Veterinary Biosciences - Research Publications

Permanent URI for this collection

http://hdl.handle.net/11343/194095

Filters
Reset filters

Settings
Statistics
Citations
Author: Gasser, Robin × Author: Hall, Ross × End date: 2024 × Type: Journal Article ×

Search Results

Now showing 1 - 10 of 43
  • Item
    Thumbnail Image
    Phylogenetic Relationships of the Strongyloid Nematodes of Australasian Marsupials Based on Mitochondrial Protein Sequences
    Sukee, T ; Beveridge, I ; Koehler, AV ; Hall, RS ; Gasser, RB ; Jabbar, A (MDPI, 2022-11)
    Australasian marsupials harbour a diverse group of gastrointestinal strongyloid nematodes. These nematodes are currently grouped into two subfamilies, namely the Cloacininae and Phascolostrongylinae. Based on morphological criteria, the Cloacininae and Phascolostrongylinae were defined as monophyletic and placed in the family Cloacinidae, but this has not been supported by molecular data and they are currently placed in the Chabertiidae. Although molecular data (internal transcribed spacers of the nuclear ribosomal RNA genes or mitochondrial protein-coding genes) have been used to verify morphological classifications within the Cloacininae and Phascolostrongylinae, the phylogenetic relationships between the subfamilies have not been rigorously tested. This study determined the phylogenetic relationships of the subfamilies Cloacininae and Phascolostrongylinae using amino acid sequences conceptually translated from the twelve concatenated mitochondrial protein-coding genes. The findings demonstrated that the Cloacininae and Phascolostrongylinae formed a well-supported monophyletic assemblage, consistent with their morphological classification as an independent family, Cloacinidae. Unexpectedly, however, the subfamily Phascolostrongylinae was split into two groups comprising the genera from macropodid hosts (kangaroos and wallabies) and those from vombatid hosts (wombats). Genera of the Cloacininae and Phascolostrongylinae occurring in macropodid hosts were more closely related compared to genera of the Phascolostrongylinae occurring in wombats that formed a sister relationship with the remaining genera from macropods. These findings provide molecular evidence supporting the monophyly of the family Cloacinidae and an alternative hypothesis for the origin of marsupial strongyloid nematodes in vombatid hosts that requires further exploration using molecular approaches and additional samples.
  • Item
    Thumbnail Image
    Bulinus truncatus transcriptome - a resource to enable molecular studies of snail and schistosome biology
    Stroehlein, AJ ; Korhonen, PK ; Rollinson, D ; Stothard, JR ; Hall, RS ; Gasser, RB ; Young, ND (ELSEVIER, 2021)
    Despite advances in high-throughput sequencing and bioinformatics, molecular investigations of snail intermediate hosts that transmit parasitic trematodes are scant. Here, we report the first transcriptome for Bulinus truncatus - a key intermediate host of Schistosoma haematobium - a blood fluke that causes urogenital schistosomiasis in humans. We assembled this transcriptome from short- and long-read RNA-sequence data. From this transcriptome, we predicted 12,998 proteins, 58% of which had orthologs in Biomphalaria glabrata - an intermediate host of Schistosoma mansoni - a blood fluke that causes hepato-intestinal schistosomiasis. We predicted that select protein groups are involved in signal transduction, cell growth and death, the immune system, environmental adaptation and/or the excretory/secretory system, suggesting roles in immune responses, pathogen defence and/or parasite-host interactions. The transcriptome of Bu. truncatus provides a useful resource to underpin future molecular investigations of this and related snail species, and its interactions with pathogens including S. haematobium. The present resource should enable comparative investigations of other molluscan hosts of socioeconomically important parasites in the future.
  • Item
    Thumbnail Image
    Phylogenetic relationships of the nematode subfamily Phascolostrongylinae from macropodid and vombatid marsupials inferred using mitochondrial protein sequence data
    Sukee, T ; Beveridge, I ; Koehler, A ; Hall, R ; Gasser, RB ; Jabbar, A (BMC, 2021-10-09)
    BACKGROUND: The subfamily Phascolostrongylinae (Superfamily Strongyloidea) comprises nematodes that are parasitic in the gastrointestinal tracts of macropodid (Family Macropodidae) and vombatid (Family Vombatidae) marsupials. Currently, nine genera and 20 species have been attributed to the subfamily Phascolostrongylinae. Previous studies using sequence data sets for the internal transcribed spacers (ITS) of nuclear ribosomal DNA showed conflicting topologies between the Phascolostrongylinae and related subfamilies. Therefore, the aim of this study was to validate the phylogenetic relationships within the Phascolostrongylinae and its relationship with the families Chabertiidae and Strongylidae using mitochondrial amino acid sequences. METHODS: The sequences of all 12 mitochondrial protein-coding genes were obtained by next-generation sequencing of individual adult nematodes (n = 8) representing members of the Phascolostrongylinae. These sequences were conceptually translated and the phylogenetic relationships within the Phascolostrongylinae and its relationship with the families Chabertiidae and Strongylidae were inferred from aligned, concatenated amino acid sequence data sets. RESULTS: Within the Phascolostrongylinae, the wombat-specific genera grouped separately from the genera occurring in macropods. Two of the phascolostrongyline tribes were monophyletic, including Phascolostrongylinea and Hypodontinea, whereas the tribe Macropostrongyloidinea was paraphyletic. The tribe Phascolostrongylinea occurring in wombats was closely related to Oesophagostomum spp., also from the family Chabertiidae, which formed a sister relationship with the Phascolostrongylinae. CONCLUSION: The current phylogenetic relationship within the subfamily Phascolostrongylinae supports findings from a previous study based on ITS sequence data. This study contributes also to the understanding of the phylogenetic position of the subfamily Phascolostrongylinae within the Chabertiidae. Future studies investigating the relationships between the Phascolostrongylinae and Cloacininae from macropodid marsupials may advance our knowledge of the phylogeny of strongyloid nematodes in marsupials.
  • Item
    Thumbnail Image
    High-Throughput Phenotypic Assay to Screen for Anthelmintic Activity on Haemonchus contortus
    Taki, AC ; Byrne, JJ ; Wang, T ; Sleebs, BE ; Nguyen, N ; Hall, RS ; Korhonen, PK ; Chang, BCH ; Jackson, P ; Jabbar, A ; Gasser, RB (MDPI, 2021-07)
    Parasitic worms cause very significant diseases in animals and humans worldwide, and their control is critical to enhance health, well-being and productivity. Due to widespread drug resistance in many parasitic worms of animals globally, there is a major, continuing demand for the discovery and development of anthelmintic drugs for use to control these worms. Here, we established a practical, cost-effective and semi-automated high throughput screening (HTS) assay, which relies on the measurement of motility of larvae of the barber's pole worm (Haemonchus contortus) using infrared light-interference. Using this assay, we screened 80,500 small molecules and achieved a hit rate of 0.05%. We identified three small molecules that reproducibly inhibited larval motility and/or development (IC50 values of ~4 to 41 µM). Future work will critically assess the potential of selected hits as candidates for subsequent optimisation or repurposing against parasitic nematodes. This HTS assay has a major advantage over most previous assays in that it achieves a ≥ 10-times higher throughput (i.e., 10,000 compounds per week), and is thus suited to the screening of libraries of tens of thousands to hundreds of thousands of compounds for subsequent hit-to-lead optimisation or effective repurposing and development. The current assay should be adaptable to many socioeconomically important parasitic nematodes, including those that cause neglected tropical diseases (NTDs). This aspect is of relevance, given the goals of the World Health Organization (WHO) Roadmap for NTDs 2021-2030, to develop more effective drugs and drug combinations to improve patient outcomes and circumvent the ineffectiveness of some current anthelmintic drugs and possible drug resistance.
  • Item
    Thumbnail Image
    A communal catalogue reveals Earth's multiscale microbial diversity
    Thompson, LR ; Sanders, JG ; McDonald, D ; Amir, A ; Ladau, J ; Locey, KJ ; Prill, RJ ; Tripathi, A ; Gibbons, SM ; Ackermann, G ; Navas-Molina, JA ; Janssen, S ; Kopylova, E ; Vazquez-Baeza, Y ; Gonzalez, A ; Morton, JT ; Mirarab, S ; Xu, ZZ ; Jiang, L ; Haroon, MF ; Kanbar, J ; Zhu, Q ; Song, SJ ; Kosciolek, T ; Bokulich, NA ; Lefler, J ; Brislawn, CJ ; Humphrey, G ; Owens, SM ; Hampton-Marcell, J ; Berg-Lyons, D ; McKenzie, V ; Fierer, N ; Fuhrman, JA ; Clauset, A ; Stevens, RL ; Shade, A ; Pollard, KS ; Goodwin, KD ; Jansson, JK ; Gilbert, JA ; Knight, R ; Rivera, JLA ; Al-Moosawi, L ; Alverdy, J ; Amato, KR ; Andras, J ; Angenent, LT ; Antonopoulos, DA ; Apprill, A ; Armitage, D ; Ballantine, K ; Barta, J ; Baum, JK ; Berry, A ; Bhatnagar, A ; Bhatnagar, M ; Biddle, JF ; Bittner, L ; Boldgiv, B ; Bottos, E ; Boyer, DM ; Braun, J ; Brazelton, W ; Brearley, FQ ; Campbell, AH ; Caporaso, JG ; Cardona, C ; Carroll, J ; Cary, SC ; Casper, BB ; Charles, TC ; Chu, H ; Claar, DC ; Clark, RG ; Clayton, JB ; Clemente, JC ; Cochran, A ; Coleman, ML ; Collins, G ; Colwell, RR ; Contreras, M ; Crary, BB ; Creer, S ; Cristol, DA ; Crump, BC ; Cui, D ; Daly, SE ; Davalos, L ; Dawson, RD ; Defazio, J ; Delsuc, F ; Dionisi, HM ; Dominguez-Bello, MG ; Dowell, R ; Dubinsky, EA ; Dunn, PO ; Ercolini, D ; Espinoza, RE ; Ezenwa, V ; Fenner, N ; Findlay, HS ; Fleming, ID ; Fogliano, V ; Forsman, A ; Freeman, C ; Friedman, ES ; Galindo, G ; Garcia, L ; Alexandra Garcia-Amado, M ; Garshelis, D ; Gasser, RB ; Gerdts, G ; Gibson, MK ; Gifford, I ; Gill, RT ; Giray, T ; Gittel, A ; Golyshin, P ; Gong, D ; Grossart, H-P ; Guyton, K ; Haig, S-J ; Hale, V ; Hall, RS ; Hallam, SJ ; Handley, KM ; Hasan, NA ; Haydon, SR ; Hickman, JE ; Hidalgo, G ; Hofmockel, KS ; Hooker, J ; Hulth, S ; Hultman, J ; Hyde, E ; Ibanez-Alamo, JD ; Jastrow, JD ; Jex, AR ; Johnson, LS ; Johnston, ER ; Joseph, S ; Jurburg, SD ; Jurelevicius, D ; Karlsson, A ; Karlsson, R ; Kauppinen, S ; Kellogg, CTE ; Kennedy, SJ ; Kerkhof, LJ ; King, GM ; Kling, GW ; Koehler, AV ; Krezalek, M ; Kueneman, J ; Lamendella, R ; Landon, EM ; Lane-deGraaf, K ; LaRoche, J ; Larsen, P ; Laverock, B ; Lax, S ; Lentino, M ; Levin, II ; Liancourt, P ; Liang, W ; Linz, AM ; Lipson, DA ; Liu, Y ; Lladser, ME ; Lozada, M ; Spirito, CM ; MacCormack, WP ; MacRae-Crerar, A ; Magris, M ; Martin-Platero, AM ; Martin-Vivaldi, M ; Margarita Martinez, L ; Martinez-Bueno, M ; Marzinelli, EM ; Mason, OU ; Mayer, GD ; McDevitt-Irwin, JM ; McDonald, JE ; McGuire, KL ; McMahon, KD ; McMinds, R ; Medina, M ; Mendelson, JR ; Metcalf, JL ; Meyer, F ; Michelangeli, F ; Miller, K ; Mills, DA ; Minich, J ; Mocali, S ; Moitinho-Silva, L ; Moore, A ; Morgan-Kiss, RM ; Munroe, P ; Myrold, D ; Neufeld, JD ; Ni, Y ; Nicol, GW ; Nielsen, S ; Nissimov, JI ; Niu, K ; Nolan, MJ ; Noyce, K ; O'Brien, SL ; Okamoto, N ; Orlando, L ; Castellano, YO ; Osuolale, O ; Oswald, W ; Parnell, J ; Peralta-Sanchez, JM ; Petraitis, P ; Pfister, C ; Pilon-Smits, E ; Piombino, P ; Pointing, SB ; Pollock, FJ ; Potter, C ; Prithiviraj, B ; Quince, C ; Rani, A ; Ranjan, R ; Rao, S ; Rees, AP ; Richardson, M ; Riebesell, U ; Robinson, C ; Rockne, KJ ; Rodriguezl, SM ; Rohwer, F ; Roundstone, W ; Safran, RJ ; Sangwan, N ; Sanz, V ; Schrenk, M ; Schrenzel, MD ; Scott, NM ; Seger, RL ; Seguin-Orlando, A ; Seldin, L ; Seyler, LM ; Shakhsheer, B ; Sheets, GM ; Shen, C ; Shi, Y ; Shin, H ; Shogan, BD ; Shutler, D ; Siegel, J ; Simmons, S ; Sjoling, S ; Smith, DP ; Soler, JJ ; Sperling, M ; Steinberg, PD ; Stephens, B ; Stevens, MA ; Taghavi, S ; Tai, V ; Tait, K ; Tan, CL ; Tas, N ; Taylor, DL ; Thomas, T ; Timling, I ; Turner, BL ; Urich, T ; Ursell, LK ; van der Lelie, D ; Van Treuren, W ; van Zwieten, L ; Vargas-Robles, D ; Thurber, RV ; Vitaglione, P ; Walker, DA ; Walters, WA ; Wang, S ; Wang, T ; Weaver, T ; Webster, NS ; Wehrle, B ; Weisenhorn, P ; Weiss, S ; Werner, JJ ; West, K ; Whitehead, A ; Whitehead, SR ; Whittingham, LA ; Willerslev, E ; Williams, AE ; Wood, SA ; Woodhams, DC ; Yang, Y ; Zaneveld, J ; Zarraonaindia, I ; Zhang, Q ; Zhao, H (NATURE PORTFOLIO, 2017-11-23)
    Our growing awareness of the microbial world's importance and diversity contrasts starkly with our limited understanding of its fundamental structure. Despite recent advances in DNA sequencing, a lack of standardized protocols and common analytical frameworks impedes comparisons among studies, hindering the development of global inferences about microbial life on Earth. Here we present a meta-analysis of microbial community samples collected by hundreds of researchers for the Earth Microbiome Project. Coordinated protocols and new analytical methods, particularly the use of exact sequences instead of clustered operational taxonomic units, enable bacterial and archaeal ribosomal RNA gene sequences to be followed across multiple studies and allow us to explore patterns of diversity at an unprecedented scale. The result is both a reference database giving global context to DNA sequence data and a framework for incorporating data from future studies, fostering increasingly complete characterization of Earth's microbial diversity.
  • Item
    Thumbnail Image
    Major SCP/TAPS protein expansion in Lucilia cuprina is associated with novel tandem array organisation and domain architecture
    Prawer, YDJ ; Stroehlein, AJ ; Young, ND ; Kapoor, S ; Hall, RS ; Ghazali, R ; Batterham, P ; Gasser, RB ; Perry, T ; Anstead, CA (BMC, 2020-11-27)
    Background Larvae of the Australian sheep blowfly, Lucilia cuprina, parasitise sheep by feeding on skin excretions, dermal tissue and blood, causing severe damage known as flystrike or myiasis. Recent advances in -omic technologies and bioinformatic data analyses have led to a greater understanding of blowfly biology and should allow the identification of protein families involved in host-parasite interactions and disease. Current literature suggests that proteins of the SCP (Sperm-Coating Protein)/TAPS (Tpx-1/Ag5/PR-1/Sc7) (SCP/TAPS) superfamily play key roles in immune modulation, cross-talk between parasite and host as well as developmental and reproductive processes in parasites. Methods Here, we employed a bioinformatics workflow to curate the SCP/TAPS protein gene family in L. cuprina. Protein sequence, the presence and number of conserved CAP-domains and phylogeny were used to group identified SCP/TAPS proteins; these were compared to those found in Drosophila melanogaster to make functional predictions. In addition, transcription levels of SCP/TAPS protein-encoding genes were explored in different developmental stages. Results A total of 27 genes were identified as belonging to the SCP/TAPS gene family: encoding 26 single-domain proteins each with a single CAP domain and a solitary double-domain protein containing two conserved cysteine-rich secretory protein/antigen 5/pathogenesis related-1 (CAP) domains. Surprisingly, 16 SCP/TAPS predicted proteins formed an extended tandem array spanning a 53 kb region of one genomic region, which was confirmed by MinION long-read sequencing. RNA-seq data indicated that these 16 genes are highly transcribed in all developmental stages (excluding the embryo). Conclusions Future work should assess the potential of selected SCP/TAPS proteins as novel targets for the control of L. cuprina and related parasitic flies of major socioeconomic importance
  • Item
    No Preview Available
    The genome and developmental transcriptome of the strongylid nematode Haemonchus contortus
    Schwarz, EM ; Korhonen, PK ; Campbell, BE ; Young, ND ; Jex, AR ; Jabbar, A ; Hall, RS ; Mondal, A ; Howe, AC ; Pell, J ; Hofmann, A ; Boag, PR ; Zhu, X-Q ; Gregory, TR ; Loukas, A ; Williams, BA ; Antoshechkin, I ; Brown, CT ; Sternberg, PW ; Gasser, RB (BMC, 2013)
    BACKGROUND: The barber's pole worm, Haemonchus contortus, is one of the most economically important parasites of small ruminants worldwide. Although this parasite can be controlled using anthelmintic drugs, resistance against most drugs in common use has become a widespread problem. We provide a draft of the genome and the transcriptomes of all key developmental stages of H. contortus to support biological and biotechnological research areas of this and related parasites. RESULTS: The draft genome of H. contortus is 320 Mb in size and encodes 23,610 protein-coding genes. On a fundamental level, we elucidate transcriptional alterations taking place throughout the life cycle, characterize the parasite's gene silencing machinery, and explore molecules involved in development, reproduction, host-parasite interactions, immunity, and disease. The secretome of H. contortus is particularly rich in peptidases linked to blood-feeding activity and interactions with host tissues, and a diverse array of molecules is involved in complex immune responses. On an applied level, we predict drug targets and identify vaccine molecules. CONCLUSIONS: The draft genome and developmental transcriptome of H. contortus provide a major resource to the scientific community for a wide range of genomic, genetic, proteomic, metabolomic, evolutionary, biological, ecological, and epidemiological investigations, and a solid foundation for biotechnological outcomes, including new anthelmintics, vaccines and diagnostic tests. This first draft genome of any strongylid nematode paves the way for a rapid acceleration in our understanding of a wide range of socioeconomically important parasites of one of the largest nematode orders.
  • Item
    Thumbnail Image
    Insights into SCP/TAPS Proteins of Liver Flukes Based on Large-Scale Bioinformatic Analyses of Sequence Datasets
    Cantacessi, C ; Hofmann, A ; Young, ND ; Broder, U ; Hall, RS ; Loukas, A ; Gasser, RB ; Seo, J-S (PUBLIC LIBRARY SCIENCE, 2012-02-22)
    BACKGROUND: SCP/TAPS proteins of parasitic helminths have been proposed to play key roles in fundamental biological processes linked to the invasion of and establishment in their mammalian host animals, such as the transition from free-living to parasitic stages and the modulation of host immune responses. Despite the evidence that SCP/TAPS proteins of parasitic nematodes are involved in host-parasite interactions, there is a paucity of information on this protein family for parasitic trematodes of socio-economic importance. METHODOLOGY/PRINCIPAL FINDINGS: We conducted the first large-scale study of SCP/TAPS proteins of a range of parasitic trematodes of both human and veterinary importance (including the liver flukes Clonorchis sinensis, Opisthorchis viverrini, Fasciola hepatica and F. gigantica as well as the blood flukes Schistosoma mansoni, S. japonicum and S. haematobium). We mined all current transcriptomic and/or genomic sequence datasets from public databases, predicted secondary structures of full-length protein sequences, undertook systematic phylogenetic analyses and investigated the differential transcription of SCP/TAPS genes in O. viverrini and F. hepatica, with an emphasis on those that are up-regulated in the developmental stages infecting the mammalian host. CONCLUSIONS: This work, which sheds new light on SCP/TAPS proteins, guides future structural and functional explorations of key SCP/TAPS molecules associated with diseases caused by flatworms. Future fundamental investigations of these molecules in parasites and the integration of structural and functional data could lead to new approaches for the control of parasitic diseases.
  • Item
    Thumbnail Image
    Assessment of the genetic relationship between Dictyocaulus species from Bos taurus and Cervus elaphus using complete mitochondrial genomic datasets
    Gasser, RB ; Jabbar, A ; Mohandas, N ; Hoglund, J ; Hall, RS ; Littlewood, DTJ ; Jex, AR (BMC, 2012-10-30)
    BACKGROUND: Dictyocaulus species are strongylid nematodes of major veterinary significance in ruminants, such as cattle and cervids, and cause serious bronchitis or pneumonia (dictyocaulosis or "husk"). There has been ongoing controversy surrounding the validity of some Dictyocaulus species and their host specificity. Here, we sequenced and characterized the mitochondrial (mt) genomes of Dictyocaulus viviparus (from Bos taurus) with Dictyocaulus sp. cf. eckerti from red deer (Cervus elaphus), used mt datasets to assess the genetic relationship between these and related parasites, and predicted markers for future population genetic or molecular epidemiological studies. METHODS: The mt genomes were amplified from single adult males of D. viviparus and Dictyocaulus sp. cf. eckerti (from red deer) by long-PCR, sequenced using 454-technology and annotated using bioinformatic tools. Amino acid sequences inferred from individual genes of each of the two mt genomes were compared, concatenated and subjected to phylogenetic analysis using Bayesian inference (BI), also employing data for other strongylids for comparative purposes. RESULTS: The circular mt genomes were 13,310 bp (D. viviparus) and 13,296 bp (Dictyocaulus sp. cf. eckerti) in size, and each contained 12 protein-encoding, 22 transfer RNA and 2 ribosomal RNA genes, consistent with other strongylid nematodes sequenced to date. Sliding window analysis identified genes with high or low levels of nucleotide diversity between the mt genomes. At the predicted mt proteomic level, there was an overall sequence difference of 34.5% between D. viviparus and Dictyocaulus sp. cf. eckerti, and amino acid sequence variation within each species was usually much lower than differences between species. Phylogenetic analysis of the concatenated amino acid sequence data for all 12 mt proteins showed that both D. viviparus and Dictyocaulus sp. cf. eckerti were closely related, and grouped to the exclusion of selected members of the superfamilies Metastrongyloidea, Trichostrongyloidea, Ancylostomatoidea and Strongyloidea. CONCLUSIONS: Consistent with previous findings for nuclear ribosomal DNA sequence data, the present analyses indicate that Dictyocaulus sp. cf. eckerti (red deer) and D. viviparus are separate species. Barcodes in the two mt genomes and proteomes should serve as markers for future studies of the population genetics and/or epidemiology of these and related species of Dictyocaulus.
  • Item
    Thumbnail Image
    Molecular Changes in Opisthorchis viverrini (Southeast Asian Liver Fluke) during the Transition from the Juvenile to the Adult Stage
    Jex, AR ; Young, ND ; Sripa, J ; Hall, RS ; Scheerlinck, J-P ; Laha, T ; Sripa, B ; Gasser, RB ; Jones, MK (PUBLIC LIBRARY SCIENCE, 2012-11)
    BACKGROUND: The Southeast Asian liver fluke (Opisthorchis viverrini) chronically infects and affects tens of millions of people in regions of Asia, leading to chronic illness and, importantly, inducing malignant cancer (= cholangiocarcinoma). In spite of this, little is known, at the molecular level, about the parasite itself, its interplay with its hosts or the mechanisms of disease and/or carcinogenesis. METHODOLOGY/PRINCIPAL FINDINGS: Here, we generated extensive RNA-Seq data (Illumina) representing adult and juvenile stages of O. viverrini, and combined these sequences with previously published transcriptomic data (454 technology) for this species, yielding a combined assembly of significantly increased quality and allowing quantitative assessment of transcription in the juvenile and adult stage. CONCLUSIONS: This enhanced assembly reveals that, despite the substantial biological similarities between the human liver flukes, O. viverinni and Clonorchis sinensis, there are previously unrecognized differences in major aspects of their molecular biology. Most notable are differences among the C13 and cathepsin L-like cysteine peptidases, which play key roles in tissue migration, immune evasion and feeding, and, thus, represent potential drug and/or vaccine targets. Furthermore, these data indicate that major lineages of cysteine peptidases of socioeconomically important trematodes have evolved through a process of gene loss rather than independent radiation, contrasting previous proposals.