Curated Optogenetic Publication Database

Abstract: The photoactivated adenylyl cyclase TpPAC from the spirochete bacterium Turneriella parva was synthesized and the purified recombinant protein was characterized by biochemical and optical spectroscopic methods. TpPAC consists of a BLUF domain (BLUF = Blue Light sensor Using Flavin) and an adenylyl cyclase homology domain (CHD). A light induced cAMP cyclase activity of ≈ 53.3 nmolmg(-1)min(-1) was measured while in the dark the cyclase activity was approximately a factor of 240 lower. The photo-cycling dynamics of the BLUF domain of TpPAC was studied by absorption spectra, fluorescence quantum distribution, and fluorescence lifetime measurements. The quantum efficiency of BLUF domain signaling state formation was found to be ϕs ≈ 0.59. A three-component exponential recovery of the signaling state to the receptor state was observed with the time constants τrec,1 = 4.8s, τrec,2 = 34.2s, and τrec,3 = 293s at 21.3 °C. The protein thermal stability was studied by stepwise sample heating and cooling. An apparent TpPAC melting temperature of ϑm ≈ 46 °C was determined. The photo-degradation of TpPAC in the signaling state was studied by prolonged intense light exposure at 455 nm. An irreversible flavin photo-degradation was observed with quantum yield ϕD ≈ 8.7 × 10(-6).

Abstract: The absorption and emission spectroscopic behavior of the photo-activated adenylyl cyclase NgPAC3 from the amoeboflagellate Naegleria gruberi NEG-M strain was studied. The flavin cofactor was found to be partly fully oxidized and partly fully reduced. The typical BLUF domain (BLUF = Blue Light sensor Using Flavin) oxidized flavin absorption photo-cycle dynamics with about 14 nm flavin absorption red-shift in the signaling state was observed. The quantum efficiency of signaling state formation was determined to be s = 0.66 ± 0.03. A bi-exponential signaling state recovery to the dark-adapted receptor state was observed with the time constants rec,f = 275 s and rec,sl = 45 min. The thermal irreversible protein unfolding was studied and an apparent protein melting temperature of ϑm ≈ 50 ◦C was found. The photodynamic behavior of NgPAC3 is compared with the behavior of the previously investigated photo-activated cyclases NgPAC1 (nPAC) and NgPAC2 from the same N. gruberi NEG-M strain. Purified recombinant NgPAC3 showed light-gated adenylate cyclase activity upon illumination with blue light. Its cyclase activity is compared with those of NgPAC1 and NgPAC2.

Abstract: The absorption and emission spectroscopic behavior of the photo-activated adenylate cyclase NgPAC2 from the amoeboflagellate Naegleria gruberi NEG-M strain was studied in the dark, during blue-light exposure and after blue-light exposure. The typical BLUF domain (BLUF = Blue Light sensor Using Flavin) flavin cofactor absorption and fluorescence photo-cycle dynamics was observed. For fresh samples a reversible concentration dependent protein oligomerization occurred showing up in free flavin binding and protein color center formation with increasing protein concentration. Thermal and temporal irreversible protein unfolding with loss of BLUF domain activity was investigated. Temperature dependent protein melting times and the apparent protein melting temperature were determined. The photodynamic behavior of the NgPAC2 is compared with the behavior of the previously investigated photo-activated cyclase NgPAC1 (nPAC) from the same N. gruberi NEG-M strain.

Abstract: The BlrP1 protein from the enteric bacterium Klebsiella pneumoniae consists of a BLUF and an EAL domain and may activate c-di-GMP phosphodiesterase by blue-light. The full-length protein, BlrP1, and its BLUF domain, BlrP1_BLUF, are characterized by optical absorption and emission spectroscopy. The cofactor FAD in its oxidized redox state (FADox) is brought from the dark-adapted receptor state to the 10-nm red-shifted putative signalling state by violet light exposure. The recovery to the receptor state occurs with a time constant of about 1 min. The quantum yield of signalling state formation is about 0.17 for BlrP1_BLUF and about 0.08 for BlrP1. The fluorescence efficiency of the FADox cofactor is small due to photo-induced reductive electron transfer. Prolonged light exposure converts FADox in the signalling state to the fully reduced hydroquinone form FADredH and causes low-efficient chromophore release with subsequent photo-degradation. The photo-cycle and photo-reduction dynamics in the receptor state and in the signalling state are discussed.