Transcriptional Characterization of Nuclear-Integrated Organellar DNA in Populus
Transcriptional Characterization of Nuclear-Integrated Organellar DNA in Populus
Arneson, R.; Wittstock, W.; Marceau, A.; Yuan, Y.
AbstractThe continuous transfer of organellar DNA into the nuclear genome during eukaryotic evolution has resulted in the widespread occurrence of nuclear plastid DNA insertions (NUPTs) and nuclear mitochondrial DNA insertions (NUMTs). However, their functional significance in nuclear gene expression and genome evolution remains largely unresolved. In this study, we employed Oxford Nanopore Direct RNA Sequencing (DRS) to investigate the transcription of NUPTs and NUMTs in the Populus nuclear genome and compared their transcriptional characteristics with their genome-wide insertion patterns. Our analyses revealed that the majority of transcribed NUPTs and NUMTs are enriched within introns and are co-transcribed with their host or adjacent genes in polycistronic-like transcriptional units. In addition, NUPTs and NUMTs frequently generate intronless transcripts, features reminiscent of their prokaryotic ancestry. We further identified a putatively functional NUPT-derived psbH gene that is unique to P. trichocarpa, providing new insights into the evolution of nuclear-encoded organelle-targeted genes. In addition, we identified transcribed NUPT and NUMT insertion polymorphisms among alleles, suggesting that organellar DNA insertions contribute to allelic variation and may participate in environmental adaptation. Collectively, our findings reveal previously unrecognized roles of NUPT and NUMT transcription in gene regulation, allelic variation, genome evolution, and the emergence of novel genes.