Abstract
The filamentous cyanobacterium Anabaena sp. PCC 7120 develops N2-fixing heterocyst cells under condition of combined-nitrogen deprivation and constitutes an excellent model for studying cell differentiation. The mechanism of heterocyst development has been extensively investigated and a network of regulating factors has been identified. A few studies have showed that the process of heterocyst differentiation relates with cell cycle events, but further investigation is still required to understand this relationship. In a previous study, we created a conditional mutant of PolI encoding gene, polA, by using a CRISPR/Cpf1 gene-editing technique. Here, we were able to create another conditional mutant of a PolIII encoding gene dnaENI using a similar strategy and subsequently confirmed the essential roles of both polA and dnaENI in DNA replication. Further investigation on the phenotype of the mutants showed that lack of PolI caused defects in chromosome segregation and cell division, while lack of DnaENI (PolIII) prevented bulk DNA synthesis, causing significant loss of DNA content. Our findings also suggested the possible existence of a SOS-response like mechanism operating in Anabaena PCC 7120. Moreover, we found that heterocyst development was differently affected in the two conditional mutants, with double heterocysts/proheterocysts found in PolI conditional mutant. We further showed that formation of such double heterocysts/proheterocysts are likely caused by the difficulty in nucleoids segregation, resulting delayed, or non-complete closure of the septum between the two daughter cells. This study uncovers a link between DNA replication process and heterocyst differentiation, paving the way for further studies on the relationship between cell cycle and cell development.
Highlights
Cyanobacteria are some of the most abundant organisms on earth and exhibit tremendous diversities in cell shape, life cycle and cellular metabolism
Our results showed that except for the growth defect in both mutants, prevention of polymerase gene (polA) expression resulted in morphological changes of vegetative cells and appearance of double heterocysts/proheterocysts possibly caused by cell division arrest, suggesting a complex relationship among chromosome replication, cell division, heterocyst development, and a possible SOS response
7120, we succeeded in knocking out the gene alr2009 encoding the replication initiation factor DnaA, and the mutant did not affect cell growth nor heterocyst development, confirming a previous report showing that DnaA is not essential in Anabaena PCC 7120 (Ohbayashi et al, 2016; Supplementary Figure S1)
Summary
Cyanobacteria are some of the most abundant organisms on earth and exhibit tremendous diversities in cell shape, life cycle and cellular metabolism. Our results showed that except for the growth defect in both mutants, prevention of polA expression resulted in morphological changes of vegetative cells and appearance of double heterocysts/proheterocysts possibly caused by cell division arrest, suggesting a complex relationship among chromosome replication, cell division, heterocyst development, and a possible SOS response. Our study showed how reduced expression of DNA polymerase genes exerts detrimental effects on cells of Anabaena PCC 7120 and opens a new window for our understanding on heterocyst development in cyanobacteria. 7120, we succeeded in knocking out the gene alr2009 encoding the replication initiation factor DnaA, and the mutant did not affect cell growth nor heterocyst development, confirming a previous report showing that DnaA is not essential in Anabaena PCC 7120 (Ohbayashi et al, 2016; Supplementary Figure S1). The obtained conditional mutant CT-dnaENI strain, together with previously constructed TRS-polA, were used for further characterization
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