A major satellite DNA of soybean is a 92-base pairs tandem repeat

We report the cloning, sequencing and analysis of the major repetitive DNA of soybean (Glycine max). The repeat, SB92, was cloned as several monomers and trimers produced by digestion with XhoI. The deduced consensus sequence of the repeat is 92 base pairs long. Genomic sequences do not fluctuate in length. Their average homology to the consensus sequence is 92%. The consensus of SB92 contains slightly degenerated homologies for several 6-cutters. Therefore, many of them generate a ladder of 92-bp oligomers. The distribution of bands seems to be random, but the occurrence of sites for different 6-cutters varies widely. There is no obvious correlation between the sequences of the neighboring units of SB92 in cloned trimers. Also, there are none of the internal repetitive blocks reported for many satellite DNAs from other species. The SB92 repeat makes up 0.7% of total soybean DNA. This is equivalent to 8×10⁴ copies, or 7 megabases. The repeat is organized in giant tandem blocks over 1 Mb in length, and there are fewer blocks than chromosomes. The polymorphism of these blocks is extremely high. The SB92 repeat is present in identical arrangement and number of copies in the ancestral subspecies Glycine soja. There are 10 times fewer copies of the repeat in a related species Vigna unguiculata (cowpea), and no homologies in several other more distant leguminous plants studied.