Robert J. Raven scite author profile

Wolbachia pipientis is an endosymbiotic bacterium common to arthropods and filarial nematodes. This study presents the first survey and characterization of Wolbachia pipientis that infect spiders. All spiders were collected from Queensland, Australia during 2002-2003 and screened for Wolbachia infection using PCR approaches. The Wolbachia strains present in the spiders are diverse, paraphyletic, and for the most part closely related to strains that infect insects. We have also identified several spider Wolbachia strains that form a lineage outside the currently recognized six main Wolbachia supergroups (A-F). Incongruence between spider and Wolbachia phylogenies indicates a history of horizontal transmission of the bacterium in these host taxa. Like other arthropods, spiders are capable of harboring multiple Wolbachia strains.

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Revisions of Australian ground-hunting spiders: I. Amauropelma gen. nov. (Araneomorphae: Ctenidae)

Raven¹,

Stumkat²,

Gray³

2001

Rec West Aust Mus Sup

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ArachnoServer: a database of protein toxins from spiders

et al. 2009

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BackgroundVenomous animals incapacitate their prey using complex venoms that can contain hundreds of unique protein toxins. The realisation that many of these toxins may have pharmaceutical and insecticidal potential due to their remarkable potency and selectivity against target receptors has led to an explosion in the number of new toxins being discovered and characterised. From an evolutionary perspective, spiders are the most successful venomous animals and they maintain by far the largest pool of toxic peptides. However, at present, there are no databases dedicated to spider toxins and hence it is difficult to realise their full potential as drugs, insecticides, and pharmacological probes.DescriptionWe have developed ArachnoServer, a manually curated database that provides detailed information about proteinaceous toxins from spiders. Key features of ArachnoServer include a new molecular target ontology designed especially for venom toxins, the most up-to-date taxonomic information available, and a powerful advanced search interface. Toxin information can be browsed through dynamic trees, and each toxin has a dedicated page summarising all available information about its sequence, structure, and biological activity. ArachnoServer currently manages 567 protein sequences, 334 nucleic acid sequences, and 51 protein structures.ConclusionArachnoServer provides a single source of high-quality information about proteinaceous spider toxins that will be an invaluable resource for pharmacologists, neuroscientists, toxinologists, medicinal chemists, ion channel scientists, clinicians, and structural biologists. ArachnoServer is available online at http://www.arachnoserver.org.

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A revised dated phylogeny of scorpions: Phylogenomic support for ancient divergence of the temperate Gondwanan family Bothriuridae

Sharma

Baker

Cosgrove

et al. 2018

Molecular Phylogenetics and Evolution

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Funnel‐web spider bite: a systematic review of recorded clinical cases

Isbister

Gray

Balit³

et al. 2005

Medical Journal of Australia

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Objective: To investigate species‐specific envenoming rates and spectrum of severity of funnel‐web spider bites, and the efficacy and adverse effects of funnel‐web spider antivenom. Data sources: Cases were identified from a prospective study of spider bite presenting to four major hospitals and three state poisons information centres (1999–2003); museum records of spider specimens since 1926; NSW Poisons Information Centre database; MEDLINE and EMBASE search; clinical toxinology textbooks; the media; and the manufacturer's reports of antivenom use. Data extraction: Patient age and sex, geographical location, month, expert identification of the spider, clinical effects and management; envenoming was classified as severe, mild–moderate or minor/local effects. Data synthesis: 198 potential funnel‐web spider bites were identified: 138 were definite (spider expertly identified to species or genus), and 77 produced severe envenoming. All species‐identified severe cases were attributed to one of six species restricted to NSW and southern Queensland. Rates of severe envenoming were: Hadronyche cerberea (75%), H. formidabilis (63%), Atrax robustus (17%), Hadronyche sp. 14 (17%), H. infensa (14%) and H. versuta (11%). Antivenom was used in 75 patients, including 22 children (median dose, 3 ampoules; range, 1–17), with a complete response in 97% of expertly identified cases. Three adverse reactions were reported, all in adults: two early allergic reactions (one mild and one with severe systemic effects requiring adrenaline), and one case of serum sickness. Conclusions: Severe funnel‐web spider envenoming is confined to NSW and southern Queensland; tree‐dwelling funnel webs (H. cerberea and H. formidabilis) have the highest envenoming rates. Funnel‐web spider antivenom appears effective and safe; severe allergic reactions are uncommon.

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Robert J. Raven

Wolbachia pipientis in Australian Spiders

Revisions of Australian ground-hunting spiders: I. Amauropelma gen. nov. (Araneomorphae: Ctenidae)

ArachnoServer: a database of protein toxins from spiders

A revised dated phylogeny of scorpions: Phylogenomic support for ancient divergence of the temperate Gondwanan family Bothriuridae

Funnel‐web spider bite: a systematic review of recorded clinical cases

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