that affect T. gondii replication.

Published

2013

39. Identification and analysis of putative homologues of mechanosensitive channels in pathogenic protozoa.

Author

Prole DL and Taylor CW

Subjects

Amino Acid Sequence, Animals, Conserved Sequence, Ion Channels chemistry, Ion Channels metabolism, Molecular Sequence Data, Parasites classification, Parasites metabolism, Phylogeny, Protein Interaction Domains and Motifs, Protein Subunits, Protozoan Proteins chemistry, Protozoan Proteins metabolism, Sequence Alignment, Ion Channels genetics, Mechanotransduction, Cellular genetics, Parasites genetics, Protozoan Proteins genetics

Abstract

Mechanosensitive channels play important roles in the physiology of many organisms, and their dysfunction can affect cell survival. This suggests that they might be therapeutic targets in pathogenic organisms. Pathogenic protozoa lead to diseases such as malaria, dysentery, leishmaniasis and trypanosomiasis that are responsible for millions of deaths each year worldwide. We analyzed the genomes of pathogenic protozoa and show the existence within them of genes encoding putative homologues of mechanosensitive channels. Entamoeba histolytica, Leishmania spp., Trypanosoma cruzi and Trichomonas vaginalis have genes encoding homologues of Piezo channels, while most pathogenic protozoa have genes encoding homologues of mechanosensitive small-conductance (MscS) and K(+)-dependent (MscK) channels. In contrast, all parasites examined lack genes encoding mechanosensitive large-conductance (MscL), mini-conductance (MscM) and degenerin/epithelial Na(+) (DEG/ENaC) channels. Multiple sequence alignments of evolutionarily distant protozoan, amoeban, plant, insect and vertebrate Piezo channel subunits define an absolutely conserved motif that may be involved in channel conductance or gating. MscS channels are not present in humans, and the sequences of protozoan and human homologues of Piezo channels differ substantially. This suggests the possibility for specific targeting of mechanosensitive channels of pathogens by therapeutic drugs.

Published

2013

40. PACo: a novel procrustes application to cophylogenetic analysis.

Author

Balbuena JA, Míguez-Lozano R, and Blasco-Costa I

Subjects

Animals, Computer Simulation, Evolution, Molecular, Host-Parasite Interactions, Parasites genetics, Phylogeny, Software

Abstract

We present Procrustean Approach to Cophylogeny (PACo), a novel statistical tool to test for congruence between phylogenetic trees, or between phylogenetic distance matrices of associated taxa. Unlike previous tests, PACo evaluates the dependence of one phylogeny upon the other. This makes it especially appropriate to test the classical coevolutionary model that assumes that parasites that spend part of their life in or on their hosts track the phylogeny of their hosts. The new method does not require fully resolved phylogenies and allows for multiple host-parasite associations. PACo produces a Procrustes superimposition plot enabling a graphical assessment of the fit of the parasite phylogeny onto the host phylogeny and a goodness-of-fit statistic, whose significance is established by randomization of the host-parasite association data. The contribution of each individual host-parasite association to the global fit is measured by means of jackknife estimation of their respective squared residuals and confidence intervals associated to each host-parasite link. We carried out different simulations to evaluate the performance of PACo in terms of Type I and Type II errors with respect to two similar published tests. In most instances, PACo performed at least as well as the other tests and showed higher overall statistical power. In addition, the jackknife estimation of squared residuals enabled more elaborate validations about the nature of individual links than the ParaFitLink1 test of the program ParaFit. In order to demonstrate how it can be used in real biological situations, we applied PACo to two published studies using a script written in the public-domain statistical software R.

Published

2013

41. SmSak, the second Polo-like kinase of the helminth parasite Schistosoma mansoni: conserved and unexpected roles in meiosis.

Author

Long T, Vanderstraete M, Cailliau K, Morel M, Lescuyer A, Gouignard N, Grevelding CG, Browaeys E, and Dissous C

Subjects

Animals, Cell Cycle Proteins chemistry, Cell Cycle Proteins genetics, Centrioles metabolism, Cloning, Molecular, Female, Gene Expression Regulation, Enzymologic, Helminth Proteins chemistry, Helminth Proteins genetics, Life Cycle Stages, Male, Oocytes metabolism, Parasites genetics, Parasites growth & development, Protein Serine-Threonine Kinases chemistry, Protein Serine-Threonine Kinases genetics, Protein Structure, Tertiary, Proto-Oncogene Proteins chemistry, Proto-Oncogene Proteins genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Schistosoma mansoni genetics, Schistosoma mansoni growth & development, Xenopus, Polo-Like Kinase 1, Cell Cycle Proteins metabolism, Helminth Proteins metabolism, Meiosis, Parasites cytology, Parasites enzymology, Protein Serine-Threonine Kinases metabolism, Proto-Oncogene Proteins metabolism, Schistosoma mansoni cytology, Schistosoma mansoni enzymology

Abstract

Polo-like kinases (Plks) are a family of conserved regulators of a variety of events throughout the cell cycle, expanded from one Plk in yeast to five Plks in mammals (Plk1-5). Plk1 is the best characterized member of the Plk family, homolog to the founding member Polo of Drosophila, and plays a major role in cell cycle progression by triggering G2/M transition. Plk4/Sak (for Snk (Serum-inducible kinase) akin kinase) is a unique member of the family, structurally distinct from other Plk members, with essential functions in centriole duplication. The genome of the trematode parasite Schistosoma mansoni contains only two Plk genes encoding SmPlk1 and SmSak. SmPlk1 has been shown already to be required for gametogenesis and parasite reproduction. In this work, in situ hybridization indicated that the structurally conserved Plk4 protein, SmSak, was largely expressed in schistosome female ovary and vitellarium. Expression of SmSak in Xenopus oocytes confirmed its Plk4 conserved function in centriole amplification. Moreover, analysis of the function of SmSak in meiosis progression of G2-blocked Xenopus oocytes indicated that, in contrast to SmPlk1, SmSak cannot induce G2/M transition in the absence of endogenous Plk1 (Plx1). Unexpectedly, meiosis progression was spontaneously observed in Plx1-depleted oocytes co-expressing SmSak and SmPlk1. Molecular interaction between SmSak and SmPlk1 was confirmed by co-immunoprecipitation of both proteins. These data indicate that Plk1 and Plk4 proteins have the potential to interact and cross-activate in cells, thus attributing for the first time a potential role of Plk4 proteins in meiosis/mitosis entry. This unexpected role of SmSak in meiosis could be relevant to further consider the function of this novel Plk in schistosome reproduction.

Published

2012

42. Defining the antigenic diversity of Plasmodium falciparum apical membrane antigen 1 and the requirements for a multi-allele vaccine against malaria.

Author

Drew DR, Hodder AN, Wilson DW, Foley M, Mueller I, Siba PM, Dent AE, Cowman AF, and Beeson JG

Subjects

Animals, Animals, Genetically Modified, Antibodies, Protozoan immunology, Base Sequence, Cross Reactions immunology, Humans, Malaria parasitology, Malaria Vaccines genetics, Parasites genetics, Parasites growth & development, Parasites immunology, Parasites isolation & purification, Phylogeny, Plasmodium falciparum genetics, Plasmodium falciparum growth & development, Plasmodium falciparum isolation & purification, Polymorphism, Genetic, Alleles, Antigenic Variation immunology, Antigens, Protozoan immunology, Malaria immunology, Malaria prevention & control, Malaria Vaccines immunology, Membrane Proteins immunology, Plasmodium falciparum immunology, Protozoan Proteins immunology

Abstract

Apical Membrane Antigen 1 (AMA1) is a leading malaria vaccine candidate and a target of naturally-acquired human immunity. Plasmodium falciparum AMA1 is polymorphic and in vaccine trials it induces strain-specific protection. This antigenic diversity is a major roadblock to development of AMA1 as a malaria vaccine and understanding how to overcome it is essential. To assess how AMA1 antigenic diversity limits cross-strain growth inhibition, we assembled a panel of 18 different P. falciparum isolates which are broadly representative of global AMA1 sequence diversity. Antibodies raised against four well studied AMA1 alleles (W2Mef, 3D7, HB3 and FVO) were tested for growth inhibition of the 18 different P. falciparum isolates in growth inhibition assays (GIA). All antibodies demonstrated substantial cross-inhibitory activity against different isolates and a mixture of the four different AMA1 antibodies inhibited all 18 isolates tested, suggesting significant antigenic overlap between AMA1 alleles and limited antigenic diversity of AMA1. Cross-strain inhibition by antibodies was only moderately and inconsistently correlated with the level of sequence diversity between AMA1 alleles, suggesting that sequence differences are not a strong predictor of antigenic differences or the cross-inhibitory activity of anti-allele antibodies. The importance of the highly polymorphic C1-L region for inhibitory antibodies and potential vaccine escape was assessed by generating novel transgenic P. falciparum lines for testing in GIA. While the polymorphic C1-L epitope was identified as a significant target of some growth-inhibitory antibodies, these antibodies only constituted a minor proportion of the total inhibitory antibody repertoire, suggesting that the antigenic diversity of inhibitory epitopes is limited. Our findings support the concept that a multi-allele AMA1 vaccine would give broad coverage against the diversity of AMA1 alleles and establish new tools to define polymorphisms important for vaccine escape.

Published

2012

43. A case study for effects of operational taxonomic units from intracellular endoparasites and ciliates on the eukaryotic phylogeny: phylogenetic position of the haptophyta in analyses of multiple slowly evolving genes.

Author

Nozaki H, Yang Y, Maruyama S, and Suzaki T

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cell Nucleus genetics, Ciliophora genetics, Genes, Protozoan, Parasites genetics, RNA, Ribosomal genetics, Ciliophora classification, Evolution, Molecular, Haptophyta classification, Haptophyta genetics, Intracellular Space parasitology, Parasites classification, Phylogeny

Abstract

Recent multigene phylogenetic analyses have contributed much to our understanding of eukaryotic phylogeny. However, the phylogenetic positions of various lineages within the eukaryotes have remained unresolved or in conflict between different phylogenetic studies. These phylogenetic ambiguities might have resulted from mixtures or integration from various factors including limited taxon sampling, missing data in the alignment, saturations of rapidly evolving genes, mixed analyses of short- and long-branched operational taxonomic units (OTUs), intracellular endoparasite and ciliate OTUs with unusual substitution etc. In order to evaluate the effects from intracellular endoparasite and ciliate OTUs co-analyzed on the eukaryotic phylogeny and simplify the results, we here used two different sets of data matrices of multiple slowly evolving genes with small amounts of missing data and examined the phylogenetic position of the secondary photosynthetic chromalveolates Haptophyta, one of the most abundant groups of oceanic phytoplankton and significant primary producers. In both sets, a robust sister relationship between Haptophyta and SAR (stramenopiles, alveolates, rhizarians, or SA [stramenopiles and alveolates]) was resolved when intracellular endoparasite/ciliate OTUs were excluded, but not in their presence. Based on comparisons of character optimizations on a fixed tree (with a clade composed of haptophytes and SAR or SA), disruption of the monophyly between haptophytes and SAR (or SA) in the presence of intracellular endoparasite/ciliate OTUs can be considered to be a result of multiple evolutionary reversals of character positions that supported the synapomorphy of the haptophyte and SAR (or SA) clade in the absence of intracellular endoparasite/ciliate OTUs.

Published

2012

44. A new single-step PCR assay for the detection of the zoonotic malaria parasite Plasmodium knowlesi.

Author

Lucchi NW, Poorak M, Oberstaller J, DeBarry J, Srinivasamoorthy G, Goldman I, Xayavong M, da Silva AJ, Peterson DS, Barnwell JW, Kissinger J, and Udhayakumar V

Subjects

Animals, Base Sequence, Cross Reactions immunology, DNA Primers metabolism, Genome, Protozoan genetics, Haplorhini parasitology, Humans, Limit of Detection, Parasites isolation & purification, Plasmodium vivax genetics, RNA, Ribosomal, 18S genetics, Sensitivity and Specificity, Species Specificity, Biological Assay methods, Malaria parasitology, Parasites genetics, Plasmodium knowlesi genetics, Plasmodium knowlesi isolation & purification, Polymerase Chain Reaction methods, Zoonoses parasitology

Abstract

Background: Recent studies in Southeast Asia have demonstrated substantial zoonotic transmission of Plasmodium knowlesi to humans. Microscopically, P. knowlesi exhibits several stage-dependent morphological similarities to P. malariae and P. falciparum. These similarities often lead to misdiagnosis of P. knowlesi as either P. malariae or P. falciparum and PCR-based molecular diagnostic tests are required to accurately detect P. knowlesi in humans. The most commonly used PCR test has been found to give false positive results, especially with a proportion of P. vivax isolates. To address the need for more sensitive and specific diagnostic tests for the accurate diagnosis of P. knowlesi, we report development of a new single-step PCR assay that uses novel genomic targets to accurately detect this infection., Methodology and Significant Findings: We have developed a bioinformatics approach to search the available malaria parasite genome database for the identification of suitable DNA sequences relevant for molecular diagnostic tests. Using this approach, we have identified multi-copy DNA sequences distributed in the P. knowlesi genome. We designed and tested several novel primers specific to new target sequences in a single-tube, non-nested PCR assay and identified one set of primers that accurately detects P. knowlesi. We show that this primer set has 100% specificity for the detection of P. knowlesi using three different strains (Nuri, H, and Hackeri), and one human case of malaria caused by P. knowlesi. This test did not show cross reactivity with any of the four human malaria parasite species including 11 different strains of P. vivax as well as 5 additional species of simian malaria parasites., Conclusions: The new PCR assay based on novel P. knowlesi genomic sequence targets was able to accurately detect P. knowlesi. Additional laboratory and field-based testing of this assay will be necessary to further validate its utility for clinical diagnosis of P. knowlesi.

Published

2012

45. Comparative analysis of the 5S rRNA and its associated proteins reveals unique primitive rather than parasitic features in Giardia lamblia.

Author

Feng JM, Sun J, Xin DD, and Wen JF

Subjects

Animals, Archaea genetics, Base Sequence, Eukaryota genetics, Gene Expression, Genome, Protozoan genetics, Giardia lamblia classification, Molecular Sequence Data, Naegleria genetics, Parasites classification, Parasites genetics, RNA Polymerase III genetics, Reverse Transcriptase Polymerase Chain Reaction, Sequence Homology, Nucleic Acid, Species Specificity, TATA Box genetics, Transcription Factor TFIIIA genetics, Transcription Factor TFIIIB genetics, Trichomonas vaginalis genetics, Trypanosoma cruzi genetics, Giardia lamblia genetics, Protozoan Proteins genetics, RNA, Protozoan genetics, RNA, Ribosomal, 5S genetics

Abstract

Background: 5S rRNA is a highly conserved ribosomal component. Eukaryotic 5S rRNA and its associated proteins (5S rRNA system) have become very well understood. Giardia lamblia was thought by some researchers to be the most primitive extant eukaryote while others considered it a highly evolved parasite. Previous reports have indicated that some aspects of its 5S rRNA system are simpler than that of common eukaryotes. We here explore whether this is true to its entire system, and whether this simplicity is a primitive or parasitic feature., Methodology/principal Findings: By collecting and confirming pre-existing data and identifying new data, we obtained almost complete datasets of the system of three isolates of G. lamblia, two other parasitic excavates (Trichomonas vaginalis, Trypanosoma cruzi), and one free-living one (Naegleria gruberi). After comprehensively comparing each aspect of the system among these excavates and also with those of archaea and common eukaryotes, we found all the three Giardia isolates to harbor a same simplified 5S rRNA system, which is not only much simpler than that of common eukaryotes but also the simplest one among those of these excavates, and is surprisingly very similar to that of archaea; we also found among these excavates the system in parasitic species is not necessarily simpler than that in free-living species, conversely, the system of free-living species is even simpler in some respects than those of parasitic ones., Conclusion/significance: The simplicity of Giardia 5S rRNA system should be considered a primitive rather than parasitically-degenerated feature. Therefore, Giardia 5S rRNA system might be a primitive system that is intermediate between that of archaea and the common eukaryotic model system, and it may reflect the evolutionary history of the eukaryotic 5S rRNA system from the archaeal form. Our results also imply G. lamblia might be a primitive eukaryote with secondary parasitically-degenerated features.

Published

2012

46. RNAi-mediated silencing of paramyosin expression in Trichinella spiralis results in impaired viability of the parasite.

Author

Chen X, Yang Y, Yang J, Zhang Z, and Zhu X

Subjects

Animals, Gene Expression Regulation, Gene Silencing, Mice, Muscles metabolism, Muscles parasitology, RNA, Messenger genetics, RNA, Messenger metabolism, Parasites genetics, Parasites growth & development, Parasites immunology, RNA Interference, Trichinella spiralis genetics, Trichinella spiralis growth & development, Trichinella spiralis pathogenicity, Tropomyosin genetics, Tropomyosin metabolism

Abstract

Background: Trichinella spiralis expresses paramyosin (Ts-PMY) not only as a structural protein but also as an immunomodulatory protein to protect the worm from being attacked by host complement components. In this study, the functions of PMY in the viability and the growth development of T. spiralis were confirmed at the first time by silencing the gene function with RNA interference technique., Methods and Findings: To understand its functions in the viability of the worm, we used RNA interference to silence the expression of Ts-pmy mRNA and protein in the parasite. Significant silencing of Ts-pmy mRNA expression in larval and adult T. spiralis was achieved by siRNA and dsRNA through soaking and electroporation. Electroporation of T. spiralis larvae with 8 µM siRNA1743 or 100 ng/µl dsRNA-PF3 resulted in 66.3% and 60.4% decrease in Ts-pmy transcript and 52.0% and 64.7% decrease in Ts-PMY protein expression, respectively, compared with larvae treated with irrelevant control siRNA or dsRNA. Larvae treated with siRNA1743 displayed significant reduction in molting (40.8%) and serious surface damage as detected with SYTOX fluorescent staining. Infection of mice with larvae electroporated with Ts-pmy siRNA1743 resulted in 37.6% decrease in adult worm burden and 23.2% decrease in muscle larvae burden compared with mice infected with control siRNA-treated larvae. In addition, adult worms recovered from mice infected with siRNA-treated larvae released 24.8% less newborn larvae., Conclusion: It is the first time RNAi was used on T. spiralis to demonstrate that silencing PMY expression in T. spiralis significantly reduces the parasite's viability and infectivity, further confirming that Ts-PMY plays an important role in the survival of T. spiralis and therefore is a promising target for vaccine development.

Published

2012

47. Lack of evidence from studies of soluble protein fragments that Knops blood group polymorphisms in complement receptor-type 1 are driven by malaria.

Author

Tetteh-Quarcoo PB, Schmidt CQ, Tham WH, Hauhart R, Mertens HD, Rowe A, Atkinson JP, Cowman AF, Rowe JA, and Barlow PN

Subjects

Alleles, Animals, Complement C3b genetics, Complement C3b metabolism, Complement C4b genetics, Complement C4b metabolism, Erythrocytes metabolism, Humans, Malaria blood, Parasites genetics, Parasites metabolism, Pichia genetics, Pichia metabolism, Plasmodium falciparum genetics, Plasmodium falciparum metabolism, Polymorphism, Genetic, Blood Group Antigens genetics, Blood Group Antigens metabolism, Malaria genetics, Malaria metabolism, Receptors, Complement genetics, Receptors, Complement metabolism

Abstract

Complement receptor-type 1 (CR1, CD35) is the immune-adherence receptor, a complement regulator, and an erythroid receptor for Plasmodium falciparum during merozoite invasion and subsequent rosette formation involving parasitized and non-infected erythrocytes. The non-uniform geographical distribution of Knops blood group CR1 alleles Sl1/2 and McC(a/b) may result from selective pressures exerted by differential exposure to infectious hazards. Here, four variant short recombinant versions of CR1 were produced and analyzed, focusing on complement control protein modules (CCPs) 15-25 of its ectodomain. These eleven modules encompass a region (CCPs 15-17) key to rosetting, opsonin recognition and complement regulation, as well as the Knops blood group polymorphisms in CCPs 24-25. All four CR1 15-25 variants were monomeric and had similar axial ratios. Modules 21 and 22, despite their double-length inter-modular linker, did not lie side-by-side so as to stabilize a bent-back architecture that would facilitate cooperation between key functional modules and Knops blood group antigens. Indeed, the four CR1 15-25 variants had virtually indistinguishable affinities for immobilized complement fragments C3b (K(D) = 0.8-1.1 µM) and C4b (K(D) = 5.0-5.3 µM). They were all equally good co-factors for factor I-catalysed cleavage of C3b and C4b, and they bound equally within a narrow affinity range, to immobilized C1q. No differences between the variants were observed in assays for inhibition of erythrocyte invasion by P. falciparum or for rosette disruption. Neither differences in complement-regulatory functionality, nor interactions with P. falciparum proteins tested here, appear to have driven the non-uniform geographic distribution of these alleles.

Published

2012

48. Host longevity and parasite species richness in mammals.

Author

Cooper N, Kamilar JM, and Nunn CL

Subjects

Analysis of Variance, Animals, Least-Squares Analysis, Leukocyte Count, Mammals blood, Parasites genetics, Phylogeny, Species Specificity, Biodiversity, Host-Parasite Interactions physiology, Longevity physiology, Mammals parasitology, Mammals physiology, Parasites physiology

Abstract

Hosts and parasites co-evolve, with each lineage exerting selective pressures on the other. Thus, parasites may influence host life-history characteristics, such as longevity, and simultaneously host life-history may influence parasite diversity. If parasite burden causes increased mortality, we expect a negative association between host longevity and parasite species richness. Alternatively, if long-lived species represent a more stable environment for parasite establishment, host longevity and parasite species richness may show a positive association. We tested these two opposing predictions in carnivores, primates and terrestrial ungulates using phylogenetic comparative methods and controlling for the potentially confounding effects of sampling effort and body mass. We also tested whether increased host longevity is associated with increased immunity, using white blood cell counts as a proxy for immune investment. Our analyses revealed weak relationships between parasite species richness and longevity. We found a significant negative relationship between longevity and parasite species richness for ungulates, but no significant associations in carnivores or primates. We also found no evidence for a relationship between immune investment and host longevity in any of our three groups. Our results suggest that greater parasite burden is linked to higher host mortality in ungulates. Thus, shorter-lived ungulates may be more vulnerable to disease outbreaks, which has implications for ungulate conservation, and may be applicable to other short-lived mammals.

Published

2012

49. Transcriptomic and proteomic analyses of a Wolbachia-free filarial parasite provide evidence of trans-kingdom horizontal gene transfer.

Author

McNulty SN, Abubucker S, Simon GM, Mitreva M, McNulty NP, Fischer K, Curtis KC, Brattig NW, Weil GJ, and Fischer PU

Subjects

Animals, Brugia malayi, Conserved Sequence, Gene Expression Regulation, Genome, Gerbillinae, Immunohistochemistry methods, Mass Spectrometry methods, Parasites genetics, Protein Structure, Tertiary, Symbiosis genetics, Transcriptome, Gene Transfer, Horizontal, Onchocerca microbiology, Proteomics methods, Transcription, Genetic, Wolbachia genetics

Abstract

Most filarial parasites in the subfamilies Onchocercinae and Dirofilariinae depend on Wolbachia endobacteria to successfully carry out their life cycle. Recently published data indicate that the few Wolbachia-free species in these subfamilies were infected in the distant past and have subsequently shed their endosymbionts. We used an integrated transcriptomic and proteomic analysis of Onchocerca flexuosa to explore the molecular mechanisms that allow worms of this species to survive without a bacterial partner. Roche/454 sequencing of the adult transcriptome produced 16,814 isogroup and 47,252 singleton sequences that are estimated to represent approximately 41% of the complete gene set. Sequences similar to 97 Wolbachia genes were identified from the transcriptome, some of which appear on the same transcripts as sequences similar to nematode genes. Computationally predicted peptides, including those with similarity to Wolbachia proteins, were classified at the domain and pathway levels in order to assess the metabolic capabilities of O. flexuosa and compare against the Wolbachia-dependent model filaria, Brugia malayi. Transcript data further facilitated a shotgun proteomic analysis of O. flexuosa adult worm lysate, resulting in the identification of 1,803 proteins. Three of the peptides detected by mass spectroscopy map to two ABC transport-related proteins from Wolbachia. Antibodies raised to one of the Wolbachia-like peptides labeled a single 38 kDa band on Western blots of O. flexuosa lysate and stained specific worm tissues by immunohistology. Future studies will be required to determine the exact functions of Wolbachia-like peptides and proteins in O. flexuosa and to assess their roles in worm biology.

Published

2012

50. The integrative taxonomic approach reveals host specific species in an encyrtid parasitoid species complex.

Author

Chesters D, Wang Y, Yu F, Bai M, Zhang TX, Hu HY, Zhu CD, Li CD, and Zhang YZ

Subjects

Animals, Base Sequence, DNA Barcoding, Taxonomic, Female, Genetic Loci genetics, Haplotypes, Male, Molecular Sequence Data, Parasites genetics, Phylogeny, Sexual Behavior, Animal, Wasps genetics, Classification methods, Host Specificity, Parasites classification, Wasps classification

Abstract

Integrated taxonomy uses evidence from a number of different character types to delimit species and other natural groupings. While this approach has been advocated recently, and should be of particular utility in the case of diminutive insect parasitoids, there are relatively few examples of its application in these taxa. Here, we use an integrated framework to delimit independent lineages in Encyrtus sasakii (Hymenoptera: Chalcidoidea: Encyrtidae), a parasitoid morphospecies previously considered a host generalist. Sequence variation at the DNA barcode (cytochrome c oxidase I, COI) and nuclear 28S rDNA loci were compared to morphometric recordings and mating compatibility tests, among samples of this species complex collected from its four scale insect hosts, covering a broad geographic range of northern and central China. Our results reveal that Encyrtus sasakii comprises three lineages that, while sharing a similar morphology, are highly divergent at the molecular level. At the barcode locus, the median K2P molecular distance between individuals from three primary populations was found to be 11.3%, well outside the divergence usually observed between Chalcidoidea conspecifics (0.5%). Corroborative evidence that the genetic lineages represent independent species was found from mating tests, where compatibility was observed only within populations, and morphometric analysis, which found that despite apparent morphological homogeneity, populations clustered according to forewing shape. The independent lineages defined by the integrated analysis correspond to the three scale insect hosts, suggesting the presence of host specific cryptic species. The finding of hidden host specificity in this species complex demonstrates the critical role that DNA barcoding will increasingly play in revealing hidden biodiversity in taxa that present difficulties for traditional taxonomic approaches.

Published

2012