PlantSat: a specialized database for plant satellite repeats

MOTIVATION: Tandemly organized repetitive sequences (satellite DNA) are widespread in complex eukaryotic genomes. In plants, satellite repeats often represent a substantial part of nuclear DNA but only a little is known about the molecular mechanisms of their amplification and their possible role(s) in genome evolution and function. Unfortunately, addressing these questions via characterization of general sequence properties of known satellite repeats has been hindered by a difficulty in obtaining a complete and unbiased set of sequence data for this analysis. This is mainly due to the presence of multiple entries of homologous sequences and of single entries that contain more than one repeated unit (monomer) in the public databases. RESULTS: We have established a computer database specialized for plant satellite repeats (PlantSat) that integrates sequence data available from various resources with supplementary information including repeat consensus sequences, abundances, and chromosomal localizations. The sequences are stored as individual repeat monomers grouped into families, which simplifies their computer analysis and makes it more accurate. Using this feature, we have performed a basic sequence analysis of the whole set of plant satellite repeats with respect to their monomer length and nucleotide composition. The analysis revealed several preferred length ranges of the monomers (approximately 165 bp and its multiples) and an over-representation of the AA/TT dinucleotide in the repeats. We have also detected an enrichment of satellite DNA sequences for the motif CAAAA that is supposed to be involved in breakage-reunion of repeated sequences.     

Mitochondrial telomeres: surprising diversity of repeated telomeric DNA sequences among six species of Tetrahymena

The DNA sequences at the ends of the linear mtDNA of 6 species of Tetrahymena encompassing 13 strains were determined. All the strains have variable numbers of a tandemly repeated DNA sequence, 31 bp to 53 bp in size, at their mtDNA termini. Based upon the size and nucleotide sequence of the terminal repeats, the telomeres can be separated into four classes. T. pigmentosa, hyperangularis, and hegewischi have different telomeric repeats on the two ends of their mtDNAs. The only conserved feature of the mtDNA termini is the presence of tandem repeats. The function of the repeats might be to promote unequal crossing over during recombination, thereby overcoming the problem of telomere replication for these linear DNAs.     

Sequence organization of repetitive sequences enriched in small polydisperse circular DNAs from HeLa cells

A total of 36 clones were randomly selected from a recombinant DNA library of small polydisperse circular DNA (spcDNA) molecules from HeLa cells and were shown to contain repetitive sequences of different reiteration frequencies that ranged from several hundred to several hundred thousand per genome. Sequencing of representative clones revealed tandem repeats of alphoid (alpha) satellite DNA, clustered repeats of the Alu family, KpnI family sequences, tandem repeats of an alpha satellite DNA specific to the X chromosome (alpha X), and A + T-rich segments carrying short stretches of poly(A) or poly(T). DNA rearrangement was frequently found in the repetitive sequences enriched in these spcDNA clones. Short regions of homology that were patchy and inverted were often found, especially at the novel joint where spcDNA sequences are circularized. The presence of these inverted repeats suggests that HeLa spcDNAs are formed by a mechanism that involves looping out of the spcDNA region and joining of the flanking DNA by illegitimate recombination.