Human Sau3A repeated DNA is enriched in small polydisperse circular DNA from normal lymphocytes

Representatives of the Sau3A family of short human repeated sequences [Meneveri et al., J. Mol. Biol. 186 (1985) 483-489] have been isolated from the small polydisperse circular DNA (spcDNA) of peripheral human lymphocytes. The prototype repeat is a 72-bp element which is at least partially tandemly repeated in spcDNA and human genomic DNA. In comparison with three major families of human repeated DNA, the Sau3A repeats are enriched in spcDNA. The function of spcDNA in normal and transformed eukaryotic cells is not understood and most studies have attempted to resolve this problem by molecular analysis of circular DNA isolated from cells in culture [see Rush and Misra, Plasmid 14 (1985) 177-191 for references]. We have studied the spcDNA present in normal uncultured human lymphocytes and present data pointing to the selective accumulation of the Sau3A family of repeated DNA within this population. The sequences of twelve of these repeats, the consensus sequence for this family and the sequence of a genomic repeat, are presented.     

Molecular cloning and characterization of novel centromeric repetitive DNA sequences in the blue-breasted quail (Coturnix chinensis,Galliformes)

A new family of centromeric highly repetitive DNA sequences was isolated from EcoRI-digested genomic DNA of the blue-breasted quail (Coturnix chinensis, Galliformes), and characterized by filter hybridization and chromosome in situ hybridization. The repeated elements were divided into two types by nucleotide length and chromosomal distribution; the 578-bp element predominantly localized to microchromosomes and the 1,524-bp element localized to chromosomes 1 and 2. The 578-bp element represented tandem arrays and did not hybridize to genomic DNAs of other Galliformes species, chicken (Gallus gallus), Japanese quail (Coturnix japonica) and guinea fowl (Numida meleagris). On the other hand, the 1,524-bp element was not organized in tandem arrays, and did hybridize to the genomic DNAs of three other Galliformes species, suggesting that the 1,524-bp element is highly conserved in the Galliformes. The 578-bp element was composed of basic 20-bp internal repeats, and the consensus nucleotide sequence of the internal repeats had homologies to the 41-42 bp CNM repeat and the XHOI family repeat of chicken. Our data suggest that the microchromosome-specific highly repetitive sequences of the blue-breasted quail and chicken were derived from a common ancestral sequence, and that they are one of the major and essential components of chromosomal heterochromatin in Galliformes species.     

Sequence definition and organization of a human repeated DNA

DNA sequence data for a DNA repeated sequence, found largely in centromeres of specific human chromosomes is presented. The sequence consists of two tandem 169 and 171 base-pair units that show 27% base variation with each other. In contrast the dimer is more faithfully copied in longer tandem repeats, such as the sequenced 680 base-pair tetramer. In the major sequence of the tetramer, base variation of the order of only 1%, in comparison to the complete dimer is seen. A minimum of two steps in the formation of this sequence is proposed, consisting of evolution of a tandem dimer of two 170 base-pair variant units of a related family within the human genome, and later saltation or amplification of this dimer. No evidence that these sequences contained or evolved from a simpler 6 to 20 base-pair repeat was found, and no homology with known simpler human satellites could be discerned. In reviewing and comparing the literature on repeated DNAs it appears that overall length and tandem repetition are the critical features, rather than individual unit repeat length or secondary structural potential, in defining these sequences as a class and their special centromeric functions and higher chromosome order. The possibility that such sequences arise from a reservoir of interspersed sequences that are common to at least several species is discussed.     

Base sequence studies of 300 nucleotide renatured repeated human DNA clones

A band of 300 nucleotide long duplex DNA is released by treating renatured repeated human DNA with the single strand-specific endonuclease S₁. Since many of the interspersed repeated sequences in human DNA are 300 nucleotides long, this band should be enriched in such repeats. We have determined the nucleotide sequences of 15 clones constructed from these 300 nucleotide S₁-resistant repeats. Ten of these cloned sequences are members of the Alu family of interspersed repeats. These ten sequences share a recognizable consensus sequence from which individual clones have an average divergence of 12.8%. The 300 nucleotide Alu family consensus sequence has a dimeric structure and was evidently formed from a head to tail duplication of an ancestral monomeric sequence. Three of the remaining clones are variations on a simple pentanucleotide sequence previously reported for human satellite III DNA. Two of the 15 clones have distinct and complex sequences and may represent other families of interspersed repeated sequences.     

A 5.9-kb tandem repeat at the euchromatin-heterochromatin boundary of the X chromosome of Drosophila melanogaster

We present an analysis of a chromosomal walk in the region of the euchromatin-heterochromatin transition at the base of the X chromosome of Drosophila melanogaster. This region is difficult to analyse because of the presence of repeated sequences, and we have used cosmids to walk from the last euchromatic gene, suppressor of forked, towards the pericentric heterochromatin. The proximal 30-kb sequence we have isolated consists of repetitive DNA, including four tandem copies of a 5.9-kb sequence. This tandem repeat is itself a mosaic of other, mostly repeated, sequences, including part of a retrotransposon without long terminal repeats, a simple-sequence region of TAA repeats and part of a retrotransposon with long terminal repeats that has not been previously described. Although sequences homologous to these components are found elsewhere in the genome, this arrangement of repeated sequences is only found at the base of the X chromosome. It is conserved in D. melanogaster strains of different geographic origin, but is not conserved in even closely related species.     

The human THE-LTR(O) and MstII interspersed repeats are subfamilies of a single widely distributed highly variable repeat family.

Fifteen examples of the transposon-like human element (THE) LTR and thirteen examples of the MstII interspersed repeat are aligned to generate new consensus sequences for these human repetitive elements. The consensus sequences of these elements are very similar, indicating that they compose subfamilies of a single human interspersed repetitive sequence family. Members of this highly polymorphic repeat family have been mapped to at least 11 chromosomes. Seven examples of the THE internal sequence are also aligned to generate a new consensus sequence for this element. Estimates of the abundance of this repetitive sequence family, derived from both hybridization analysis and frequency of occurrence in GenBank, indicate that THE-LTR/MstII sequences are present every 100-3000 kb in human DNA. The widespread occurrence of members of this family makes them useful landmarks, like Alu, L1, and (GT)n repeats, for physical and genetic mapping of human DNA.