Abstract
Despite the theoretical and experimental progress, our understanding on sex chromosome differentiation is still diagrammatic. The accumulation of repetitive DNA sequences is believed to occur in early stages of such differentiation. As fish species present a wide range of sex chromosome systems they are excellent models to examine the differentiation of these chromosomes. In the present study, the chromosomal distribution of 9 mono-, di- and tri-nucleotide microsatellites were analyzed using fluorescence in situ hybrization (FISH) in rock bream fish (Oplegnathus fasciatus), which is characterized by an X1X2Y sex chromosome system. Generally, the males and females exhibited the same autosomal pattern of distribution for a specific microsatellite probe. The male specific Y chromosome displays a specific amount of distinct microsatellites repeats along both arms. However, the accumulation of these repetitive sequences was not accompanied by a huge heterochromatinization process. The present data provide new insights into the chromosomal constitution of the multiple sex chromosomes and allow further investigations on the true role of the microsatellite repeats in the differentiation process of this sex system.
Highlights
The origin and evolution of sex chromosomes are among the most interesting topics in evolutionary genetics
Karyotyping Oplegnathus fasciatus showed 2n = 48 chromosomes (46a + 2 m) in the female and 2n = 47 chromosomes (44a + 3 m) in the male specimens. This specific sex karyotype is determined by the characteristic multiple sex chromosome system, with X1X1X2X2 chromosomes in the females and X1X2Y chromosomes in the males, where the Y chromosome corresponds to a metacentric one, recognized by its larger size compared to the other chromosomes
Chromosomal distribution of microsatellites on autosomes Our results were able to evidence that the distribution of the microsatellites in the chromosomes of the rock bream fish differs among the distinct repeats analyzed
Summary
The origin and evolution of sex chromosomes are among the most interesting topics in evolutionary genetics. The processes working on sex chromosome differentiation are still not completely understood. The accumulation of repetitive DNA sequences is one of the first probable steps in the early stages of such differentiation [2,3,4]. A clear correlation between sex chromosomes and repetitive DNAs has been evidenced by a number of studies [4,6,7,8,9,10,11], suggesting that the differentiation of sex chromosomes is frequently associated with the accumulation of such repetitive sequences. The chromosomal mapping of repetitive DNAs has provided new insights for understanding genome evolution and was useful to reveal the process of sex chromosome differentiation in many vertebrate species
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