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Phase separation drives the self-assembly of mitochondrial nucleoids for transcriptional modulation.

Qi LongYanshuang ZhouHao WuShiwei DuMingli HuJuntao QiWei LiJingyi GuoYi WuLiang YangGe XiangLiang WangShouhua YeJiayuan WenHeng MaoJunwei WangHui ZhaoWai Yee ChanJin-Song LiuYonglong ChenPilong LiXingguo Liu
Published in: Nature structural & molecular biology (2021)
Mitochondria, the only semiautonomous organelles in mammalian cells, possess a circular, double-stranded genome termed mitochondrial DNA (mtDNA). While nuclear genomic DNA compaction, chromatin compartmentalization and transcription are known to be regulated by phase separation, how the mitochondrial nucleoid, a highly compacted spherical suborganelle, is assembled and functions is unknown. Here we assembled mitochondrial nucleoids in vitro and show that mitochondrial transcription factor A (TFAM) undergoes phase separation with mtDNA to drive nucleoid self-assembly. Moreover, nucleoid droplet formation promotes recruitment of the transcription machinery via a special, co-phase separation that concentrates transcription initiation, elongation and termination factors, and retains substrates to facilitate mtDNA transcription. We propose a model of mitochondrial nucleoid self-assembly driven by phase separation, and a pattern of co-phase separation involved in mitochondrial transcriptional regulation, which orchestrates the roles of TFAM in both mitochondrial nucleoid organization and transcription.
Keyphrases
  • transcription factor
  • mitochondrial dna
  • oxidative stress
  • copy number
  • dna damage
  • genome wide
  • cell death
  • dna methylation
  • nucleic acid