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121 Int'l J. Legal Med. 1 (2007)

handle is hein.journals/injlegame121 and id is 1 raw text is: Int J Legal Med (2007) 121: 1-8 DOI 10.1007/s00414-005-0056-8 Jeffrey D. Wells Diana W. Williams Validation of a DNA-based method for identifying Chrysomyinae (Diptera: Calliphoridae) used in a death investigation Received: 30 June 2005 / Accepted: 27 September 2005 / Published online: 19 November 2005 © Springer-Verlag 2005 Abstract Many authors have proposed DNA-based meth- ods for identifying an insect specimen associated with human remains. However, almost no attempt has been made to validate these methods using additional observa- tions. We tested a protocol for identifying insects in the blow fly subfamily Chrysomyinae (Diptera: Calliphoridae) often found to be associated with a human corpse in Canada or the USA. This method uses phylogenetic anal- ysis of DNA sequence from a short segment of the mito- chondrial gene for cytochrome oxidase one (COI). Test chrysomyine COI sequences were obtained from 245 newly sequenced specimens and 51 specimens from the published literature. Published sequences from representa- tives of nonchrysomyine genera were also included to check for the possibility of a false positive identification. All of the chrysomyine test haplotypes were correctly identified with strong statistical support, and there were no false positives. This method appears to be an accurate and robust technique for identifying chrysomyine species from a death investigation in this geographic region. The far northern species Protophormia atriceps was not evaluated; therefore, caution is required in applying this method at very high latitudes in North America. Keywords Forensic entomology Mitochondrial DNA- Cytochrome oxidase - Phylogeny - Species determination Introduction Correct identification of an insect specimen is usually a crucial early step in a forensic entomological analysis [28]. J. D. Wells ( ) Department of Biology, West Virginia University, Morgantown, WV 26506, USA e-mail: jdwells@mail.wvu.edu Fax: +1-304-2936363 D. W. Williams US Army Investigation Laboratory, Forest Park, GA 30297, USA Although traditionally accomplished using anatomical characters, this can be difficult or impossible for the immature stages of many species [3]. Sperling et al. [29] first proposed that such specimens should be identified using mitochondrial DNA (mtDNA). The majority of published insect mtDNA sequences cover some portion of the genes for cytochrome oxidase subunits one and two (COI + COII) [7]. Consequently, most authors have ad- vocated the use of a region within COI + COII for forensic insect identification (e.g., [8, 14, 20, 40]). However, some closely related species could not be distinguished using the COI + COII sequence [36, 42]. Protocols are available for characterizing other mtDNA [37, 43] or nuclear [26, 30] loci in forensically important Diptera, and some of these may prove to be more useful than COI + COII for some taxa. A locus that works well for diagnosing species of one taxonomic group may not work for a different group. The use of mtDNA sequence data for species determination requires an assumption of reciprocal mtDNA monophyly when comparing a particular species with its closest rel- ative in the data set [22, 24]. In other words, unless each morphological species under consideration corresponds to a single mtDNA lineage, it will not be possible to assign at least some sample haplotypes to a single species (Fig. 1). Not surprisingly, carrion flies show intraspecific varia- tion in mtDNA haplotypes [35], and geographic variation is also possible [31]. Therefore, we believe that validation of any molecular genetic species test for these insects requires a population and geographic survey of the target locus. Wells and Sperling [40] proposed a method for identifying all forensically important species in the blow fly subfamily Chrysomyinae (Diptera: Calliphoridae) like- ly to be found in a human corpse in Canada or the USA. This test relies on a short region of the COI sequence from an evidence specimen and maximum parsimony phyloge- netic analysis [33] to potentially associate a haplotype from an unidentified specimen with a haplotype from an iden- tified specimen. The current study aims to validate this analytical method using newly generated and published but

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