Mitochondrial RNA polymerase (POLRMT) is a core protein for mitochondrial DNA (mtDNA) transcription. In addition, POLRMT is assumed to be involved in replication, although its exact role is not yet clearly elucidated. We have found novel properties of human POLRMT using a reconstituted transcription system. Various lengths of RNA molecules were synthesized from templates even without a defined promoter sequence, when we used supercoiled circular doublestranded DNA as a template. This promoter-independent activity was as strong as the promoterdependent one. Promoter-independent DNA conformation-dependent transcription required TFB2M. On supercoiled templates, the promoter-independent activity was strongly suppressed by a putatively physiological amount of TFAM, while promoter-dependent transcription was inhibited to a lesser extent. These different inhibition patterns by TFAM may be important for prevention of random RNA synthesis in vivo. Promoter-independent activity was also observed on relaxed circular single-stranded DNA, where its activity no longer required TFB2M. RNA synthesis on single-stranded DNA was weakly suppressed by a putatively physiological amount of TFAM but restored by the addition of mitochondrial single-stranded DNA binding protein.We suggest that these properties of POLRMT could explain the characteristic features of mammalian mtDNA transcription and replication.
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