Using Exon and Intron Sequences of the Gene Mp20 to Resolve Basal Relationships in Cicindela (Coleoptera:Cicindelidae)

doi:10.1080/10635150490472940

Systematic Biology 2004 53(4):554-570; doi:10.1080/10635150490472940

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Using Exon and Intron Sequences of the Gene Mp20 to Resolve Basal Relationships in Cicindela (Coleoptera:Cicindelidae)

Joan Pons¹^,2, Timothy G. Barraclough², Kosmas Theodorides¹^,2, Anabela Cardoso¹^,3 and Alfried P. Vogler¹^,2

¹ Department of Entomology, The Natural History Museum London SW7 5BD United Kingdom E-mail: joap{at}nhm.ac.uk(J.P.)
² Department of Biological Sciences, Imperial College London Silwood Park Campus Ascot Berkshire SL5 7PY United Kingdom
³ Faculdade de Ciências da Universidade de Lisboa, Departamento de Zoologia e Antropologia e Centro de Biologia Ambiental Rua Ernesto Vasconcelos 1746–016 Campo Grande Lisboa Portugal

Edited by Karl Kjer: Associate Editor

Abstract

The genus Cicindela (Coleoptera: Cicindelidae) is a species-richcosmopolitan group of tiger beetles useful for comparing cladediversification worldwide. Knowledge about relationships ofmajor groups is important for this analysis but basal nodesin Cicindela have been difficult to resolve with standard mtDNAmarkers. Here we developed the Mp20 gene, a single-copy nuclearmarker coding for a muscle-associated protein in insects, forphylogenetic analysis of basal groups of Cicindela. Nearly full-lengthsequences were obtained for 51 cicindelids, including majortaxonomic groups from all continents. Sequences of Mp20 werebetween 1.2 and 1.7 kb and spanning three introns. Phylogeneticsignal of exon and intron sequences was compared with that fromfour gene regions of mtDNA (COI, COIII, Cytb, 16S rRNA; 2.4kb total). Because introns differed in length, sequence alignmentwas conducted using various procedures of phenetic and parsimony-basedcharacter coding of indels to assess their phylogenetic informationcontent, but major nodes were recovered consistently. Mp20 sequencescontributed two thirds of the total support of the combinedanalysis, with most signal from the introns. We found majorclades of Cicindela to be geographically largely coincidentwith continental regions, confined to Australasia, the Holarctic,the Indian subcontinent, Africa, and South and Central America.Clock estimates using various maximum-likelihood (ML) branchlength calculations resulted in roughly similar divergence timeswhether Mp20 exon, introns, or mtDNA were used, and they werenot greatly affected by different procedures for coding andoptimizing indel characters. Based on existing clock calibrationsin Cicindela, basal splits of continental lineages occurredin the mid-Miocene, placing the radiation of basal groups ofCicindela to a period when their open-vegetation habitats expandedglobally.

Keywords: Congruence; DNA sequence alignment; ESTs; miocene; molecular clock; single copy genes

Received May 19, 2003; Revised September 19, 2003; Accepted February 24, 2004
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