Phage Lambda CIII: A Protease Inhibitor Regulating the Lysis-Lysogeny Decision
TLDR
Genetic experiments confirmed that the CIII bacteriostatic effects are due to inhibition of FtsH, and suggested that CIII oligomrization is required for its function.Abstract:
The ATP-dependent protease FtsH (HflB) complexed with HflKC participates in post-translational control of the lysis-lysogeny decision of bacteriophage lambda by rapid degradation of lambda CII. Both phage-encoded proteins, the CII transcription activator and the CIII polypeptide, are required for efficient lysogenic response. The conserved CIII is both an inhibitor and substrate of FtsH. Here we show that the protease inhibitor CIII is present as oligomeric amphipathic α helical structures and functions as a competitive inhibitor of FtsH by preventing binding of the CII substrate. We identified single alanine substitutions in CIII that abolish its activity. We characterize a dominant negative effect of a CIII mutant. Thus, we suggest that CIII oligomrization is required for its function. Real-time analysis of CII activity demonstrates that the effect of CIII is not seen in the absence of either FtsH or HflKC. When CIII is provided ectopically, CII activity increases linearly as a function of the multiplicity of infection, suggesting that CIII enhances CII stability and the lysogenic response. FtsH function is essential for cellular viability as it regulates the balance in the synthesis of phospholipids and lipopolysaccharides. Genetic experiments confirmed that the CIII bacteriostatic effects are due to inhibition of FtsH. Thus, the early presence of CIII following infection stimulates the lysogenic response, while its degradation at later times ensures the reactivation of FtsH allowing the growth of the established lysogenic cell.read more
Citations
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References
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Proteases and their targets in Escherichia coli.
TL;DR: Many of the specific proteases found in E. coli are well-conserved in both prokaryotes and eukaryotes, and serve critical functions in developmental systems.
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A genetic switch
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A Genetic Switch, Phage Lambda Revisited
TL;DR: This chapter discusses the master elements of control, which are the key experiments in protein-DNA interactions and gene control and the design of control circuits.
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Mutations in a temperate bacteriophage affecting its ability to lysogenize Escherichia coli
TL;DR: The kinetics of cooperation suggest the existence of an intermediate state in lysogenization, and forty independently occurring clear plaque-forming mutants of λ have been isolated, among them three different phenotypes can be recognized.
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Switches in bacteriophage lambda development.
TL;DR: How a relatively simple phage like lambda employs a complex genetic network in decision-making processes, providing a challenge for theoretical modeling is discussed.