The postoligomerization method was used to prepare oligonucleotide 16-mers that contained dAdo or dGuo adducts, derived from trans opening of each enantiomer of the two diastereomeric benzo[a]pyrene 7,8-diol 9,10-epoxides, in two sequence contexts. These 16 oligonucleotides, along with the four corresponding oligonucleotides containing unsubstituted purines, were ligated into single-stranded DNA from bacteriophage M13mp7L2 and transfected into Escherichia coli SMH77. The mutagenic effects of replication past these adducts were then evaluated. The various adduct isomers induced point mutations at different frequencies and with different distributions of mutation types, as was anticipated. However, sequence context had the most substantial effects on mutation frequency. A high frequency of deletions of a single guanine was found in a context where the dGuo adduct was at the 3'-end of a run of five guanines, whereas no single base deletion was found in the other context studied, 5'-CGA-3'. Mutation frequencies in constructs containing dAdo adducts were much higher in a 5'-TAG-3' context (37-58%, depending on the individual isomer) than in a 5'-GAT-3' context (5-20%), and for a given adduct, mutation frequency was up to 10-fold higher in the former sequence than in the latter. These findings indicate that sequence context effects need more thorough evaluation if the goal of understanding the mechanism through which DNA adducts lead to mutation is to be achieved.
Among the 37 living species of Felidae, the clouded leopard (Neofelis nebulosa) is generally classified as a monotypic genus basal to the Panthera lineage of great cats. This secretive, mid-sized (16-23 kg) carnivore, now severely endangered, is traditionally subdivided into four southeast Asian subspecies (Figure 1A). We used molecular genetic methods to re-evaluate subspecies partitions and to quantify patterns of population genetic variation among 109 clouded leopards of known geographic origin (Figure 1A, Tables S1 ans S2 in the Supplemental Data available online). We found strong phylogeographic monophyly and large genetic distances between N. n. nebulosa (mainland) and N. n. diardi (Borneo; n = 3 individuals) with mtDNA (771 bp), nuclear DNA (3100 bp), and 51 microsatellite loci. Thirty-six fixed mitochondrial and nuclear nucleotide differences and 20 microsatellite loci with nonoverlapping allele-size ranges distinguished N. n. nebulosa from N. n. diardi. Along with fixed subspecies-specific chromosomal differences, this degree of differentiation is equivalent to, or greater than, comparable measures among five recognized Panthera species (lion, tiger, leopard, jaguar, and snow leopard). These distinctions increase the urgency of clouded leopard conservation efforts, and if affirmed by morphological analysis and wider sampling of N. n. diardi in Borneo and Sumatra, would support reclassification of N. n. diardi as a new species (Neofelis diardi).
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