Authors
Cascino, J. A., Dierksheide, K. J., Vishwakarma, R. K., Yuzenkova, Y., Babitzke, P., Murakami, K., Li, G.-W.
Abstract
Cyanobacteria are the most abundant phototrophs and hold potential as a carbon-negative platform for bioengineering applications. However, these efforts have been hampered by limited mechanistic understanding of their gene expression, including transcription termination. Unlike most bacteria, cyanobacteria lack the transcription termination factor Rho, raising the speculation that all transcription ends with intrinsic terminators. Here we show that most transcription units (TUs) in Synechococcus elongatus PCC 7942 are not terminated by known termination pathways. Although many TUs (52%) have unique, well-defined 3' ends, only a small fraction have features that resemble canonical intrinsic terminators (22%). The noncanonical 3' ends broadly lacked strong secondary structure, making it unclear how these ends are protected against 3'-5' exonucleolytic decay. Furthermore, many TUs (46%) have diverse positions of mRNA 3' ends, suggesting a potentially diffuse termination signal. Finally, we observed a moderate increase in RNA levels downstream of most defined 3' ends in the absence of the transcription-repair coupling factor Mfd. This finding indicates that Mfd plays a limited, but widespread, role in RNA end formation, potentially through termination of stalled RNAPs. Together, our work reveals unique end architectures of the cyanobacterial transcriptome and suggests that undescribed transcription termination mechanisms are active in the phylum.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 12 Nov 2025.
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