Unravelling the Photoprotection Properties of Mycosporine Amino Acid Motifs

Woolley, Jack M.; Staniforth, Michael; Richings, Gareth W.; Wills, Martin; Stavros, Vasilios G.

doi:10.1021/acs.jpclett.8b00921

Cited by 34 publications

(80 citation statements)

References 33 publications

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“…[59][60][61] This may imply that further modification of the core unit makes the S1/S0 CI energy accessible to excited state population, possibly through additional substitution to differing ring positions ( Figure 6 The authors close by placing their research in the wider field of natural sunscreens highlighting that their results strongly favour the use of both shinorine and porphyra-334 in an in-vivo environment as natural sunscreen filters, even though a small proportion of the excess energy remains trapped as a triplet population with a significantly longer lifetime. 62,63,65 Relating this work to Case Studies 1 and 2, the proposed overall dynamics of the system agree with those of the MAA-inspired systems by Losantos et al and Woolley et al: 16,27 rapid relaxation through an accessible CI resulting in a vibrationally excited electronic ground state.…”

Section: Case Studiessupporting

confidence: 81%

Unravelling photoprotection in microbial natural products

Woolley

Stavros

2019

Science Progress

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Mycosporine-like amino acids have long been known as a natural form of photoprotection for fungi and cyanobacteria. This review will highlight the key time-resolved experimental and theoretical techniques unravelling their photochemistry and photophysics, and directly link this to their use in commercial skin-care products, namely as sunscreen filters. Three case studies have been selected, each having aided advancement in this burgeoning field of research. We discuss these studies in the context of photoprotection and conclude by evaluating the necessary future steps towards translating the photochemistry and photophysics insight of these nature derived sunscreen filters to commercial application.

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Section: Case Studiessupporting

confidence: 81%

Unravelling photoprotection in microbial natural products

Woolley

Stavros

2019

Science Progress

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“…Probe pulses are held at 54.7°relative to the pump-pulses and are delayed after pump photoexcitation up to a maximum of 2 ns, through the use of a hollow gold retroreflector in the path of the probe beam. [2,31] SdiEM and SdiTBM were investigated using an identical procedure. The collected transient absorption spectra (TAS) are chirp corrected and analysed through the use of a global fitting procedure provided in the Glotaran package, [32] using a sequential kinetic model.…”

Section: Experimental and Computational Detailsmentioning

confidence: 99%

Conservation of ultrafast photoprotective mechanisms with increasing molecular complexity in sinapoyl malate derivatives

et al. 2020

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Sinapoyl malate is a natural plant sunscreen molecule which protects leaves from harmful ultraviolet radiation. Here, the ultrafast dynamics of three sinapoyl malate derivatives, sinapoyl L‐dimethyl malate, sinapoyl L‐diethyl malate and sinapoyl L‐di‐t‐butyl malate, have been studied using transient electronic absorption spectroscopy, in a dioxane and methanol solvent environment to investigate how well preserved these dynamics remain with increasing molecular complexity. In all cases it was found that, upon photoexcitation, deactivation occurs via a trans‐cis isomerisation pathway within ∼20–30 ps. This cis‐photoproduct, formed during photodeactivation, is stable and longed‐lived for all molecules in both solvents. The incredible levels of conservation of the isomerisation pathway with increased molecular complexity demonstrate the efficacy of these molecules as ultraviolet photoprotectors, even in strongly perturbing solvents. As such, we suggest these molecules might be well‐suited for augmentations to further improve their photoprotective efficacy or chemical compatibility with other components of sunscreen mixtures, whilst conserving their underlying photodynamic properties.

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“…Carbon three is substituted with an amino group (represented as R in Figure 10 ), and this is what causes the variability among mycosporines [ 60 ]. We begin the mycosporine discussion by reviewing work conducted by Losantos et al [ 89 ] and Woolley et al [ 85 ] on basic cyclohexenone structures, herein referred to as mycosporine motifs. Further details of these authors’ works can be found in the reviews by Holt and Stavros [ 55 ] and Woolley and Stavros [ 83 ].…”

Section: Case Studiesmentioning

confidence: 99%

“…Further details on the methodology, such as the active space and basis set used, can be found in the original research [ 89 ], as is the case with all the theoretical work reviewed in Section 2 . Woolley et al [ 85 ] studied a modification of molecule 2, 3-aminocyclohex-2-ene-1-one (termed ACyO, the methyl group on the nitrogen attached to carbon three in molecule 2 is replaced with a hydrogen), experimentally using TEAS along with complementary computational studies; see Figure 10 . All four mycosporine motifs are composed of the same cyclohexenone core structure, with varying substituents on carbons two and three.…”

Section: Case Studiesmentioning

confidence: 99%

“…To date, there has been no published ultrafast spectroscopy measurements on natural MAAs. However, Losantos et al [ 84 ] and Woolley et al [ 85 ] have conducted such experiments on MAA motifs. In addition to these studies, complementary theoretical work has modelled the minimum energy relaxation pathways of MAAs and molecules alike, giving insight into their photoprotective mechanisms [ 84 , 86 , 87 , 88 , 89 , 90 ].…”

Section: Introductionmentioning

confidence: 99%

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Unravelling the Photoprotective Mechanisms of Nature-Inspired Ultraviolet Filters Using Ultrafast Spectroscopy

2020

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There are several drawbacks with the current commercially available ultraviolet (UV) filters used in sunscreen formulations, namely deleterious human and ecotoxic effects. As a result of the drawbacks, a current research interest is in identifying and designing new UV filters. One approach that has been explored in recent years is to use nature as inspiration, which is the focus of this review. Both plants and microorganisms have adapted to synthesize their own photoprotective molecules to guard their DNA from potentially harmful UV radiation. The relaxation mechanism of a molecule after it has been photoexcited can be unravelled by several techniques, the ones of most interest for this review being ultrafast spectroscopy and computational methods. Within the literature, both techniques have been implemented on plant-, and microbial-inspired UV filters to better understand their photoprotective roles in nature. This review aims to explore these findings for both families of nature-inspired UV filters in the hope of guiding the future design of sunscreens.

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Unravelling the Photoprotection Properties of Mycosporine Amino Acid Motifs

Cited by 34 publications

References 33 publications

Unravelling photoprotection in microbial natural products

Unravelling photoprotection in microbial natural products

Conservation of ultrafast photoprotective mechanisms with increasing molecular complexity in sinapoyl malate derivatives

Unravelling the Photoprotective Mechanisms of Nature-Inspired Ultraviolet Filters Using Ultrafast Spectroscopy

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