Autosomal differences between males and females in hybrid zones: a first report from Barbus barbus and Barbus meridionalis (Cyprinidae).

Narrow hybrid zones are generally subjected to the action of two forces: dispersal, which tends to homogenise the hybridising taxa, and selection against hybrids, which, in contrast, produces steep clines of introgression for diagnostic markers. Although differences between sexes in dispersal abilities or in susceptibility to hybrid counterselection are common in hybrid zones, autosomal genetic differences between males and females have never been reported to our knowledge. Barbus barbus and Barbus meridionalis (Cyprinidae) form a hybrid zone along the Lergue river. By carrying out a genetic analysis of males and females in six samples from two central stations of the hybrid zone using codominant markers (six allozymes and four microsatellite loci), we revealed significant multilocus and monolocus differences between the sexes. This could reflect a genetic difference among sexes within a same cohort, caused either by a survival (or fertility) differential among sexes or by a sex-specific pattern of dispersal. Alternatively, this may be due to genetic differentiation between cohorts, since male and female barbel exhibit different maturation, growth and survival patterns leading to different age distributions among sexes, and particularly among reproducers.

[A new species of coelacanth. Genetic and morphologic proof]. / Une nouvelle espèce de coelacanthe. Preuves génétiques et morphologiques.

To test the assumption of the existence of a possible new population of coelacanth in Indonesia, we sequenced the mitochondrial DNA from cytochrome b and 12S rDNA genes, and described the morphological features of the specimen discovered on July 1998. Significant differences in base sequences revealed that the Comorean and the Indonesian coelacanth belong to distinct populations. Estimation of divergence time, high transition-transversion ratios, preponderance of third position silent substitution, strong morphological differentiation and geographical isolation led us to consider that the Indonesian coelacanth is a new species, Latimeria menadoensis n. sp., closely related to L. chalumnae.

Does polyploidy lead to fewer and shorter microsatellites in Barbus (Teleostei:Cyprinidae)?

Screening of a hybrid Barbus barbus-B. meridionalis genome was performed for CA, GA, TAT, TCT, TAG, TGT, TATT, TACT, ATCT motifs, and simultaneously on another fish species, tilapia S. melanotheron. Sequences of positive clones were obtained for Barbus and revealed that repetitive structure significantly depends on the motif: most TAT and TATT repeats contain small numbers of repeats, and these repeats are highly heterogeneous, whereas other motifs (we mainly obtained CA and GATA repeats) form longer and much more homogeneous arrays. Polymorphism data from five loci in two different species of barbel show that perfectly repetitive loci are much more variable than imperfect loci (TAT and TATT). We compared the frequency of positive clones for different repeat motifs between barbel and tilapia. For dinucleotide repeats (CA and GA), the comparison was extended to additional fish species, trout and sea bass, which were screened in nearly identical conditions for these motifs. The most salient feature of these comparisons reveals that arrays of dinucleotide motifs are significantly under-represented and shorter in Barbus than in other fish species. We propose an explanation that can account for most features of microsatellites characterizing the genome of barbel. A bias toward deletion affecting slipped-strand mispairing events would lead to shortening and loss of microsatellite loci. Such a bias would represent an efficient way of eliminating useless DNA from polyploidized species with an excessive amount of DNA.