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XAVIER FAUVERGUE CDRIC TENTELIER GWENAËLLE GENSON PHILIPPE AUDIOT THOMAS GUILLEMAUD RJANE STREIFF 《Molecular ecology resources》2005,5(1):109-111
Microsatellite loci were isolated from the aphid parasitoid Lysiphlebus testaceipes (Hymenoptera: Braconidae). Ten loci were obtained from an enriched partial genomic library. Genetic diversity was analysed at seven of these loci and two natural populations, one on oleander and one on citrus. The observed number of alleles ranged from one to 17, and the observed heterozygosity ranged from 0.37 to 0.82. In both populations, no departure from Hardy–Weinberg equilibrium was detected except for one locus. The differentiation between the two populations was characterized by an FST of 0.09. 相似文献
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F. DELMOTTE W. J. CHEN S. RICHARD‐CERVERA C. GREIF D. PAPURA X. GIRESSE G. MONDOR‐GENSON M. F. CORIO‐COSTET 《Molecular ecology resources》2006,6(2):379-381
Microsatellite loci were isolated from Plasmopara viticola (Oomycetes), the causal agent of downy mildew of grape, one of the most damaging fungal diseases of grapevine worldwide. Seven polymorphic loci were obtained from an enriched partial genomic library. A low genetic diversity was observed at all loci, with a mean observed allele number of 3.75 and an observed heterozygosity ranging from 0.074 to 0.547. Cross‐amplification tests on three closely related taxa indicated that two loci could be used in other Oomycetes species. These microsatellite loci were proved to be useful for population genetic analysis. 相似文献
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FERNANDO H. A. FARACHE ASTRID CRUAUD GWENAËLLE GENSON RODRIGO A.S. PEREIRA JEAN‐YVES RASPLUS 《Systematic Entomology》2013,38(1):14-34
Besides the pollinators (Agaonidae), several chalcidoid lineages of nonpollinating fig wasps are strictly dependent on Ficus (Moraceae) for reproduction. Overall, nonpollinating fig wasps have not received much consideration. Reliable phylogenetic and taxonomic frameworks are lacking for most groups, which hampers progress in our understanding of the evolution and functioning of fig wasp communities. Here we focus on Anidarnes Bou?ek (Sycophaginae), a member of the Neotropical fig wasp community. We present a detailed morphological analysis as well as the first molecular phylogeny of the genus inferred from two nuclear and two mitochondrial genes (Cytb, COI, EF‐1α and 28S rRNA, 3937 bp). Twelve species are recognised, illustrated and a key to their identification is provided. Of those, only three were previously described and are redescribed here: A. bicolor (Ashmead); A. globiceps (Mayr) and A. brevicauda Bou?ek. In addition, nine new species are described: Anidarnes brevior sp.n . Farache & Rasplus (Costa Rica); A. dissidens sp.n. Farache & Rasplus (Brazil); A. gracilis sp.n. Farache & Rasplus (Costa Rica); A. isophlebiae sp.n. Farache & Rasplus (Costa Rica); A. jimeneziae sp.n. Farache & Rasplus (Costa Rica); A. longiscutellum sp.n. Farache & Rasplus (Brazil); A. martinae sp.n. Farache & Rasplus (U.S.A., Florida); A. nigrus sp.n. Farache & Rasplus (Colombia) and A. rugosus sp.n. Farache & Rasplus (Brazil). Finally, phylogenetic relationships inferred using parsimony, bayesian and maximum likelihood methods are discussed in the light of our morphological observations and the host fig tree taxonomy. 相似文献
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FREDERIC PETENIAN EMESE MEGLCZ GWENAELLE GENSON JEAN‐YVES RASPLUS ERIC FAURE 《Molecular ecology resources》2005,5(2):243-245
Microsatellite loci were developed from Parnassius apollo and Euphydryas aurinia, two endangered Palaearctic butterfly species. Respectively, six and five polymorphic loci were characterized from an enriched partial genomic library. Genetic diversity range from three to 25 alleles for the first species and from seven to 21 for the second. Although the presence of null alleles is suspected, these polymorphic loci are likely to provide important information on the fine scale genetic structure among populations of these species. 相似文献
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M. C. CAILLAUD G. MONDOR‐GENSON S. LEVINE‐WILKINSON L. MIEUZET A. FRANTZ J. C. SIMON A. COEUR D'ACIER 《Molecular ecology resources》2004,4(3):446-448
Microsatellite loci were isolated from enriched partial genomic libraries of Acyrthosiphon loti and Acyrthosiphon pisum. Twenty of those loci were characterized in A. pisum. Fifteen of those loci were polymorphic. Genetic diversity varied across loci, allele repeat number ranging from two to 15, and observed heterozygosity from 0.1 and 0.96. An additional eight microsatellite loci originally isolated from other aphids but cross‐priming with A. pisum showed polymorphism as well. Allele size ranged from three to 9 and observed heterozygosity from 0.43 to 0.84. Overall, we present 23 microsatellite loci that can be used to reveal polymorphism in pea aphids. 相似文献
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GAEL J. KERGOAT LAURENT SOLDATI ANNE‐LAURE CLAMENS HERVE JOURDAN ROULA JABBOUR‐ZAHAB GWENAELLE GENSON PATRICE BOUCHARD FABIEN L. CONDAMINE 《Systematic Entomology》2014,39(3):486-499
Insect diversity represents about 60% of the estimated million‐and‐a‐half described eukaryotic species worldwide, yet comprehensive and well‐resolved intra‐ordinal phylogenies are still lacking for the majority of insect groups. This is the case especially for the most species‐rich insect group, the beetles (Coleoptera), a group for which less than 4% of the known species have had their DNA sequenced. In this study, we reconstruct the first higher level phylogeny based on DNA sequence data for the species‐rich darkling beetles, a family comprising at least 20 000 species. Although amongst all families of beetles Tenebrionidae ranks seventh in terms of species diversity, the lack of knowledge on the phylogeny and systematics of the group is such that its monophyly has been questioned (not to mention those of the subfamilies and tribes contained within it). We investigate the evolutionary history of Tenebrionidae using multiple phylogenetic inference methods (Bayesian inference, maximum likelihood and parsimony) to analyse a dataset consisting of eight gene fragments across 404 taxa (including 250 tenebrionid species). Although the resulting phylogenetic framework only encompasses a fraction of the known tenebrionid diversity, it provides important information on their systematics and evolution. Whatever the methods used, our results provide strong support for the monophyly of the family, and highlight the likely paraphyletic or polyphyletic nature of several important tenebrionid subfamilies and tribes, notably the polyphyletic subfamilies Diaperinae and Tenebrioninae that clearly require substantial revision in the future. Some interesting associations in several groups are also revealed by the phylogenetic analyses, such as the pairing of Aphtora Bates with Phrenapatinae. Furthermore this study advances our knowledge of the evolution of the group, providing novel insights into much‐debated theories, such as the apparent relict distribution of the tribe Elenophorini. 相似文献
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