Vadim R. Viviani scite author profile

Luciferases are the enzymes that catalyze the reactions that produce light in bioluminescence. Whereas the oxidative mechanism which leads to light emission is similar for most luciferases, these enzymes and their substrates are evolutionarily unrelated. Among all bioluminescent groups, insects constitute one of the most diverse in terms of biochemistry. In the fungus-gnats (Mycetophilidae: Diptera), for example, bioluminescence is generated by two biochemically distinct systems. Despite the diversity, investigations on insect luciferases and biochemistry have been conducted mostly with fireflies. The luciferases from the related phengodid beetles, which can produce green to red bioluminescence using the same chemistry as firefly luciferases, have been recently investigated. Beetle luciferases originated from ancestral acyl-CoA ligases. Present data suggest that conserved motifs among this class of ligases are involved in substrate adenylation. The three-dimensional structure of firefly luciferase was recently solved and mutagenesis studies have been performed identifying putative residues involved in luciferin binding and bioluminescence color determination in several beetle luciferases. The knowledge gained through these studies is helping in the development of useful reporter gene tools for biotechnological and biomedical purposes.

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Cloning, Sequence Analysis, and Expression of Active Phrixothrix Railroad-Worms Luciferases: Relationship between Bioluminescence Spectra and Primary Structures^,

Viviani

1999

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Phrixothrix railroad-worms emit yellow-green light through 11 pairs of lateral lanterns along the body and red light through two cephalic lanterns. The cDNAs for the lateral lanterns luciferase of Phrixothrix vivianii, which emit green light (lambda max= 542 nm), and for the head lanterns of P. hirtus, which emit the most red-shifted bioluminescence (lambda max= 628 nm) among luminescent beetles, were cloned. Positive clones which emitted green (PvGR: lambda max= 549 nm) and red (PhRE: lambda max= 622 nm) bioluminescence were isolated. The lucifereases coded by PvGR (545 amino acid residues) and PhRE (546 amino acid residues) cDNAs share 71% identity. PvGR and PhRE luciferases showed 50-55% and 46-49% identity with firefly luciferases, respectively, and 47-49% with click-beetle luciferases. PhRE luciferase has some unique residues which replace invariant residues in other beetle luciferases. The additional residue Arg 352 in PhRE, which is deleted in PvGR polypeptide, seems to be another important structural feature associated with red light production. As in the case of other railroad-worms and click-beetle luciferases studied, Phrixothrix luciferases do not undergo the typical red shift suffered by firefly luciferases upon decreasing pH, a property which might be related to the many amino acid residues shared in common between railroad-worm and click-beetle luciferase.

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The structural origin and biological function of pH-sensitivity in firefly luciferases

Viviani

Arnoldi

Neto

et al. 2008

Photochem Photobiol Sci

105

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Firefly luciferases are called pH-sensitive because their bioluminescence spectra display a typical red-shift at acidic pH, higher temperatures, and in the presence of heavy metal cations, whereas other beetle luciferases (click beetles and railroadworms) do not, and for this reason they are called pH-insensitive. Despite many studies on firefly luciferases, the origin of pH-sensitivity is far from being understood. This subject is revised in view of recent results. Some substitutions of amino-acid residues influencing pH-sensitivity in firefly luciferases have been identified. Sequence comparison, site-directed mutagenesis and modeling studies have shown a set of residues differing between pH-sensitive and pH-insensitive luciferases which affect bioluminescence colors. Some substitutions dramatically affecting bioluminescence colors in both groups of luciferases are clustered in the loop between residues 223-235 (Photinus pyralis sequence). A network of hydrogen bonds and salt bridges involving the residues N229-S284-E311-R337 was found to be important for affecting bioluminescence colors. It is suggested that these structural elements may affect the benzothiazolyl side of the luciferin-binding site affecting bioluminescence colors. Experimental evidence suggest that the residual red light emission in pH-sensitive luciferases could be a vestige that may have biological importance in some firefly species. Furthermore, the potential utility of pH-sensitivity for intracellular biosensing applications is considered.

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Vadim R. Viviani

The origin, diversity, and structure function relationships of insect luciferases

Cloning, Sequence Analysis, and Expression of Active Phrixothrix Railroad-Worms Luciferases: Relationship between Bioluminescence Spectra and Primary Structures^,

The structural origin and biological function of pH-sensitivity in firefly luciferases

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Vadim R. Viviani

The origin, diversity, and structure function relationships of insect luciferases

Cloning, Sequence Analysis, and Expression of Active Phrixothrix Railroad-Worms Luciferases: Relationship between Bioluminescence Spectra and Primary Structures,

The structural origin and biological function of pH-sensitivity in firefly luciferases

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Resources

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Cloning, Sequence Analysis, and Expression of Active Phrixothrix Railroad-Worms Luciferases: Relationship between Bioluminescence Spectra and Primary Structures^,