Reconstructing Intraordinal Relationships in Lepidoptera Using Mitochondrial Genome Data with the Description of Two Newly Sequenced Lycaenids, Spindasis Takanonis and Protantigius Superans (Lepidoptera: Lycaenidae)

Overview

Journal Mol Phylogenet Evol

Specialties Biology
Molecular Biology

Date 2011 Aug 6

PMID 21816227

Citations 43

Authors

Min Jee Kim

Ah Rang Kang

Heon Cheon Jeong

Ki-Gyoung Kim

Iksoo Kim

Affiliations

Soon will be listed here.

Abstract

Lepidoptera is one of the largest insect orders, but the phylogenetic relationships within this order, have yet to be adequately described. Among these unresolved relationships include those regarding the monophyly of the Macrolepidoptera and interfamilial relationships of the true butterflies superfamily Papilionoidea. We present two new mitochondrial genomes (mitogenomes) belonging to the butterfly family Lycaenidae to explore the phylogenetic relationships existing among lepidopteran superfamilies and true butterfly families from a mitogenome perspective, and to evaluate the characteristics of the lepidopteran mitogenomes. Our consensus phylogeny of the Lepidoptera largely supported the superfamilial relationships (((((Bombycoidea+Geometroidea)+Noctuoidea)+Pyraloidea)+Papilionoidea)+Tortricoidea), signifying a lack of support for a traditionally defined Macrolepidoptera. The familial relationships of the true butterflies concordantly recovered the previously proposed phylogenetic hypothesis (((Lycaenidae+Nymphalidae)+Pieridae)+Papilionidae). The test for the effect of optimization schemes (exclusion and inclusion of third codon position of PCGs and two rRNA genes, with and without partitions) on the resolution and relationships within the Lepidoptera have demonstrated that the majority of analyses did not substantially alter the relevant topology and node support, possibly as the result of relatively strong signal in mitogenomes for intraordinal relationships in Lepidoptera.

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