The C-terminal region affects the activity of photoactivated adenylyl cyclase from Oscillatoria acuminata

• Published in: Scientific reports Vol. 9; no. 1; pp. 20262 - 8
• Main Authors: Hirano, Minako, Takebe, Masumi, Ishido, Tomoya, Ide, Toru, Matsunaga, Shigeru
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 30.12.2019; Nature Publishing Group; Nature Portfolio
• Subjects: 631/45/56; 631/57; Adenylate cyclase; Adenylyl Cyclases - metabolism; Amino acids; Bacterial Proteins - metabolism; Cyclic AMP - metabolism; Deletion mutant; Genetics; Humanities and Social Sciences; Information processing; Light; multidisciplinary; Optics; Oscillatoria - metabolism; Oscillatoria acuminata; Science; Science (multidisciplinary)
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-019-56721-3

Photoactivated adenylyl cyclase (PAC) is a unique protein that, upon blue light exposure, catalyzes cAMP production. The crystal structures of two PACs, from Oscillatoria acuminata (OaPAC) and Beggiatoa sp. (bPAC), have been solved, and they show a high degree of similarity. However, the photoactivity of OaPAC is much lower than that of bPAC, and the regulatory mechanism of PAC photoactivity, which induces the difference in activity between OaPAC and bPAC, has not yet been clarified. Here, we investigated the role of the C-terminal region in OaPAC, the length of which is the only notable difference from bPAC. We found that the photoactivity of OaPAC was inversely proportional to the C-terminal length. However, the deletion of more than nine amino acids did not further increase the activity, indicating that the nine amino acids at the C-terminal critically affect the photoactivity. Besides, absorption spectral features of light-sensing domains (BLUF domains) of the C-terminal deletion mutants showed similar light-dependent spectral shifts as in WT, indicating that the C-terminal region influences the activity without interacting with the BLUF domain. The study characterizes new PAC mutants with modified photoactivities, which could be useful as optogenetics tools.