Evolution and losses of spines in slug caterpillars (Lepidoptera: Limacodidae)

Lin, Yu Chi; Lin, Rung Juen; Braby, Michael F.; Hsu, Yu Feng

doi:10.1002/ece3.5524

Cited by 15 publications

(24 citation statements)

References 95 publications

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“…Our data are consistent with previous reports that ascribe venom secretion in Limacodidae and Megalopygidae to the large cell at the base of each spine (61,64). This observation is consistent with the descent of diverse venomous zygaenoids from a shared venomous ancestor with subsequent loss of venom use in some groups (12). However, we cannot rule out that venom use evolved multiple times in Zygaenoidea, possibly from similar molecular and anatomical precursors.…”

Section: Evolutionsupporting

confidence: 92%

“…Envenomations by limacodids typically induce intense pain, itch, and erythema, and sometimes numbness, weakness, nausea, and dizziness (11). Venom use may have evolved within Limacodidae (10) or in a shared ancestor of Limacodidae and Megalopygidae with subsequent losses in related taxa (12). Limacodid venom has been shown to protect caterpillars against invertebrate predators, and this protection is stronger for predators previously exposed to the venom, indicating that envenomation induces learned avoidance in some predators (13).…”

mentioning

confidence: 99%

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Production, composition, and mode of action of the painful defensive venom produced by a limacodid caterpillar, Doratifera vulnerans

Walker

Robinson

Paluzzi

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Venoms have evolved independently several times in Lepidoptera. Limacodidae is a family with worldwide distribution, many of which are venomous in the larval stage, but the composition and mode of action of their venom is unknown. Here, we use imaging technologies, transcriptomics, proteomics, and functional assays to provide a holistic picture of the venom system of a limacodid caterpillar, Doratifera vulnerans. Contrary to dogma that defensive venoms are simple in composition, D. vulnerans produces a complex venom containing 151 proteinaceous toxins spanning 59 families, most of which are peptides <10 kDa. Three of the most abundant families of venom peptides (vulnericins) are 1) analogs of the adipokinetic hormone/corazonin-related neuropeptide, some of which are picomolar agonists of the endogenous insect receptor; 2) linear cationic peptides derived from cecropin, an insect innate immune peptide that kills bacteria and parasites by disrupting cell membranes; and 3) disulfide-rich knottins similar to those that dominate spider venoms. Using venom fractionation and a suite of synthetic venom peptides, we demonstrate that the cecropin-like peptides are responsible for the dominant pain effect observed in mammalian in vitro and in vivo nociception assays and therefore are likely to cause pain after natural envenomations by D. vulnerans. Our data reveal convergent molecular evolution between limacodids, hymenopterans, and arachnids and demonstrate that lepidopteran venoms are an untapped source of novel bioactive peptides.

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Section: Evolutionsupporting

confidence: 92%

mentioning

confidence: 99%

Production, composition, and mode of action of the painful defensive venom produced by a limacodid caterpillar, Doratifera vulnerans

Walker

Robinson

Paluzzi

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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“…In Lepidoptera, setae are primarily seen on the head and trunk of the caterpillar 31 . The setae usually specialized into stinging spines in Limacodidae 32 or assembled as dense tufts as mimicry of some Arctiidae, Lasiocampidae, and Lymantriidae 33 . The larvae of G. menyuanensis are covered by large hair tufts, which carry many setae.…”

Section: Discussionmentioning

confidence: 99%

Larvae of grassland caterpillar endemic to Qinghai–Tibet Plateau (Lepidoptera: Lymantriinae: Gynaephora): identification, distribution, and ultramorphology

Yuan,

Shao,

et al. 2024

Preprint

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The grassland caterpillar is a significant pest of alpine meadows in the Qinghai-Tibet Plateau. Its larvae primarily feed on forage grasses, resulting in financial losses. However, little research has been done on the morphological features of larvae of this species thus far. The distribution and habitat of Gynaephora menyuanensis were extensively investigated in this instance through field study. Using an optical and scanning electron microscope(SEM), the external morphology and ultramorphology of the last instar larvaeof G. menyuanensiswere investigated. The findings indicate that this species is primarily found in the northeast of Qinghai Province in alpine meadows at an altitude of 3,000–3,500 m. For the first time, SEM is used to report more comprehensive morphological structuresof G. menyuanensis, including larval head capsule, mouthparts, antenna, sensilla, thoracic legs, prolegs, and setae. The larvae have two distinct color funnel warts (yellow and red) on abdominal segments VI and VII, which sets them apart from other lepidopterous larvae. Additionally, the chaetotaxy of first instar larvae of G. menyuanensis were studied and described in detail, identifying seven clusters(PD, D, SD, L, SV, V, CV) on the larval trunk. This study offers a theoretical basis for phylogenetic analysis, the adaption evolution of G. menyuanensis, and a systematic discussion of the application of morphological features of larvae to classification.

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“…Agathiphagidae [39], Heterobathmiidae [40], Prototheoridae [44], Andesianidae [49], Incurvariidae [54,55], Nematopogoninae [56], Adelidae [136], Heliozelidae [57], Tischeriidae [58], Palaephatidae [59], Psychidae [140], Yponomeutidae [60], Urodidae [72], Douglasiidae [73,160], Schreckensteiniidae [64], Choreutidae [65], Millieriidae [66], Immidae [67], Tortricidae [68][69][70], Heliocosmidae [71], Galacticidae [72,73], Zygaenoids [74,76], Lacturidae [77], Himantopteridae [78,79], Aididae [80], Megalopygidae [81,82], Limacodidae [83,84], Dalceridae [81,85], Cyclotornidae [86,87], Sesiidae [86,142], Dudgeoneidae [86], Cossidae [88,89], Cossulinae [90], Brachodidae…”

Section: Chrysalidsmentioning

confidence: 99%

“Lepidoptera Flies”, but Not Always…Interactions of Caterpillars and Chrysalis with Soil

Legal

2022

Diversity

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Lepidoptera, an order of insects traditionally linked to the aerial habitat, are much more diverse in their living environment than the clichéd image we may have of them. The imago stage, which is the most visible in these insects, is not the one that has the most interaction with the environment (usually caterpillars) nor the one that lasts the longest (very often chrysalises). These two stages are often directly related to litter and soil, although only the interaction at the pupal stage seems to follow a phylogenetic logic with two independent evolutionary events for the preference with soil: Use of litter and the upper “O” horizon as protection against predation for the evolutionarily oldest Lepidoptera families, pupation at greater depths (up to 60 centimetres in extreme cases) for the most derived Lepidoptera families; this probably to take advantage of the thermal and moisture buffer provided by the soil. An estimate suggests that about 25% of lepidopteran species worldwide have more or less obligatory interactions with soil.

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Evolution and losses of spines in slug caterpillars (Lepidoptera: Limacodidae)

Cited by 15 publications

References 95 publications

Production, composition, and mode of action of the painful defensive venom produced by a limacodid caterpillar, Doratifera vulnerans

Production, composition, and mode of action of the painful defensive venom produced by a limacodid caterpillar, Doratifera vulnerans

Larvae of grassland caterpillar endemic to Qinghai–Tibet Plateau (Lepidoptera: Lymantriinae: Gynaephora): identification, distribution, and ultramorphology

“Lepidoptera Flies”, but Not Always…Interactions of Caterpillars and Chrysalis with Soil

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