Spectrochemistry of Firefly Bioluminescence

Marieh B. Al-Handawi; Srujana Polavaram; Anastasiya Kurlevskaya; Patrick Commins; Stefan Schramm; César Carrasco-López; Nathan M. Lui; Kyril M. Solntsev; Siarhei Laptenok; Isabelle Navizet; Panče Naumov

doi:10.1021/acs.chemrev.1c01047

Spectrochemistry of Firefly Bioluminescence

Marieh B. Al-Handawi, Srujana Polavaram, Anastasiya Kurlevskaya, Patrick Commins, Stefan Schramm, César Carrasco-López, Nathan M. Lui, Kyril M. Solntsev, Siarhei Laptenok, Isabelle Navizet, Panče Naumov

Biological, Environmental Sciences and Engineering

Research output: Contribution to journal › Article › peer-review

37 Scopus citations

Abstract

The chemical reactions underlying the emission of light in fireflies and other bioluminescent beetles are some of the most thoroughly studied processes by scientists worldwide. Despite these remarkable efforts, fierce academic arguments continue around even some of the most fundamental aspects of the reaction mechanism behind the beetle bioluminescence. In an attempt to reach a consensus, we made an exhaustive search of the available literature and compiled the key discoveries on the fluorescence and chemiluminescence spectrochemistry of the emitting molecule, the firefly oxyluciferin, and its chemical analogues reported over the past 50+ years. The factors that affect the light emission, including intermolecular interactions, solvent polarity, and electronic effects, were analyzed in the context of both the reaction mechanism and the different colors of light emitted by different luciferases. The collective data points toward a combined emission of multiple coexistent forms of oxyluciferin as the most probable explanation for the variation in color of the emitted light. We also highlight realistic research directions to eventually address some of the remaining questions related to firefly bioluminescence. It is our hope that this extensive compilation of data and detailed analysis will not only consolidate the existing body of knowledge on this important phenomenon but will also aid in reaching a wider consensus on some of the mechanistic details of firefly bioluminescence.

Original language	English (US)
Journal	Chemical Reviews
DOIs	https://doi.org/10.1021/acs.chemrev.1c01047
State	Published - Aug 4 2022

Bibliographical note

KAUST Repository Item: Exported on 2022-09-14
Acknowledgements: We thank New York University Abu Dhabi for financially supporting this work through the Research Enhancement Funding scheme (project “Red- and Green-Emitting Luciferases: Determination of the Color Emission Mechanism”). This work, in its very early stages, was also supported by the Human Frontier Science Program (project RGY0081/2011, “Excited-State Structure of the Emitter and Color-Tuning Mechanism of the Firefly Bioluminescence”). The research in the experimental part was partially carried out using the Core Technology Platform resources at New York University Abu Dhabi.

ASJC Scopus subject areas

General Chemistry

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10.1021/acs.chemrev.1c01047

https://repository.kaust.edu.sa/bitstream/10754/680162/1/Main%20text-Oxylucferin-FINAL-REVISED%20%281%29.pdf

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title = "Spectrochemistry of Firefly Bioluminescence",

abstract = "The chemical reactions underlying the emission of light in fireflies and other bioluminescent beetles are some of the most thoroughly studied processes by scientists worldwide. Despite these remarkable efforts, fierce academic arguments continue around even some of the most fundamental aspects of the reaction mechanism behind the beetle bioluminescence. In an attempt to reach a consensus, we made an exhaustive search of the available literature and compiled the key discoveries on the fluorescence and chemiluminescence spectrochemistry of the emitting molecule, the firefly oxyluciferin, and its chemical analogues reported over the past 50+ years. The factors that affect the light emission, including intermolecular interactions, solvent polarity, and electronic effects, were analyzed in the context of both the reaction mechanism and the different colors of light emitted by different luciferases. The collective data points toward a combined emission of multiple coexistent forms of oxyluciferin as the most probable explanation for the variation in color of the emitted light. We also highlight realistic research directions to eventually address some of the remaining questions related to firefly bioluminescence. It is our hope that this extensive compilation of data and detailed analysis will not only consolidate the existing body of knowledge on this important phenomenon but will also aid in reaching a wider consensus on some of the mechanistic details of firefly bioluminescence.",

author = "Al-Handawi, {Marieh B.} and Srujana Polavaram and Anastasiya Kurlevskaya and Patrick Commins and Stefan Schramm and C{\'e}sar Carrasco-L{\'o}pez and Lui, {Nathan M.} and Solntsev, {Kyril M.} and Siarhei Laptenok and Isabelle Navizet and Pan{\v c}e Naumov",

note = "KAUST Repository Item: Exported on 2022-09-14 Acknowledgements: We thank New York University Abu Dhabi for financially supporting this work through the Research Enhancement Funding scheme (project “Red- and Green-Emitting Luciferases: Determination of the Color Emission Mechanism”). This work, in its very early stages, was also supported by the Human Frontier Science Program (project RGY0081/2011, “Excited-State Structure of the Emitter and Color-Tuning Mechanism of the Firefly Bioluminescence”). The research in the experimental part was partially carried out using the Core Technology Platform resources at New York University Abu Dhabi.",

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doi = "10.1021/acs.chemrev.1c01047",

language = "English (US)",

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T1 - Spectrochemistry of Firefly Bioluminescence

AU - Al-Handawi, Marieh B.

AU - Polavaram, Srujana

AU - Kurlevskaya, Anastasiya

AU - Commins, Patrick

AU - Schramm, Stefan

AU - Carrasco-López, César

AU - Lui, Nathan M.

AU - Solntsev, Kyril M.

AU - Laptenok, Siarhei

AU - Navizet, Isabelle

AU - Naumov, Panče

N1 - KAUST Repository Item: Exported on 2022-09-14 Acknowledgements: We thank New York University Abu Dhabi for financially supporting this work through the Research Enhancement Funding scheme (project “Red- and Green-Emitting Luciferases: Determination of the Color Emission Mechanism”). This work, in its very early stages, was also supported by the Human Frontier Science Program (project RGY0081/2011, “Excited-State Structure of the Emitter and Color-Tuning Mechanism of the Firefly Bioluminescence”). The research in the experimental part was partially carried out using the Core Technology Platform resources at New York University Abu Dhabi.

PY - 2022/8/4

Y1 - 2022/8/4

N2 - The chemical reactions underlying the emission of light in fireflies and other bioluminescent beetles are some of the most thoroughly studied processes by scientists worldwide. Despite these remarkable efforts, fierce academic arguments continue around even some of the most fundamental aspects of the reaction mechanism behind the beetle bioluminescence. In an attempt to reach a consensus, we made an exhaustive search of the available literature and compiled the key discoveries on the fluorescence and chemiluminescence spectrochemistry of the emitting molecule, the firefly oxyluciferin, and its chemical analogues reported over the past 50+ years. The factors that affect the light emission, including intermolecular interactions, solvent polarity, and electronic effects, were analyzed in the context of both the reaction mechanism and the different colors of light emitted by different luciferases. The collective data points toward a combined emission of multiple coexistent forms of oxyluciferin as the most probable explanation for the variation in color of the emitted light. We also highlight realistic research directions to eventually address some of the remaining questions related to firefly bioluminescence. It is our hope that this extensive compilation of data and detailed analysis will not only consolidate the existing body of knowledge on this important phenomenon but will also aid in reaching a wider consensus on some of the mechanistic details of firefly bioluminescence.

AB - The chemical reactions underlying the emission of light in fireflies and other bioluminescent beetles are some of the most thoroughly studied processes by scientists worldwide. Despite these remarkable efforts, fierce academic arguments continue around even some of the most fundamental aspects of the reaction mechanism behind the beetle bioluminescence. In an attempt to reach a consensus, we made an exhaustive search of the available literature and compiled the key discoveries on the fluorescence and chemiluminescence spectrochemistry of the emitting molecule, the firefly oxyluciferin, and its chemical analogues reported over the past 50+ years. The factors that affect the light emission, including intermolecular interactions, solvent polarity, and electronic effects, were analyzed in the context of both the reaction mechanism and the different colors of light emitted by different luciferases. The collective data points toward a combined emission of multiple coexistent forms of oxyluciferin as the most probable explanation for the variation in color of the emitted light. We also highlight realistic research directions to eventually address some of the remaining questions related to firefly bioluminescence. It is our hope that this extensive compilation of data and detailed analysis will not only consolidate the existing body of knowledge on this important phenomenon but will also aid in reaching a wider consensus on some of the mechanistic details of firefly bioluminescence.

UR - http://hdl.handle.net/10754/680162

UR - https://pubs.acs.org/doi/10.1021/acs.chemrev.1c01047

U2 - 10.1021/acs.chemrev.1c01047

DO - 10.1021/acs.chemrev.1c01047

M3 - Article

C2 - 35926147

SN - 0009-2665

JO - Chemical Reviews

JF - Chemical Reviews

ER -

Spectrochemistry of Firefly Bioluminescence

Abstract

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ASJC Scopus subject areas

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