AI Article Synopsis
- The study investigates genome conservation in noctuid moths, specifically Helicoverpa armigera and Mamestra brassicae, comparing their chromosome structures through FISH analysis.
- Analysis revealed that synteny and gene order are well-preserved between these two species, indicating that their genomic organization is similar to that of the model organism Bombyx mori for most chromosomes.
- The research establishes a complete karyotype for these noctuid moths and suggests that their chromosome number reflects an ancestral genome arrangement for the Lepidoptera order, paving the way for more extensive genetic studies among different species.
Article Abstract
Since the Bombyx mori genome sequence was published, conserved synteny between B. mori and some other lepidopteran species has been revealed by either FISH (fluorescence in situ hybridization) with BAC (bacterial artificial chromosome) probes or linkage analysis. However, no species belonging to the Noctuidae, the largest lepidopteran family which includes serious polyphagous pests, has been analyzed so far with respect to genome-wide conserved synteny and gene order. For that purpose, we selected the noctuid species Helicoverpa armigera and Mamestra brassicae, both with n = 31 chromosomes. Gene-defined fosmid clones from M. brassicae and BAC clones from a closely related species of H. armigera, Heliothis virescens, were used for a FISH analysis on pachytene chromosomes. We recognized all H. armigera chromosomes from specific cross-hybridization signals of 146 BAC probes. With 100 fosmid clones we identified and characterized all 31 bivalents of M. brassicae. Synteny and gene order were well conserved between the two noctuid species. The comparison with the model species B. mori (n = 28) showed the same phenomenon for 25 of the 28 chromosomes. Three chromosomes (#11, #23 and #24) had two counterparts each in H. armigera and M. brassicae. Since n = 31 is the modal chromosome number in Lepidoptera, the noctuid chromosomes probably represent an ancestral genome organization of Lepidoptera. This is the first identification of a full karyotype in Lepidoptera by means of BAC cross-hybridization between species. The technique shows the potential to expand the range of analyzed species efficiently.
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| http://dx.doi.org/10.1016/j.ibmb.2013.04.003 | DOI Listing |
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