Autoregulation of the Master Regulator Spo0A Controls Cell-Fate Decisions in Bacillus subtilis

Spo0A in Bacillus subtilis is activated by phosphorylation (Spo0A similar to P) upon starvation and differentially controls a set of genes involved in biofilm formation and sporulation. The spo0A gene is transcribed by two distinct promoters, a sigma(A)-recognized upstream promoter Pv during growth, and a sigma(H)-recognized downstream promoter Ps during starvation, and appears to be autoregulated by four Spo0A similar to P binding sites (0A1-4 boxes) localized between two promoters. However, the autoregulatory mechanisms and their impact on differentiation remain elusive. Here, we determined the relative affinity of Spo0A similar to P for each 0A box and dissected each promoter in combination with the systematic 0A box mutations. The data revealed that (1) the Pv and Ps promoters are on and off, respectively, under nutrient-rich conditions without Spo0A similar to P, (2) the Ps promoter is activated by first 0A3 and then 0A1 during early starvation with low Spo0A similar to P, (3) during later starvation with high Spo0A similar to P, the Pv promoter is repressed by first 0A1 and then 0A2 and 0A4, and (4) during prolonged starvation, both promoters are silenced by all 0A boxes with very high Spo0A similar to P. Our results indicate that the autoregulation of spo0A is one of the key determinants to achieve a developmental increase in Spo0A similar to P, leading to a temporal window for entry into biofilm formation or sporulation.