A molecular phylogeny for the oldest (nonditrysian) lineages of extant <scp>L</scp>epidoptera, with implications for classification, comparative morphology and life‐history evolution

Regier, Jerome C.; Mitter, Charles; Kristensen, Niels P.; Davis, Donald R.; Nieukerken, E.J. van; Rota, Jadranka; Simonsen, Thomas J.; Mitter, Kim T.; Kawahara, Akito Y.; Yen, Shen Horn; Cummings, Michael P.; Zwick, Andreas

doi:10.1111/syen.12129

Cited by 95 publications

(142 citation statements)

References 109 publications

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“…It may be futile to search for simple explanations for why there are so many butterflies and moth species, but some contributing factors can be postulated. In particular, butterflies and moths most likely radiated in concert with the diversification of flowering plants [47], with the larvae of each species evolving adaptations to allow phytophagy on (or in) leaves, usually in the face of intense chemical defence from the plants [48]. Lepidoptera have evolved sophisticated and adaptable detoxification systems to overcome such defences [49,50].…”

Section: Extra Hox Genes and The Evolutionary Success Of Lepidopteramentioning

confidence: 99%

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

Holland

Marlétaz

Maeso

et al. 2017

Phil. Trans. R. Soc. B

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One contribution of 17 to a theme issue 'Evodevo in the genomics era, and the origins of morphological diversity'. Gene duplications and gene losses have been frequent events in the evolution of animal genomes, with the balance between these two dynamic processes contributing to major differences in gene number between species. After gene duplication, it is common for both daughter genes to accumulate sequence change at approximately equal rates. In some cases, however, the accumulation of sequence change is highly uneven with one copy radically diverging from its paralogue. Such 'asymmetric evolution' seems commoner after tandem gene duplication than after whole-genome duplication, and can generate substantially novel genes. We describe examples of asymmetric evolution in duplicated homeobox genes of moths, molluscs and mammals, in each case generating new homeobox genes that were recruited to novel developmental roles. The prevalence of asymmetric divergence of gene duplicates has been underappreciated, in part, because the origin of highly divergent genes can be difficult to resolve using standard phylogenetic methods.This article is part of the themed issue 'Evo-devo in the genomics era, and the origins of morphological diversity'.

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Section: Extra Hox Genes and The Evolutionary Success Of Lepidopteramentioning

confidence: 99%

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

Holland

Marlétaz

Maeso

et al. 2017

Phil. Trans. R. Soc. B

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“…Another species was found to be a miner in leaves of Ribes (Grossulariaceae) (Regier et al 2015, Eiseman 2016. In the western Tianshan Mts.…”

Section: Http://zoobankorg/20bdd944-51da-49a4-8578-4f8c6f0d45fementioning

confidence: 99%

Catapterix tianshanica sp. n. – the second species of the genus from the Palaearctic Region (Lepidoptera, Acanthopteroctetidae)

Mey¹,

Rutjan²

2016

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Abstract. Based on a single adult male collected in Central Asia (Kyrgyzstan) the new species Catapterix tianshanica sp. n. is described and illustrated. The new species differs from related species by details of the male genitalia, especially by the reduction of the medial process of the transtilla and by the structure of the uncus. It is the second species of the genus and family found in the Palaearctic Region so far. The record significantly expands the distribution of Catapterix from Europe to Asia.

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“…Nepticulidae form a Superfamily, Nepticuloidea, together with the Opostegidae, of which the latter lack known fossils. Opostegidae also are herbivores, but, to the extent that larval habits are known, the majority of extant species create stem-or bark-mines, often consuming cambium tissue; very few species construct mines in leaves (Regier et al 2015). Larval traces of mines in bark or cambium are difficult to find and recognize, even in modern live hosts, and the absence of their traces in the fossil record is not surprising.…”

Section: Introductionmentioning

confidence: 99%

“…Nepticulidae commonly are known as pygmy moths and constitute a species rich, basal family within lepidopteran phylogeny, and consequently may offer a series of calibration points of both practical and theoretical importance (see Regier et al 2015). The family comprises some of the smallest adult Lepidoptera known, and is found on all continents except Antarctica.…”

Section: Introductionmentioning

confidence: 99%

A revised checklist of Nepticulidae fossils (Lepidoptera) indicates an Early Cretaceous origin

Doorenweerd

Nieukerken

Sohn

et al. 2015

Zootaxa

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With phylogenetic knowledge of Lepidoptera rapidly increasing, catalysed by increasingly powerful molecular techniques, the demand for fossil calibration points to estimate an evolutionary timeframe for the order is becoming an increasingly pressing issue. The family Nepticulidae is a species rich, basal branch within the phylogeny of the Lepidoptera, characterized by larval leaf-mining habits, and thereby represents a potentially important lineage whose evolutionary history can be established more thoroughly with the potential use of fossil calibration points. Using our experience with extant global Nepticulidae, we discuss a list of characters that may be used to assign fossil leaf mines to Nepticulidae, and suggest useful methods for classifying relevant fossil material. We present a checklist of 79 records of Nepticulidae representing adult and leaf-mine fossils mentioned in literature, often with multiple exemplars constituting a single record. We provide our interpretation of these fossils. Two species now are included in the collective generic name Stigmellites: Stigmellites resupinata (Krassilov, 2008) comb. nov. (from Ophiheliconoma) and Stigmellites almeidae (Martins-Neto, 1989) comb. nov. (from Nepticula). Eleven records are for the first time attributed to Nepticulidae. After discarding several dubious records, including one possibly placing the family at a latest Jurassic position, we conclude that the oldest fossils likely attributable to Nepticulidae are several exemplars representing a variety of species from the Dakota Formation (USA). The relevant strata containing these earliest fossils are now dated at 102 Ma (million years ago) in age, corresponding to the latest Albian Stage of the Early Cretaceous. Integration of all records in the checklist shows that a continuous presence of nepticulid-like leaf mines preserved as compression-impression fossils and by amber entombment of adults have a fossil record extending to the latest Early Cretaceous.

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A molecular phylogeny for the oldest (nonditrysian) lineages of extant Lepidoptera, with implications for classification, comparative morphology and life‐history evolution

Cited by 95 publications

References 109 publications

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

New genes from old: asymmetric divergence of gene duplicates and the evolution of development

Catapterix tianshanica sp. n. – the second species of the genus from the Palaearctic Region (Lepidoptera, Acanthopteroctetidae)

A revised checklist of Nepticulidae fossils (Lepidoptera) indicates an Early Cretaceous origin

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