Abstract

The entire 16.7-kilobase (kb) transcribed region of the Leishmania tarentolae maxicircle was compared to the entire 15-kb transcribed region of the Trypanosoma brucei maxicircle at the nucleotide sequence level by dot matrix analysis and by alignments of individual genes. The L. tarentolae NADH dehydrogenase subunit 1 (ND1) gene was identified in a newly obtained 2.9-kb sequence. All but two regions which flank the cytochrome b gene are highly conserved in both species. One 3.1-kb region in L. tarentolae that contains the cytochrome oxidase subunit III (COIII) gene and several open reading frames corresponds to a 2-kb sequence in T. brucei with limited sequence homology that lacks the COIII gene. Another 0.6-kb region that comprises an unidentified open reading frame (open reading frame 12) in L. tarentolae is substituted by a nonhomologous 0.4-kb open reading frame in T. brucei. A short intergenic region between the ND1 gene and the maxicircle unidentified reading frame 1 gene shows limited sequence homology, and the regions between the ND4 and ND5 genes and between the COI and ND4 genes are not conserved. All of the intergenic regions share G + C richness and a similar pattern of G versus C strand bias. 1.8 kb of the L. tarentolae divergent region (DV) and around 3 kb of the T. brucei DV were also obtained. The T. brucei DV sequences were not homologous to the L. tarentolae DV sequence but were organized in a similar fashion with tandem repeats of varying complexity.