Chromosomal distribution and evolution of repetitive DNAs in fish.

Fish exhibit the greatest diversity of all vertebrates, making this group extremely attractive for the study of a number of evolutionary questions. Fish genomes have intrinsic characteristics that may be responsible for the amazing diversity of fish species observed, but little is known about their structure and organization. A large amount of data from mapping of repetitive DNA sequences of several species has been generated, providing an important source of information for better understanding the involvement of repetitive DNA sequences in chromosomal organization. Almost all classes of repeated DNAs have been mapped in fishes, and all fish genomes analyzed contain at least one, mostly all types of repetitive DNAs. DNA sequence data combined with the chromosomal mapping of these repeated elements by means of cytogenetic techniques can provide a clearer picture of the genome, which is not yet clearly defined, even if already sequenced. In this chapter, we do not aim to analyze all available data on the chromosomal distribution of repetitive DNAs in fish species, but instead wish to draw attention to the impact of repetitive DNA sequences on fish karyotyping and genome evolution, with a particular focus on B chromosome origin and maintenance and on the differentiation of sex chromosomes. We also discuss the integration of chromosome analysis and genomic data, which represents a promising tool for fish cytogenomics.