Structure of the central spacer region of extrachromosomal ribosomal DNA in Physarum polycephalum

We have analyzed the sequence organization of the central spacer region of the extrachromosomal ribosomal DNA from two strains of the acellular slime mold Physarum polycephalum. It had been inferred previously from electron microscopy that this region, which comprises about one third of the 60 kb ‡ ‡ Abbreviations used: kb, 10 3 base-pairs; bp, base-pairs. palindromic rDNA, contains a complex series of inverted repetitious sequences. By partial digestion of end-labeled fragments isolated from purified rDNA and from rDNA fragments cloned in Escherichia coli, we have constructed a detailed restriction map of this region. The 11 kb of spacer DNA of each half molecule of rDNA contains the following elements: (a) two separate regions, one of 1.1 kb and one of 2.1 kb, composed of many direct repeats of the same 30 base-pair unit; (b) a region of 4.4 kb composed of a complex series of inverted repeats of a 310 base-pair unit; (c) another region of 1.6 kb composed of inverted repeats of the same 310 base-pair unit located directly adjacent to the center of the rDNA; (d) two copies of a unique sequence of 0.85 kb, which probably contains a replication origin. Some of the CpG sequences in the spacer resist cleavage by certain restriction endonucleases and thus appear to be methylated. The lack of perfect symmetry about the central axis and the arrangement of inverted repeated sequences explain the complex pattern of branches and forks of the fold-back molecules previously observed by electron microscopy. Comparison of the rDNA restriction maps from the two strains of Physarum suggests that the repeat units in the spacer are undergoing concerted evolution. We propose a model to explain the evolutionary origin of the several palindromic axes in the Physarum rDNA spacer.