Venom of prey‐specialized spiders is more toxic to their preferred prey: A result of prey‐specific toxins

Pekár, Stanislav; Líznarová, Eva; Bočánek, Ondřej; Zdráhal, Zbyněk

doi:10.1111/1365-2656.12900

Cited by 27 publications

(36 citation statements)

References 67 publications

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“…While venom has evolved in response to several factors [10][11][12], for species that use venom for predation, various functional aspects of their venoms, such as their potency, are expected to reflect the evolutionary pressures related to capturing prey [5]. In particular, as the functional ability of such venoms are selected through their efficacy against the organisms they are most frequently targeted towards, they are expected to show patterns of prey-specific potencies [13,14]. Examples of venoms which show such prey-specific potency are found across the animal kingdom, including spiders [13,[15][16][17], cone snails [11,18,19], centipedes [20], heteropterans [21] and snakes [22].…”

Section: Introductionmentioning

confidence: 99%

“…In particular, as the functional ability of such venoms are selected through their efficacy against the organisms they are most frequently targeted towards, they are expected to show patterns of prey-specific potencies [13,14]. Examples of venoms which show such prey-specific potency are found across the animal kingdom, including spiders [13,[15][16][17], cone snails [11,18,19], centipedes [20], heteropterans [21] and snakes [22]. Furthermore, in snakes, prey-specific potencies seem to be the rule rather than the exception, with increasing potencies found to be associated with venoms tested on animals more closely related to the snakes' diet [14,23,24].…”

Section: Introductionmentioning

confidence: 99%

“…In the simplest case, the venom from a predator which preys on a single species will be prey-specifically selected against that given species [13]. However, predators typically have diets comprising multiple species, often from a range of taxonomic groups.…”

Section: Introductionmentioning

confidence: 99%

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Diet Breadth Mediates the Prey Specificity of Venom Potency in Snakes

Lyons

Dugon

Healy

2020

Toxins

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Venoms are best known for their ability to incapacitate prey. In predatory groups, venom potency is predicted to reflect ecological and evolutionary drivers relating to diet. While venoms have been found to have prey-specific potencies, the role of diet breadth on venom potencies has yet to be tested at large macroecological scales. Here, using a comparative analysis of 100 snake species, we show that the evolution of prey-specific venom potencies is contingent on the breadth of a species’ diet. We find that while snake venom is more potent when tested on species closely related to natural prey items, we only find this prey-specific pattern in species with taxonomically narrow diets. While we find that the taxonomic diversity of a snakes’ diet mediates the prey specificity of its venom, the species richness of its diet was not found to affect these prey-specific potency patterns. This indicates that the physiological diversity of a species’ diet is an important driver of the evolution of generalist venom potencies. These findings suggest that the venoms of species with taxonomically diverse diets may be better suited to incapacitating novel prey species and hence play an important role for species within changing environments.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Diet Breadth Mediates the Prey Specificity of Venom Potency in Snakes

Lyons

Dugon

Healy

2020

Toxins

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“…the ability to process a selected food type, has not been studied yet in this species, although venomic adaptation has. Mexcala has very potent venom that is more efficient on ants than on termites when compared to a closely related salticid species 32 . Its venom likely possesses specific toxins effective especially on ants 33 .…”

Section: Discussionmentioning

confidence: 99%

No ontogenetic shift in the realised trophic niche but in Batesian mimicry in an ant-eating spider

Pekár

Dušátková

Haddad

2020

Sci Rep

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In predators an ontogenetic trophic shift includes change from small to large prey of several different taxa. in myrmecophagous predators that are also mimics of ants, the ontogenetic trophic shift should be accompanied by a parallel mimetic change. our aim was to test whether ant-eating jumping spider, Mexcala elegans, is myrmecomorphic throughout their ontogenetic development, and whether there is an ontogenetic shift in realised trophic niche and their mimetic models. We performed field observations on the association of Mexcala with ant species and investigated the natural prey of the ontogenetic classes by means of molecular methods. then we measured the mimetic similarity of ontogenetic morphs to putative mimetic models. We found Mexcala is an inaccurate mimic of ants both in the juvenile and adult stages. During ontogenesis it shifts mimetic models. the mimetic similarity was rather superficial, so an average bird predator should distinguish spiders from ants based on colouration. The realised trophic niche was narrow, composed mainly of ants of different species. There was no significant difference in the prey composition between ontogenetic stages. Females were more stenophagous than juveniles. We conclude that Mexcala is an ant-eating specialist that reduces its prey spectrum and shifts ant models during ontogenesis.

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“…Additionally, venom toxin levels may correlate with predator distributions and physiology due to the coevolutionary theory which suggests a phenotype matching occurring in predator-prey interactions. This is known as the escalating arms race and is well documented in predatory venoms [15,41,[54][55][56]. As the frequency and the strength of biotic encounters decrease at high elevations due to colder climatic conditions [43,44,[57][58][59][60], a lower predator pressure is expected to be exerted on bumblebees at high elevations.…”

Section: Discussionmentioning

confidence: 99%

Alteration of Bumblebee Venom Composition toward Higher Elevation

Barkan

Chevalier

Pradervand

et al. 2019

Toxins

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Venomous animals use venom, a complex biofluid composed of unique mixtures of proteins and peptides, for either predation or defense. Bumblebees, which occur in various habitats due to their unique thermoregulatory properties, mainly use venom for defense. Herein, we conducted an exploratory analysis of the venom composition of a bumblebee species (Bombus pascuorum) along an elevation gradient in the western Swiss Alps using shot-gun proteomic approaches to assess whether their defense mechanism varies along the gradient. The gradient was characterized by high temperatures and low humidity at low elevations and low temperatures and high humidity at high elevations. Venom composition is changing along the elevation gradient, with proteomic variation in the abundances of pain-inducing and allergenic proteins. In particular, the abundance of phospholipase A 2 -like, the main component of bumblebee venom, gradually decreases toward higher elevation (lower temperature), suggesting venom alteration and thus a decrease in bumblebee defense towards harsher environments. Larger datasets may complement this study to validate the observed novel trends.

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Venom of prey‐specialized spiders is more toxic to their preferred prey: A result of prey‐specific toxins

Cited by 27 publications

References 67 publications

Diet Breadth Mediates the Prey Specificity of Venom Potency in Snakes

Diet Breadth Mediates the Prey Specificity of Venom Potency in Snakes

No ontogenetic shift in the realised trophic niche but in Batesian mimicry in an ant-eating spider

Alteration of Bumblebee Venom Composition toward Higher Elevation

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