Aba Losi scite author profile

The recent success of channelrhodopsin in optogenetics has also caused increasing interest in enzymes that are directly activated by light. We have identified in the genome of the bacterium Beggiatoa a DNA sequence encoding an adenylyl cyclase directly linked to a BLUF (blue light receptor using FAD) type light sensor domain. In Escherichia coli and Xenopus oocytes, this photoactivated adenylyl cyclase (bPAC) showed cyclase activity that is low in darkness but increased 300-fold in the light. This enzymatic activity decays thermally within 20 s in parallel with the red-shifted BLUF photointermediate. bPAC is well expressed in pyramidal neurons and, in combination with cyclic nucleotide gated channels, causes efficient light-induced depolarization. In the Drosophila central nervous system, bPAC mediates light-dependent cAMP increase and behavioral changes in freely moving animals. bPAC seems a perfect optogenetic tool for light modulation of cAMP in neuronal cells and tissues and for studying cAMP-dependent processes in live animals.

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Reporter proteins for in vivo fluorescence without oxygen

Drepper

et al. 2007

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Fluorescent reporter proteins such as green fluorescent protein are valuable noninvasive molecular tools for in vivo real-time imaging of living specimens. However, their use is generally restricted to aerobic systems, as the formation of their chromophores strictly requires oxygen. Starting with blue-light photoreceptors from Bacillus subtilis and Pseudomonas putida that contain light-oxygen-voltage-sensing domains, we engineered flavin mononucleotide-based fluorescent proteins that can be used as fluorescent reporters in both aerobic and anaerobic biological systems.

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First Evidence for Phototropin-Related Blue-Light Receptors in Prokaryotes

Losi

Polverini

Quest

et al. 2002

Biophysical Journal

255

353

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A prokaryotic protein, YtvA from Bacillus subtilis, was found to possess a light, oxygen, voltage (LOV) domain sharing high homology with the photoactive, flavin mononucleotide (FMN)-binding LOV domains of phototropins (phot), blue-light photoreceptors for phototropism in higher plants. Computer-based three-dimensional modeling suggests that YtvA-LOV binds FMN in a similar pocket as phot-LOVs. Recombinant YtvA indeed exhibits the same spectroscopical features and blue-light-induced photochemistry as phot-LOVs, with the reversible formation of a blue-shifted photoproduct, assigned to an FMN-cysteine thiol adduct (Thio 383 ). By means of laser-flash photolysis and time-resolved optoacoustic experiments, we measured the quantum yield of formation for Thio 383 , ⌽ Thio ϭ 0.49, and the enthalpy change, ⌬H Thio ϭ 135 kJ/mol, with respect to the parent state. The formation of Thio 383 is accompanied by a considerable volume contraction, ⌬V Thio ϭ Ϫ13.5 ml/mol. Similar to phot-LOVs, Thio 383 is formed from the decay of a red-shifted transient species, T 650 , within 2 s. In both YtvA and free FMN, this transient has an enthalpy content of ϳ200 kJ/mol, and its formation is accompanied by a small contraction, ⌬V T Ϸ Ϫ1.5 ml/mol, supporting the assignment of T 650 to the FMN triplet state, as suggested by spectroscopical evidences. These are the first studies indicating that phototropin-related, blue-light receptors may exist also in prokaryotes, besides constituting a steadily growing family in plants.

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Aba Losi

Light Modulation of Cellular cAMP by a Small Bacterial Photoactivated Adenylyl Cyclase, bPAC, of the Soil Bacterium Beggiatoa

Reporter proteins for in vivo fluorescence without oxygen

First Evidence for Phototropin-Related Blue-Light Receptors in Prokaryotes

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