Analysis by electron microscopy of the variable segment in the maxi-circle of kinetoplast DNA from Trypanosoma brucei

Abstract

The 20.5-kbp maxi-circle from the kinetoplast DNA of Trypanosoma brucei contains a 5-kbp segment which is not cut by most restriction endonucleases and which varies in size in closely-related trypanosome strains (Borst, P., Fase-Fowler, F., Hoeijmakers, J.H.J. and Frasch, A.C.C. (1980) Biochim. Biophys. Acta 610, 197–210). We have now analysed partial denaturation maps of the linearized maxi-circles by electron microscopy and find that the variable segment is not more AT-rich than the remainder of the maxi-circle. Early denaturation begins at two separate regions of the maxi-circle outside the variable region and one of these corresponds with the position of the gene for the large (12 S) ribosomal RNA. Denaturation-renaturation of maxi-circles leads to the formation of partially mismatched duplexes that look like underwound loops in electron micrographs. These loops are only found in the variable region and they vary in size and appearance. Under our renaturation conditions single-stranded maxi-circle DNA is devoid of secondary structure and this suggests that the underwound loops arise by misalignment of straight tandem repeats in the DNA. We have also analysed heteroduplexes between maxi-circles from two closely related T. brucei strains that differ by 1 kbp in the size of their variable segment. Most molecules had no underwound loops and contained mismatched regions in the variable segment only. The appearance of these regions is diverse, varying from fully duplex with two single-stranded loops to molecules with a heterogeneous array of smaller loops. The total size of single-stranded DNA in the heteroduplexes may be as high as 1.2 μm, i.e., a factor 4 higher than the size difference between the heteroduplex partners. We conclude that the variable region consists of imperfect tandem repeats of a sequence that evolves rapidly. This region might contain the origin of maxi-circle replication.