Kinetoplast DNA structure, RNA editing patterns and small respiratory Complex I in Trypanosoma musculi.
Ju-Feng Wang, Ying-Xin Bi, Michael Hammond, Julius Lukeš, De-Hua Lai, Zhao-Rong Lun
Abstract
Open AccessKinetoplast (k) DNA, a specialized form of mitochondrial DNA in trypanosomes, is composed of catenated maxicircles and minicircles, and is essential for the survival of these parasitic protists. In this study, we provide a detailed description of the near-complete minicircle complement of Trypanosoma musculi, a globally distributed, mouse-specific haemoflagellate. We have identified 39 minicircle classes, which can be grouped via their structural organization into five distinct categories. Using RNA-seq, we have reconstructed mitochondrial transcripts of ATP6, RPS12, CYTB, COX2 and COX3, all of which undergo canonical editing that renders them translatable, as well as abnormally edited transcripts of four respiratory Complex I subunits. Additionally, through a combined analysis of the kDNA minicircles, edited mRNAs and small RNAs, we identified 108 guide (g)RNA genes and further categorized their conservation in comparison with Trypanosoma lewisi, an opportunistic human parasite. Moreover, we demonstrate a small respiratory Complex I in T. musculi, highlighting the functional consequences of missing gRNAs. Finally, we propose a model for the evolutionary maintenance of gRNAs, contributing to our understanding of kDNA dynamics in trypanosomes and other kinetoplastid flagellates.