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The steady-state spectroscopy of 2-(N-methylacetimidoyl)-1-naphthol (MAN) reveals composite absorption and emission spectra from 298 to 193 K in hexane. The ground electronic state (So) absorption can be assigned to the sum of three molecular structures: the OH normal tautomer, and two NH proton-transfer tautomers. The NH-structures are the most stable ones in equilibrium with the OH tautomer for the So state. On photoexcitation of the OH-tautomer the excited state intramolecular proton-transfer is undergone, and the corresponding NH-emission is monitored at 470 nm. On photoexcitation of the NH-tautomers the previous emission is monitored in addition to another emission at 600 nm, which is ascribed to intramolecular hydrogen-bonded (IHB) non-planar NH-structures generated from the IHB planar NH-tautomers. A Jabłoński diagram is introduced which gathers all the experimental evidence as well as the theoretical calculations executed at the DFT-B3LYP and TD-DFT levels. The MAN molecule is compared with other analogues such as 1-hydroxy-2-acetonaphthone (HAN), 2-(1΄-hydroxy-2΄-naphthyl)benzimidazole, and methyl 1-hydroxy-2-naphthoate in order to validate the theoretical calculations. Photoexcitation of MAN generates two emission bands at longer wavelengths than that of the emission band of HAN. The MAN molecule exhibits a great photostability in hydrocarbon solution which depends on the photophysics of the NH-tautomers (keto forms).
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This study evaluated the effects of LLLT on the expression of inflammatory cytokines related to the development of oral mucositis by gingival fibroblasts. Primary gingival fibroblasts were seeded on 24-well plates (105 cells/well) for 24 hours. Fresh serum-free culture medium (DMEM) was then added, and cells were placed in contact with LPS (Escherichia coli, 1 μg/mL), followed by LLLT irradiation (LaserTABLE - InGaAsP diode prototype – 780 nm, 25 mW) delivering 0, 0.5, 1.5, or 3 J/cm². Cells without contact with LPS were also irradiated with the same energy densities. Gene expression of TNF-α, IL-1β, IL-6, and IL-8 was evaluated by Real-Time PCR, and protein synthesis of these cytokines was determined by enzyme-linked immunosorbent (ELISA) assay. Data were statistically analyzed by the Kruskal-Wallis test, complemented by the Mann-Whitney test (P < 0.05). LPS treatment increased the gene expression and protein synthesis of TNF-α, IL-6, and IL-8, while the expression of IL-1β was not affected. For LPS-treated groups, LLLT promoted significant decreases in the expression of TNF-α, IL-6, and IL-8 at 1.5 J/cm2 and 3 J/cm2. These results demonstrate that LLLT promoted a beneficial biomodulatory effect on the expression of inflammatory cytokines related to oral mucositis by human gingival fibroblasts.
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Photochem. Photobiol. Sci., 2015, Accepted Manuscript DOI: 10.1039/C5PP00045A, Paper
Shalie Malik, Jyoti Singh, Amit Trivedi, Sudhi Singh, Sangeeta Rani, Vinod Kumar We proposed two perhaps overlapping hypotheses. Hypothesis 1 examined whether daily light information was transduced by change in the pattern of daily melatonin secretion. Hypothesis 2 tested whether melatonin amplitude... The content of this RSS Feed (c) The Royal Society of Chemistry
In the present work, porous 3D CdO-microstructured electrode obtained by pyrolysis of 3D CdCO3 microstructures is self-sensitized with CdSe using an ion exchange reaction. After sensitization, an interfacial treatment of the CdO–CdSe interface is performed by depositing a thin film of PEDOT using a photoinduce polymerization route. The microstructured electrode before and after interfacial treatment is characterized using field-emission scanning microscope, energy dispersive X-ray analyzer, contact angle measurement, UV–Visible absorption spectrophotometer and X-ray photoelectron spectrometer. After constructing a liquid junction solar cell with a Pt counter electrode, the photovoltaic performance and interfacial charge transfer kinetics across the CdO–CdSe interface before and after PEDOT treatment are investigated. The results exhibit an improved interfacial charge-transfer resistance after the PEDOT treatment, which leads to enhance the short-circuit current by 15.81% and the power conversion efficiency by 19.82%.
Interfacial engineering of 3D CdO–CdSe-microstructured film by deposition of PEDOT accelerates the interfacial electron transfer rate, and thereby the interfacial electron collection efficiency is enhanced. Thus, the short-circuit current of the device is enhanced significantly.
UVA-visible light has been proposed as a risk factor in the photo-aging of the human eye lens, as well as in the etiology of cataract disease. There is accumulating evidence indicating that photosensitizing reactions mediated by endogenous chromophores, which are generated during human eye lens aging, can play an important role in the generation of these processes. These reactions can lead to protein impairment by inducing non-enzymatic post-translational modifications such as protein oxidation and crosslinking. Although numerous chromophores have been characterized as both bound to human eye lens proteins and as unbound low-molecular-mass compounds, their contribution to eye lens photoaging and cataract disease is not completely understood. In this article we discuss the photochemical contribution of UV-filters derived from tryptophan catabolism and advanced glycation end products (AGEs) to human eye lens aging and cataract disease. We also discuss the recently described photosensitizing capacity of chromophores derived from newly discovered glucose and ascorbate degradation as a parallel pathway to their role in AGEs generation.
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Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C5PP00011D, Paper
Hisao Hidaka, Tohru Tsukamoto, Yoshihiro Mitsutsuka, Toshiyuki Oyama, Nick Serpone The water-insoluble insecticide Fipronil can be easily mineralized by gallium oxide catalysis in aqueous organic media (ethanol or methanol etc.) under a nitrogen atmosphere under UVC irradiation (254 nm). To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Ultraviolet light B (UVB) exposure induces cutaneous squamous cell carcinoma (cSCC), one of the most prevalent human cancers. Reoccurrence of cSCC in high-risk patients is prevented by oral retinoids. But oral retinoid treatment causes significant side effects; and patients develop retinoid resistance. Exactly how retinoids prevent UVB-induced cSCC is currently not well understood. Retinoid resistance blocks mechanistic studies in the leading mouse model of cSCC, the UVB exposed SKH-1 hairless mouse. To begin to understand the role of retinoids in UVB-induced cSCC we first examined the localization pattern of key retinoid metabolism proteins by immunohistochemistry 48 hours after UVB treatment of female SKH-1 mice. We next inhibited retinoic acid (RA) synthesis immediately after UVB exposure. Acute UVB increased RA synthesis, signaling, and degradation proteins in the stratum granulosum. Some of these proteins changed their localization; while other proteins just increased in intensity. In contrast, acute UVB reduced the retinoid storage protein lectin:retinol acyltransferase (LRAT) in the epidermis. Inhibiting RA synthesis disrupted the epidermis and impaired differentiation. These data suggests that repair of the epidermis after acute UVB exposure requires endogenous RA synthesis.
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Fluorescence properties of 2,6- and 2,5-diphenylthiazolo[4,5-b]pyrazine (TPy) derivatives having an electron-donating substituent (methoxy and dimethylamino) on the the 6- and 5-phenyl groups were studied. It was found that 2,6-diphenyl derivatives fluoresce more efficiently than 2,5-diphenyl derivatives. Furthermore, a 2,6-diphenyl derivative having an additional cyano group on the 2-phenyl ring was an excellent fluorophore showing a wide solvatochromism with great fluorescence yields. Based on the obtained spectroscopic data and mechanistic explanations concerning the substituent effects on the fluorescence properties, useful information on designing new TPy fluorophores is provided.
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Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00486H, Paper
Nathan C. Rockwell, Shelley S. Martin, J. Clark Lagarias Two specialized subgroups of cyanobacteriochromes with predictable green/blue and blue/orange photocycles are defined by these studies. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
In this study, the athermal effects of water-filtered infrared A (wIRA)-irradiation (780-1400 nm) on human dermal fibroblasts were investigated. For this purpose, cells were exposed to wIRA-irradiation (178 mW/cm2 for 1h), while a sophisticated experimental setup prevented warming of the samples exceeding 0.1 °C. The investigated parameters were the formation of reactive oxygen species (ROS), mitochondrial membrane potential and superoxide release, protein oxidation, proliferation rate, as well as intracellular Ca2+-release in single cells, most of them quantified via fluorescence microscopy and fluorimetric techniques.
The existence of actual athermal wIRA-effects is still intensively discussed, since their detection requires a careful experimental setup and both efficient and powerful temperature regulation of the exposed samples. Here, we can definitively show that some of the supposed athermal wIRA-effects may be rather artifacts, since wIRA did not reveal any impact on the above mentioned parameters - as long as the temperature of the exposed cells was carefully maintained. Though, we were able to identify an athermal DNA-protective wIRA-effect, since the induced DNA-damage (quantified via 8-Oxo-G-formation) was significantly decreased after a subsequent UVB-exposure.
These results suggest that many of the supposed athermal wIRA-effects can be induced by pure warming of the samples, independent from any wIRA-irradiation.
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Dionissios Mantzavinos, Sixto Malato The guest editors introduce the collection of papers from the 8th European Meeting on Solar Chemistry & Photocatalysis: Environmental Applications (SPEA 8), held in Thessaloniki between 25th and 28th June, 2014. The content of this RSS Feed (c) The Royal Society of Chemistry
Among different physical and chemical agents, the UV radiation appears to be an important route for inactivation of resistant microorganisms. The present study introduces a new mercury-free Dielectric Barrier Discharge (DBD) flat lamp, where the biocide action comes from the UV emission produced by rare-earth phosphor obtained by spray pyrolysis, following plasma excitation. In this study, the emission intensity of the prototype lamp is tuned by controlling gas pressure and electrical power, 500 mbar and 15 W, corresponding to optimal conditions. In order to characterize the prototype lamp, the energetic output, temperature increase following lamp ignition and ozone production of the source were measured. The bactericidal experiments carried out showed excellent results for several gram-positive and gram-negative bacterial strains, thus demonstrating the high decontamination efficiency of the DBD flat lamp. Finally, the study of the external morphology of the microorganisms after the exposure to the UV emission suggested that other mechanisms than the bacterial DNA damage could be involved in the inactivation process.
An innovative mercury-free Dielectric Barrier Discharge (DBD) flat lamp has been developed to obtain large spectrum UV-C radiation. The UV-C radiation is produced by a pyrophosphate phosphor doped with Pr3+ (α-Ca2P2O7: Pr2%Na2%) internal coating excited by the 172 nm emission of a Ne-Xe plasma. This work investigates the influence of the plasma parameters on the newly developed UV source energy efficiency and its bactericidal efficiency.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C5PP00060B, Paper
Lei Zhang, Zi-Yu Liu, Xuan Zhan, Li-Li Wang, Hui Wang, Hai-Yang Liu The ultrafast photophysical behaviors of a series of meso-flurophenyl substituted electron-deficient free base corroles F0C, F5C, F10C and F15C in toluene have been investigated using femtosecond time resolved absorption spectroscopy and steady spectroscopies. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Schinus terebinthifolius is a plant rich in phenolic compounds, which have antioxidant properties and can provide new opportunities for treatment and prevention of diseases mediated by ultraviolet radiation like photoaging and skin cancer. The aim of this study was to evaluate the photoprotective potential and ex vivo percutaneous penetration of the crude extract of Schinus terebinthifolius leaves. The extract was tested for antioxidant activity using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) method and β-carotene bleaching test. The sun protection factor was also evaluated. The ex vivo skin permeation of the emulsion and gel formulations were assayed. Fractionation of the extract resulted in gallic acid, ethyl gallate and a mixture of flavonoids, suggesting derivatives of quercetin and myricetin. The phenolic content of the extract was 384.64 ± 2.60 mg GAE g−1 extract. The antioxidant activity was superior to butylated hydroxytoluene, in DPPH method, and ascorbic acid and rutin, in β-carotene bleaching assay. The extract showed UV absorption with photoprotector potential in the UVB region. The photoacoustic spectroscopy measurements confirmed absorption in the UV region and topical application of the formulations caused no histological changes in the rats' skin. These results suggest that the crude extract of Schinus terebinthifolius leaves may be a promising natural sunscreen product.
Plant extracts can be incorporated in photoprotective formulations. The crude extract and the fraction containing gallic acid, ethyl gallate and a mixture of flavonoids were obtained from Schinus terebinthifolius leaves. Emulsion and gel formulations containing the crude extract were prepared to evaluate the permeation and the histology of the skin after topical application of the formulations. The photoacoustic spectroscopy measurements confirmed absorption in the UV region and related to the permeation of these formulations. No histopathological changes were detected.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C5PP00024F, Paper
Peter P. Levin, Alexei F. Efremkin, Igor V. Khudyakov The decay kinetics of intermediates produced under photolysis of benzophenone (B) dissolved in soft rubber poly(ethylene-co-butylene) films (abbreviated as E) was studied by ns laser flash photolysis in the temperature range of 263-313 K. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
The aim of the present study was to detect the susceptibility of Ureaplasma urealyticum to methylene blue-mediated photodynamic antimicrobial chemotherapy (PACT). Three U. urealyticum strains including the standard serotype 1 and 5, and a clinically collected strain were used in this study. Strains were first incubated in 96-well culture plates in the presence of methylene blue with decreasing concentrations (from 1 to 0.015625 mg mL−1) for 20 or 60min, and then submitted to irradiation with a light-emitting diode laser with a power density of 100mW/cm2 for 8, 17, 34 or 68min. Regrowth of the strains was performed soon after irradiation. A significant inactivation effect was observed after PACT. Longer incubation time induced more extensive inactivation of U. urealyticum. No difference in response to PACT was observed between the two biovars of U. urealyticum. It was concluded that PACT had a significant inactivation effect on U. urealyticum, and it might be a promising alternative treatment for resistant U. urealyticum infections.
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Albert W. Girotti PDT upregulates iNOS/NO in cancer cells, which inhibits apoptotic cell death and increases aggressiveness of surviving cells. PDT in the presence of a selective iNOS inhibitor will enhance treatment effectiveness. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C5PP00009B, Paper
Qiu Sun, Chang Jiang Yao, Burkhard Konig An unusual rearrangement-addition reaction of aryl chalcones was observed in the presence of triphenylphosphine and UV A irradiation. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
A novel π-conjugated triad and a polymer incorporating indolo[3,2-b]-carbazole (ICZ) and 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY) were synthesized via a Sonogashira coupling. Compared to the parent BODIPY the absorption and fluorescence spectrum were for both compounds broader and red-shifted. The red-shift of the fluorescence and the decrease of the fluorescence quantum yield and decay time upon increasing solvent polarity were attributed to the formation of a partial charge transfer state. Upon excitation in the ICZ absorption band the ICZ fluorescence was quenched in both compounds mainly due to energy transfer to the BODIPY moiety. In a similar ICZ–π–DPP polymer, (where DPP is diketopyrolopyrrole), a smaller red shift of the absorption and fluorescence spectra compared to the parent DPP was observed. A less efficient quenching of the ICZ fluorescence in the ICZ–π–DPP polymer could be related to the unfavorable orientation of the transition dipoles of ICZ and DPP. The rate constant for energy transfer was for all compounds an order of magnitude smaller than predicted by Förster theory. While in a solid film of the triad a further red-shift of the absorption maximum of nearly 100 nm was observed, no such shift was observed for the ICZ–π–BODIPY polymer.
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A series of covalently bound phenothiazene (PHZ) donor and methylviologen (V) acceptor compounds with polymethylene chain spacers (C8, C10, C12) were incorporated in a “through–ring” (rotaxane) fashion to α–cyclodextrin (α–CD) hosts such that the alkyl chains were fully extended, with the donor and acceptor on opposite sides of the α–CD cylinder. Photoexcitation of the PHZ unit induces electron transfer from the PHZ first excited triplet state to the V moiety, forming a biradicaloid charge separated state. Time-resolved electron paramagnetic resonance (TREPR) spectroscopy at the X–band and Q–band microwave frequencies was used to investigate the spin exchange interaction, J, in these biradicaloids. Simulation of the spectra using a “static” model for spin–correlated radical pairs allows extraction of the J values, which are negative in sign and have absolute values range from 2 to 1000 Gauss (lower limit). Comparison of the PHZnV (n = 8, 10, 12) spectra to those obtained using phenyl ether spacers indicates that π-bonds may assist the electronic coupling. The results are discussed in terms of through–bond vs. through–space electronic coupling mechanisms.
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To determine the chronic skin effects caused by the interaction of infrared and ultraviolet B radiations, male Rattus norvegicus (Wistar) (2 months old) were exposed during 15 days to: infrared radiation (600 - 1500 nm, with peak at 1000 nm, n = 12) for 30 minutes (1,080 J/cm²) (IR); to ultraviolet B radiation (peak emission at 313 nm, n = 9) for 90 minutes (55.08 J/cm²) (UVB); to infrared followed after 90 minutes by ultraviolet B (n = 6) (IRUVB) and to ultraviolet B followed after 90 minutes by infrared radiation (n = 9) (UVBIR). Skin samples were collected and histopathological analysis showed the presence of acanthosis, parakeratotic and orthokeratotic hyperkeratosis, intraepidermal pustules, keratin pearls, detachment of epidermis, collagen necrosis, inflammatory infiltrate, vasodilation, basal cell vacuolization and superficial dermis degeneration both in UVB and UVBIR treatments. IRUVB animals showed the same characteristics as above except for parakeratotic hyperkeratosis, keratin pearls and superficial dermis degeneration. To conclude, infrared radiation exposure after ultraviolet B irradiation increases skin damage without protecting the tissue, while infrared radiation exposure before ultraviolet B irradiation showed a protective effect against ultraviolet skin damage.
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Atmospheric and in-water solar radiation, including UVR-B, UVR-A and PAR, as well as chromophoric dissolved organic matter absorption [aCDOM(λ)] in surface waters were monthly measured from November 2007 to December 2008 at a coastal station in the Northwestern Mediterranean Sea (Bay of Marseilles, France). Our results showed that the UVR-B/UVR-A ratio followed the same trend in the atmosphere and at 2 m depth in the water (p < 0.0001) with an increase (8 fold higher) during summer. The low diffuse attenuation coefficients for downward irradiance [Kd(λ)] of UVR-B, UVR-A and PAR indicated that the waters were highly transparent throughout the year. The relationships between aCDOM(λ) and Kd(λ) in this oligotrophic system suggested that CDOM contributed to UVR attenuation in the UVA domain, but also played a significant role in PAR attenuation. Mean UV doses received in the mixed layer depth were higher by a factor 1.4-33 relative to doses received at fixed depths (5 and 10 m) in summer (stratified period), while the inverse pattern was found in winter (mixing period). This shows the importance of taking into account the vertical mixing in the evaluation of UVR effects on marine organisms.
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The rising incidence of skin cancers attributable to excessive sun exposure has become a major health concern worldwide. While numerous studies have analyzed the sun protective effect of sunscreens, clothing, and antioxidants, none to date have measured the photoprotective effect of hair, despite clinical evidence that individuals with balding or thinning hair are at greater risk of skin lesions that can progress to cancer, hence the recommendation to use hats or umbrellas. We analyzed the level of protection offered by hair according to hair density, thickness and color using the spectral transmittance and corrected for relative erythema effectiveness. Our results show that hair provides a barrier against both UVB and UVA radiation which is significantly increased with respect to the hair density, thickness and the presence of melanins. This is the first study to quantify sun protection factor offered by hair, namely hair ultraviolet protection factor (HUPF). We believe that hair should be recognized as an important natural sun barrier in the prevention of UV-induced skin cancers.
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This study was carried out to investigate the anti-tumor effect and mechanism of hiporfin-mediated photodynamic therapy (hiporfin-PDT) in osteosarcoma. We found that hiporfin accumulated mainly in the cytoplasm of osteosarcoma cells in a time and concentration-dependent manner. Hiporfin-PDT inhibited the proliferation, induced apoptosis and produced cell cycle arrest at G2M in osteosarcoma cell lines. Hiporfin-PDT increased the expression of cleaved-caspase-3, cleaved PARP-1, Bax and RIP1 while it decreased the expression of Bcl-2; in addition, low concentration of hiporfin increased LC3 conversion. Furthermore, cell death caused by hiporfin-PDT could be rescued by Nec-1 but not by Z-VAD-FMK. Production of reactive oxygen species was increased after hiporfin-PDT. In vivo studies showed a significant decrease in tumor volume and weight after hiporfin-PDT in all three tumor mouse models investigated (subcutaneous and orthotopic). Histological analysis showed widespread cell apoptosis and necrosis after treatment. Immunohistochemistry also showed upregulation of cleaved-caspase-3 and downregulation of Bcl-2 after hiporfin-PDT. These results indicate that hiporfin-PDT exhibits a killing effect in osteosarcoma both in vitro and in vivo, which is associated with apoptosis and necroptosis, while autophagy plays a protective role. All these findings shed light on a potential future clinical use for hiporfin in the treatment of osteosarcoma.
Hiporfin is one kind of photosensitizer that has been approved by Chinese SFDA. In this study, hiporfin was used to see its photodynamic activity in osteosarcoma. After illumination by 630 nm laser, hiporfin killed osteosarcoma cells by increased ROS level and through apoptosis and necroptosis pathways. In vivo study also showed potent tumor eradication. All these provided evidences for the clinical trial of hiporfin on osteosarcoma.
Alicia Zamarron, Silvia R. Lucena, Nerea Salazar, Francisco Sanz-Rodriguez, Pedro Jaen, Yolanda Gilaberte, Salvador Gonzalez, Angeles Juarranz Even though the efficacy of photodynamic therapy (PDT) for treating premalignant and malignant lesions has been demonstrated, resistant tumor cells to this therapy occasionally appear. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
We have synthesized hollow Au nanocages embedded within thick porous shells of cuprous oxide (Cu2O). The shell causes a significant redshift of the localized surface plasmon resonance of Au into the near-IR. Electron–phonon coupling in the Au nanocage is 3–6 times faster in the core–shell structure due to the higher thermal conductivity of Cu2O compared to water. Coherent phonon oscillations within the Au lattice are characterized by a breathing mode of the entire structure for both bare and core–shell nanocages, an assignment made through the use of structural mechanics simulations. The experimental frequencies are obtained through simulations by selectively applying a force to the shell of the core–shell structure. We interpret this as rapid thermal expansion of the gold leading to a mechanical force that acts on the shell.
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Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00477A, Paper
Sadahiro Masuo, Wataru Sato, Yuji Yamaguchi, Mitsuharu Suzuki, Ken-ichi Nakayama, Hiroko Yamada Evaluation of the charge transfer efficiency of organic thin-film photovoltaic devices using fluorescence microspectroscopy. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00480A, Paper
Yilin Li, Joseph Olsen, Wen-Ji Dong A novel CN-free hydrocarbon as a luminescent down-shifting fluorophore that enhances the output short circuit current density of a CdTe solar cell by as high as 3.30 +/- 0.31%. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00301B, Paper
Francesco Nastasi, Fausto Puntoriero, Mirco Natali, Miriam Mba, Michele Maggini, Patrizia Mussini, Monica Panigati, Sebastiano Campagna A photoinduced triplet charge-separated state is formed in 1 in ca. 100 ps and recombines by a spin-selective process, forming the fullerene triplet state, within 10 ns. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
In this study, the effect of using folic acid on the in situ synthesis process of nanostructures has been investigated. Folic acid, as a biotemplate for synthesis of Cu2O/ZnO, was used to improve the reducing and stabilizing the ability of cotton fabric and avoid agglomeration of the particles. Scanning electron microscopy images revealed that using folic acid caused the formation of particles with smaller sizes on the cotton fabric and X-ray diffraction confirmed the same crystalline pattern of nanoparticles in comparison with the previous synthesis process. The effect of using this biotemplate on different properties of treated fabrics including UV-protection effect, hydrophilicity, crease recovery angle, softness, thickness and mechanical properties has been evaluated. The folic acid had a great influence on UV-protection effect, in synthesis procedure, decreasing the droplet absorption time, bending length and improving the wrinkle resistance and mechanical properties. Interestingly, the higher tensile strength of the treated cotton fabrics proved the incorporation of nanoparticles into the cotton fibers. An in situ, green and rapid method can be provided by using folic acid for the synthesis of the nanostructures with controlled size.
In this work, zinc chloride and copper sulfate have been used as precursors and Cu2O/ZnO nanoparticles have been synthesized in aqueous/alkali media at the presence of cotton fabrics and folic acid. Folic acid, as a biotemplate for synthesis of Cu2O/ZnO, was used to improve the reducing and stabilizing the ability of cotton fabric. Cotton fabric was used as a soft template to control the synthesis of desirable nanostructures with specific size and morphology.
Retinol degrades rapidly in light into a variety of photoproducts. It is remarkable that visual cycle retinoids can evade photodegradation as they are exchanged between the photoreceptors, retinal pigment epithelium and Müller glia. Within the interphotoreceptor matrix, all-trans retinol, 11-cis retinol and retinal are bound by interphotoreceptor retinoid-binding protein (IRBP). Apart from its role in retinoid trafficking and targeting, could IRBP have a photoprotective function? HPLC was used to evaluate the ability of IRBP to protect all-trans and 11-cis retinols from photodegradation when exposed to incandescent light (0 to 8842 μW cm−2); time periods of 0–60 min, and bIRBP: retinol molar ratios of 1:1 to 1:5. bIRBP afforded a significant prevention of both all-trans and 11-cis retinol to rapid photodegradation. The effect was significant over the entire light intensity range tested, and extended to the bIRBP: retinol ratio 1:5. In view of the continual exposure of the retina to light, and the high oxidative stress in the outer retina, our results suggest IRBP may have an important protective role in the visual cycle by reducing photodegradation of all-trans and 11-cis retinols. This role of IRBP is particularly relevant in the high flux conditions of the cone visual cycle.
Visual cycle retinoids are highly susceptible to UV-light-mediated photodegradation. However, interphotoreceptor retinoid-binding protein (IRBP), the most abundant protein component of the extracellular matrix surrounding the photoreceptors, affords significant photoprotection. This reveals a novel and important role of IRBP in protecting the retina from toxic retinoid photodegradation products.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00314D, Paper
Andriy Kozytskiy, Oleksandr Stroyuk, Mykola Skoryk, Stepan Kuchmiy The sulfidation of copper nanoparticles deposited onto ZnO surface by the photocatalytic reduction of Cu(II) results in the formation of ZnO/CuxS films that can be used as efficient counter electrodes in solar cells based on sulfide/polysulfide electrolytes. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00438H, Paper
Jamie Fong, Kamola Kasimova, Yaxal Arenas, Pavel Kaspler, Savo Lazic, Arkady Mandel, Lothar Lilge The photo-physical and photo-biological properties of two small (<2 kDa), novel Ru(II) photosensitizers (PSs) referred to as TLD1411 and TLD1433 are presented. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00432A, Paper
Nadezda G. Zhdanova, Evgeny A. Shirshin, Eugene G. Maksimov, Ivan M. Panchishin, Alexander M. Saletsky, Victor V. Fadeev Tyrosine fluorescence in native proteins is known to be effectively quenched, whereas its emission increases upon proteins' unfolding. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Luciferin regenerating enzyme (LRE) contributes to in vitro recycling of D-luciferin. In this paper, reinvestigation of the luciferase- based LRE assay is reported. Here, using quick change site-directed mutagenesis seven T-LRE (Lampyris turkestanicus LRE) mutants were constructed and the most functional mutant of T-LRE (T69R) was selected for this research and the effects of D- and L-cysteine on T69R T-LRE-luciferase coupled assay are examined. Our results demonstrate that bioluminescent signal of T69R T-LRE-luciferase coupled assay increases and then reach equilibrium state in the presence of 5 mM D-cysteine. In addition, results reveal that 5 mM D- and L-cysteine in the absence of T69R T-LRE cause a significant increase in bioluminescence intensity of luciferase over a long time as well as decrease in decay rate. Based on activity measurements, far-UV CD analysis, ANS fluorescence and DLS (Dynamic light scattering) results, D-cysteine increases the activity of luciferase due to weak redox potential, anti-aggregatory effects, induction of changes in conformational structure and kinetics properties. In conclusion, in spite of previous reports on the effect of LRE on luciferase bioluminescent intensity, the majority of increase in luciferase light output and time-course originate from the direct effects of D-cysteine on structure and activity of firefly luciferase.
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Xeroderma pigmentosum (XP) is a rare, recessively transmitted genetic disease characterized by increasingly marked dyspigmentation and xerosis (dryness) of sun-exposed tissues, especially skin. Skin cancers characteristically develop in sun-exposed sites at very much earlier ages than in the general population; these are often multiple and hundreds or even thousands may develop. Eight complementation groups have been identified. Seven groups, XP-A…G, are associated with defective genes encoding proteins involved in the nucleotide excision DNA repair (NER) pathway that recognizes and excises mutagenic changes induced in DNA by sunlight; the eighth group, XP-V, is associated with defective translesion synthesis (TLS) bypassing such alterations. The dyspigmentation, xerosis and eventually carcinogenesis in XP patients appear to be due to their cells’ failure to respond properly to these mutagenic DNA alterations, leading to mutations in skin cells. A subset of cases, especially those in some complementation groups, may develop neurological degeneration, which may be severe. However, in most XP patients, in the past the multiple skin cancers have led to death at an early age due to either metastases or sepsis. Using either topical 5-fluorouracil or imiquimod, we have developed a protocol that effectively prevents most skin cancer development in XP patients.
Xeroderma pigmentosum is a genetically heterogeneous recessively inherited disease associated with defective cellular responses to damage induced in DNA by sunlight. Most patients develop numerous skin cancers in sun-exposed sites. Hundreds, or even thousands of such tumors may develop, and metastatic spread of these lesions is the leading cause of death, often at an early age. We have now developed an effective treatment (Figure), administered before most clinically manifest tumors arise, which, combined with sun protection, prevents development of almost all skin cancers in patients with xeroderma pigmentosum. The remainder can readily be identified and excised separately.
Aluminum Chloride Phthalocyanine (AlPcCl) can be used as a photosensitizer (PS) for Photodynamic Inactivation of Microorganisms (PDI). The AlPcCl showed favorable characteristics for PDI due to high quantum yield of singlet oxygen (ΦΔ) and photostability. Physicochemical properties and photodynamic inactivation of AlPcCl incorporated in polymeric micelles of tri-block copolymer (P-123 and F-127) against microorganisms Staphylococcus aureus, Escherichia coli and Candida albicans were investigated in this work. Previously, it was observed that the AlPcCl undergoes self-aggregation in F-127, while in P-123 the PS is in a monomeric form suitable for PDI. Due to the self-aggregation of AlPcCl in F-127, this formulation did not show any effect on these microorganisms. On the other hand, AlPcCl formulated in P-123 was effective against S. aureus and C. albicans and the death of microorganisms was dependent on the PS concentration and illumination time. Additionally, it was found that the values of PS concentration and illumination time to eradicate 90% of the initial population of microorganisms (IC90 and D90, respectively) were small for the AlPcCl in P-123, showing the effectiveness of this formulation for PDI.
Formulations of aluminum chloride phthalocyanine were prepared in polymeric micelles of pluronic™ surfactants F-127 and P-123 and tested for inactivation of microorganisms. The process of incorporation of AlPcCl on copolymers was effective and the formulation obtained for the system AlPcCl/P-123 had good results against different kind of microorganisms.
The development of an Excel spreadsheet is described that calculates solar spectral irradiance between 290–3000 nm on an unshaded, horizontal surface under a cloudless sky at sea level, together with summary outputs such as global UV index, illuminance and percentage of energy in different wavebands. A deliberate goal of the project was to adopt the principle of Ockham's razor and to develop a model that is as simple as it can be commensurate with delivering results of adequate accuracy. Consequently, just four inputs are required—geographical latitude, month, day of month and time of day—resulting in a spreadsheet that is easily usable by anyone with an interest in sunlight and solar power irrespective of their background. The accuracy of the calculated data is sufficient for many applications where knowledge of the ultraviolet, visible and infrared levels in sunlight is of interest.
An Excel spreadsheet that calculates solar spectral irradiance between 290–3000 nm on an unshaded, horizontal surface under a cloudless sky at sea level, together with summary outputs such as global UV index, illuminance and percentage of energy in different wavebands. The spreadsheet is easy to use by anyone with an interest in sunlight and solar power irrespective of their background in that just four inputs are required—geographical latitude, month, day of month and time of day.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00478G, Paper
Yaling Su, Feizhou Chen, Zhengwen Liu Absorption and fluorescence properties of CDOM in 15 alpine lakes were investigated to determine its source and composition. This work provides useful information regarding CDOM in above/below-tree-line alpine lakes. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
The photocatalytic activity, of undoped and Europium doped LaSr2AlO5 powders, has been investigated by degrading methylene blue dye in water solutions. Those powders were fabricated by a combustion method and an annealing treatment in air. All samples showed a tetragonal single phase according to by X-ray diffraction measurements (XRD). Scanning electron microscopy (SEM) revealed irregular semi-oval grains with sizes in the range of 3.5-4.27 μm. Photoluminescence spectrum showed sharp emission peaks at 588 nm and at 617 nm which are associated to 7F1,7F25D0 Eu3+ ion forbidden transitions respectively, under UV light excitation of 322 nm. The methylene blue (MB) degradation under UV light (254 nm) was studied by monitoring changes in the absorbance peak of MB at 665 nm. Finally, LaSr2AlO5:Eu powders were used three times and the the efficiency for the degradation of MB decreased from 100% to 61% after the third cycle of use.
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Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00479E, Paper
Karina Scholtbach, Italo Venegas, Cornelia Bohne, Denis Fuentealba A combined time-resolved fluorescence and anisotropy analysis was used to study guest-cucurbit[n]uril-protein ternary supramolecular interactions in a model system. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Aoife A. Ryan, Mathias O. Senge Chlorophylls are the natural green pigments par excellence and offer potential as therapeutics and in energy generation. This perspective outlines the state-of-the-art, their possible applications and indicates future directions in the context of green chemistry and their production from biorefineries. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Long-range proton transfer plays an important role in many chemical and biological phenomena. It has recently been reported that the rate of excited-state multiple proton transfer depends on the acidity and basicity of mediating alcohols in the H-bonded wire. The excited-state triple proton transfer in 7-azaindole complexes through cyclic H-bonded wires was theoretically studied to investigate rates depending on the mediating alcohols. This study showed that the acidity and basicity of alcohols collectively functioned to assist proton transfers depending on the paths; the proton transfers of protolytic and solvolytic paths were assisted by the pull-behind effect and the push-ahead effect, respectively. Both proton-donating and accepting abilities of alcohols in the H-bonded wire can accumulate to help proton transfer, and the strong acidity and basicity of the alcohols with relatively small structural changes in the wire have larger impacts on reducing the activation energies than those of alcohols that trigger proton transfer.
Both proton-donating and accepting abilities of alcohols in the H-bonded wire can accumulate to help proton transfer, and the strong acidity and basicity of the alcohols with relatively small structural changes in the wire have larger impacts on reducing the activation energies than those of alcohols that trigger proton transfer.
The seasonal extremes of photoperiod in the high Arctic place particular strain on the human circadian system, which leads to trouble sleeping and increased feelings of negative affect in the winter months. To qualify for our study, potential participants had to have been at Canadian Forces Station (CFS) Alert (82° 30′ 00″ N) for at least 2 weeks. Subjects filled out questionnaires regarding sleep difficulty, psychological well-being and mood and wore Actigraphs to obtain objective sleep data. Saliva was collected at regular intervals on two occasions, 2 weeks apart, to measure melatonin and assess melatonin onset. Individuals with a melatonin rhythm that was in disaccord with their sleep schedule were given individualized daily light treatment interventions based on their pretreatment salivary melatonin profile. The light treatment prescribed to seven of the twelve subjects was effective in improving sleep quality both subjectively, based on questionnaire results, and objectively, based on the actigraphic data. The treatment also caused a significant reduction in negative affect among the participants. Since the treatment is noninvasive and has minimal associated side effects, our results support the use of the light visors at CFS Alert and other northern outposts during the winter for individuals who are experiencing sleep difficulty or low mood.
Subjects residing at Canadian Forces Station (CFS) Alert (82° 30′ 00″ N) filled out questionnaires regarding sleep difficulty, psychological well-being and mood and wore Actigraphs to obtain objective sleep data. Saliva was collected prior to and following treatment to measure melatonin and assess melatonin onset. Individuals were given individualized daily light treatment interventions based on their pretreatment salivary melatonin profile. The light treatments were effective in improving sleep quality and reducing negative affect among the participants.
We demonstrate that Blue-diode-based pulse amplitude modulation (PAM) technology can be used to measure the photosynthetic electron transport rate (ETR) of purple sulfur bacteria (Thermochromatium tepidum, Chromatiaceae). Previous studies showed that PAM technology could be used to estimate photosynthesis in purple nonsulfur bacteria and so PAM technology can be used to estimate photosynthesis of both kinds of purple photosynthetic bacteria. The absorptance of Thermochromatium films on glass fiber disks was measured and used to calculate actual ETR. ETR vs Irradiance (P vs E) curves fitted the waiting-in-line model (ETR = (ETRmax × E/Eopt) × exp (1−E/Eopt)). Yield (Y) was only ≈ 0.3–0.4. Thermochromatium saturates at 325 ± 13.8 μmol photons m−2 s−1 or ≈15% sunlight and shows photoinhibition at high irradiances. A pond of Thermochromatium would exhibit classic surface inhibition. Photosynthesis is extremely low in the absence of an electron source: ETR increases in the presence of acetate (5 mol m−3) provided as an organic carbon source and also increases in the presence of sulfite (3 mol m−3) but not sulfide and is only marginally increased by the presence of Fe2+. Nonphotochemical quenching does occur in Thermochromatium but at very low levels compared to oxygenic photo-organisms or Rhodopseudomonads.
Blue-Diode PAM Fluorescence technology can be used to monitor photosynthetic electron transport in Purple Sulfur Photosynthetic Bacteria. This is an important advance for bacterial photosynthetic studies because now photosynthesis of both purple sulfur and purple nonsulfur photosynthetic bacteria can be easily monitored without recourse to 14C methods in the laboratory and in lakes and microbial mats.
The specific fluorescence properties of morin (3,2′,4′,5,7-pentahydroxyflavone) were studied in various CH3OH–H2O and CH3CN–H2O mixed solvents. Although the dihedral angle is large in the S0 state, morin has an almost planar molecular structure in the S1 state owing to the very low rotational energy barrier around the interring bond between B and the A, C ring. The excited state intramolecular proton transfer (ESIPT) at the S1 state cannot occur immediately after excitation, S1 S0 fluorescence can be observed. Two conformers, Morin A and B have been known. At the CH3OH–H2O, Morin B will be the principal species but at the CH3CN–H2O, Morin A is the principal species. At the CH3OH–H2O, owing to the large Franck–Condon (FC) factor for S2 S1 internal convernal (IC) and flexible molecular structure, only S1 S0 fluorescence was exhibited. At the CH3CN–H2O, as the FC factor for S2 S1 IC is small and molecular structure is rigid, S2 S0 and S1 S0 dual fluorescence was observed. This abnormal fluorescence property was further supported by the small pK1 value, effective delocalization of the lone pair electrons of C(2′)–OH to the A, C ring, and a theoretical calculation.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00439F, Paper
Si-mei Sun, Song Zhang, Kai Liu, Ya-ping Wang, Bing Zhang The geometry relaxation in the singlet state and the intersystem crossing from relaxed singlet to triplet state are 70 and 398 ps, respectively. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochemical activation of meta-diynes incapable of Bergman and C1–C5 cyclizations still leads to efficient double-strand DNA cleavage. Spatial proximity of the two arylethynyl groups is not required for efficient DNA photocleavage by the enediyne-lysine conjugates. Efficiency of the cleavage is a function of the external pH and DNA damage is strongly enhanced at pH < 7. The pH-dependence of the DNA photocleavage activity stems from the protonation states of lysine amino groups, the internal electron donors responsible for intramolecular PET quenching and deactivation of the photoreactive excited states. DNA-binding analysis suggests intercalative DNA binding for phenyl substituted conjugate and groove binding for TFP-substituted conjugate. Additional insights in the possible mechanism for DNA damage from the ROS (Reactive Oxygen Species) scavenger experiments found that generation of singlet oxygen is partially involved in the DNA damage.
Upon photochemical activation, meta-bis-tetrafluoropyridinylalkyne-lysine conjugates induce pH-dependent DNA ds-photocleavage. Efficiency of DNA damage is strongly enhanced at pH < 7. The observed pH-dependence of the DNA photocleavage activity stems from change in the protonation states of lysine amino groups. The ROS (Reactive Oxygen Species) scavenger experiments suggest that singlet oxygen is partially involved in the DNA damage.
Exposure to ultraviolet (UV) light causes increased matrix metalloproteinase (MMP) activity and decreased collagen synthesis, leading to skin photoaging. Salvianolic acid B (SAB), a polyphenol, was extracted and purified from salvia miltiorrhiza. We assessed effects of SAB on UVB-induced photoaging and investigated its molecular mechanism of action in UVB-irradiated normal human dermal fibroblasts. Our results show that SAB significantly inhibited the UVB-induced expression of metalloproteinases-1 (MMP-1) and interleukin-6 (IL-6) while promoting the production of type I procollagen and transforming growth factor β1 (TGF-β1). Moreover, treatment with SAB in the range of 1–100 μg/mL significantly inhibited UVB-induced extracellular signal-regulated kinase (ERK), Jun N-terminal kinase (JNK), and p38 phosphorylation, which resulted in decreasing UVB-induced phosphorylation of c-Fos and c-Jun. These results indicate that SAB down-regulates UV-induced MMP-1 expression by inhibiting Mitogen-activated protein kinase (MAPK) signaling pathways and activator protein-1 (AP-1) activation. Our results suggest a potential use for SAB in skin photoprotection.
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Increased use of indoor tanning for cosmetic purposes has led to concerns for its impact on the risk of cutaneous cancers. The effects on UVR on skin depend on radiant dose, i.e. combination of irradiance and exposure duration. While a number of studies surveyed accessible emission from sunbeds, majority didn't include the information on doses received during tanning sessions. Spectral irradiance of 195 sunbeds in 5 areas of the UK was measured in order to assess the radiant doses for comparison with the SED. Erythema weighted irradiance of more than 85% of all tested solaria exceeded 0.3 W m−2, consistent with the findings of other studies. However, evaluation of radiant doses showed no evidence of increasing exposure per session in the UK in the last decade despite of the increasing sunbed emission levels. Use of sunbeds for cosmetic purposes should be discouraged, with effective enforcement of the ban on under-18 use, strict control on tanning duration and promotion of information on health risks of sunbed use. Such an integrated approach on safe equipment, safe use and information should reduce the risk of detrimental impact of sunbed use on public health.
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Jacques Piette The response of tumors to photodynamic therapy (PDT) largely depend on signaling pathways among which the pathway leading to NF-[small kappa]B activation is of high importance. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Intervertebral disc degeneration (IVD) is one of the important causes of low back pain and is associated with inflammation induced by interaction between macrophages and the human annulus fibrosus (AF) cells. Low-level light therapy (LLLT) has been widely known to regulate inflammatory reaction. However, the effect of LLLT on macrophage-mediated inflammation in the AF cells has not been studied till date. The aim of this study is to mimic the inflammatory microenvironment and to investigate the anti-inflammatory effect of LLLT at a range of wavelengths (405, 532 and 650 nm) on the AF treated with macrophage-like THP-1 cells conditioned medium (MCM) containing proinflammatory cytokines and chemokines (interleukin-1beta, tumor necrosis factor-alpha, interleukin-6 and 8). We observed that AF cells exposed to MCM secrete significantly higher concentrations of IL-6, IL-8, IL-1β and TNF-α. LLLT markedly inhibited secretion of IL-6 at 405 nm in a time-dependent manner. Level of IL-8 was significantly decreased at all wavelengths in a time-dependent manner. We showed that MCM can induce the inflammatory microenvironment in AF cells and LLLT selectively suppressed IL-6 and 8 levels. The results indicate that LLLT is a potential method of IVD treatment and provide insights into further investigation of its anti-inflammation effect on IVD.
The aim of this study is to mimic the inflammatory microenvironment and investigate the anti-inflammatory effect of LLLT at a range of wavelengths (405, 532 and 650 nm) on the AF treated with macrophage-like THP-1 cells conditioned medium (MCM) containing proinflammatory cytokines and chemokines. AF cells exposed to MCM secreted significantly higher concentrations of IL-6, IL-8, IL-1β and TNF-α. LLLT markedly inhibited secretion of IL-6 at 405 nm in a time-dependent manner. Level of IL-8 was significantly decreased at all wavelengths in a time-dependent manner. We showed that MCM can induce the inflammatory microenvironment in AF cells and LLLT selectively suppressed IL-6 and 8 levels.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00404C, Communication
Sara Saez, Chiara Fasciani, Kevin G. Stamplecoskie, Luke Brian-Patrick Gagnon, Thien-Fah Mah, M. Luisa Marin, Emilio I. Alarcon, Juan C. Scaiano In situ formed AgNP within polyurethane improved the antibacterial and antibiofilm activity against Pseudomonas aeruginosa with negligible toxicity for primary cells and erythrocytes. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
DNA-binding properties of 15-crown-5-derived mono- and bis-styryl dyes were investigated in the presence of calf thymus DNA. To access the factors that influence the DNA association in the series of these ligands, the structure of the molecules was varied by either changing size of the heterocyclic moiety or altering the position of the styryl substituents. The major binding mode for the monostyryl dyes is intercalation. Notably, binding of the dyes to the nucleic acids leads to a fluorescence enhancement by a factor of up to 54. Therefore, these cationic styryl derivatives may be applied as fluorescent “light-up” probes for DNA detection.
Binding of 15-crown-5-derived mono- and bis-styryl dyes to the nucleic acids leads to a fluorescence enhancement by a factor of up to 54.
Photochem. Photobiol. Sci., 2015, Advance Article DOI: 10.1039/C4PP00463A, Paper
Ni Lin, Chao Li, Zhonghua Wang, Jingxuan Zhang, Xiangfeng Ye, Wenjing Gao, Aiping Wang, Hongtao Jin, Jinfeng Wei Sinoporphyrin sodium (DVDMS) based photodynamic therapy (PDT) showed skin phototoxicity in Beagle dogs, did not accumulate in blood plasma, and had an effect on the immune organs and the liver. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Nanometal surface energy transfer (NSET) techniques on gold nanoparticles (AuNPs) have become an essential tool in molecular biophysics to identify structural details at long-range donor-acceptor distances. The NSET mechanism is well described, but it has been suggested that the use of large AuNPs in NSET may manipulate natural biomolecular function. If, in fact, such non-specific interactions with the AuNP surface can be quantified or contained, then NSET may offer more potential in tracking biomolecular folding than the most comprehensive methods in conformer determination (X-ray crystallography, NMR, EPR). Here we describe an NSET ruler capable of tracking Hybrid-2 telomere quadruplex folding and we demonstrate that nucleic acid appendage to AuNPs up to 10nm in diameter does not manipulate biomolecular function. The quadruplex folding of Hybrid-2 sequences was tracked by monitoring the emission of a DY680 dye on selected basepairs in the telomere sequence when appended to the surface of AuNPs (5-10nm). Emission-derived distances extracted from NSET theory correlate well to reported NMR structures of the antiparallel quadruplex. Moreover, NSET theory calculates identical donor-acceptor distal points between DY680 and all sizes of AuNPs, indicating that the AuNP tether is not dominant or disruptive towards nucleic acid folding.
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The intramolecular proton transfer in a newly synthesized molecule, 2-(2′-hydroxyphenyl)oxazolo[4,5-b]pyridine (HPOP) is studied using UV-visible absorption, fluorescence emission, fluorescence excitation and time-resolved fluorescence spectroscopy. In the ground state, the molecule exists as cis- and trans-enol in all the solvents. However, in dioxane, alcohols, acetonitrile, dimethylformamide and dimethylsulfoxide the keto tautomer is also observed in the ground state. Dual fluorescence is observed in HPOP where the large Stoke shifted emission is due to emission from the excited-state intramolecular proton transfer product, whereas the other emission is the normal emission from enol form. The fluorescence (both normal and tautomer emission) of HPOP is less than those of corresponding benzoxazole and imidazopyridine derivatives. This reveals that the nonradiative decay becomes more efficient upon substitution of electronegative atom on the charge acceptor group. The pH studies substantiate the conclusion that (unlike in its imidazole analog) the third ground state species is the keto tautomer and not the monoanion. The effect of temperature on cis-enol-trans-enol-keto equilibrium and the nonradiative deactivation from the excited state are also investigated.
Unlike its analogs 2-(2′-hydroxyphenyl)oxazolo[4,5-b]pyridine exists as keto tautomer along as enol in the ground state in several solvents.
The influence of trans fatty acids (TFA) on lipid profile, oxidative damage and mitochondrial function in the skin of rats exposed to ultraviolet radiation (UVR) was assessed. The first-generation offspring of female Wistar rats supplemented from pregnancy with either soybean oil (C-SO, rich in n–6 FA; control group) or hydrogenated vegetable fat (HVF, rich in TFA) were continued with the same supplements until adulthood, when half of each group was exposed to UVR for 12 weeks. The HVF group showed higher TFA cutaneous incorporation, increased protein carbonyl (PC) levels, decreased functionality of mitochondrial enzymes and antioxidant defenses of the skin. After UVR, the HVF group showed increased skin thickness and reactive species (RS) generation, with decreased skin antioxidant defenses. RS generation was positively correlated with skin thickness, wrinkles and PC levels. Once incorporated to skin, TFA make it more susceptible to developing UVR-induced disorders.
Metabolism of trans fat by COX and LOX: The dietary intake of trans fat favors the synthesis of biologically active prostanoids produced during inflammatory processes. After ultraviolet radiation exposure, trans fat supplementation, which is rich in trans fatty acids (TFA), increases the skin thickness, reactive species generation and decreases the skin antioxidant defenses.
Light conditions can influence fungal development. Some spectral wavebands can induce conidial production, whereas others can kill the conidia, reducing the population size and limiting dispersal. The plant pathogenic fungus Colletotrichum acutatum causes anthracnose in several crops. During the asexual stage on the host plant, Colletototrichum produces acervuli with abundant mucilage-embedded conidia. These conidia are responsible for fungal dispersal and host infection. This study examined the effect of visible light during C. acutatum growth on the production of conidia and mucilage and also on the UV tolerance of these conidia. Conidial tolerance to an environmentally realistic UV irradiance was determined both in conidia surrounded by mucilage on sporulating colonies and in conidial suspension. Exposures to visible light during fungal growth increased production of conidia and mucilage as well as conidial tolerance to UV. Colonies exposed to light produced 1.7 times more conidia than colonies grown in continuous darkness. The UV tolerances of conidia produced under light were at least two times higher than conidia produced in the dark. Conidia embedded in the mucilage on sporulating colonies were more tolerant of UV than conidia in suspension that were washed free of mucilage. Conidial tolerance to UV radiation varied among five selected isolates.
Light conditions influence the development of the plant pathogenic fungus Colletotrichum acutatum. Exposures to visible light during fungal growth increased production of conidia and mucilage as well as conidial tolerance to UV. Conidia embedded in the mucilage on sporulating colonies were more tolerant of UV than conidia in suspension that were washed free of mucilage.
Ultraviolet (UV) radiation from sunlight is a major etiologic factor for skin cancer, the most prevalent cancer in the United States, as well as premature skin aging. In particular, UVB radiation causes formation of specific DNA damage photoproducts between pyrimidine bases. These DNA damage photoproducts are repaired by a process called nucleotide excision repair, also known as UV-induced DNA repair. When left unrepaired, UVB-induced DNA damage leads to accumulation of mutations, predisposing people to carcinogenesis as well as to premature aging. Genetic loss of nucleotide excision repair leads to severe disorders, namely, xeroderma pigmentosum (XP), trichothiodystrophy (TTD) and Cockayne syndrome (CS), which are associated with predisposition to skin carcinogenesis at a young age as well as developmental and neurological conditions. Regulation of nucleotide excision repair is an attractive avenue to preventing or reversing these detrimental consequences of impaired nucleotide excision repair. Here, we review recent studies on molecular mechanisms regulating nucleotide excision repair by extracellular cues and intracellular signaling pathways, with a special focus on the molecular regulation of individual repair factors.
UVB radiation causes formation of specific DNA damage photoproducts between pyrimidine bases. These DNA damage photoproducts are repaired by a process called nucleotide excision repair. When left unrepaired, UVB-induced DNA damage leads to accumulation of mutations, predisposing affected individuals to carcinogenesis as well as to premature aging. Regulation of nucleotide excision repair is an attractive avenue to preventing or reversing these detrimental consequences of impaired nucleotide excision repair. Here, we review recent studies on molecular mechanisms regulating nucleotide excision repair by extracellular cues and intracellular signaling pathways, with a special focus on the molecular regulation of individual repair factors.
In this study, the characterization and photocatalytic activity of Bi2WO6/Bi2O3 under visible-light irradiation was investigated in detail. The results suggested that Bi2WO6/Bi2O3 can be synthesized by a facile one-pot hydrothermal route using a super big 200 mL Teflon-lined autoclave with optimal sodium oleate/Bi molar ratio of 1.25. Through the characterization of Bi2WO6/Bi2O3 by X-ray diffraction, scanning electron microscopy, X-ray photoelectron spectroscopy, Fourier transform infrared, UV-vis diffuse reflectance spectra and Photoluminescence spectra, it was found that the as-prepared composite possessed smaller crystallite size and higher visible-light responsive than the pure Bi2WO6. Moreover, it was expected that the as-prepared composites exhibited enhanced photocatalytic activity for the degradation of Rhodamine B under visible-light irradiation, which could be ascribed to their improved light absorption property and the reduced recombination of the photogenerated electrons and holes during the photocatalytic reaction. In general, this study could provide a principle method to synthesize Bi2WO6/Bi2O3 with enhanced photocatalytic activity by one-step hydrothermal synthesis route for environmental purification.
Bi2WO6/Bi2O3 can be synthesized by a facile one-pot hydrothermal route with sodium oleate using a super big 200 mL Teflon-lined autoclave. The as-prepared composites possessed smaller band gap and higher visible-light responsive than the pure Bi2WO6. The as-prepared composites exhibited enhanced photocatalytic activity for the degradation of RhB under visible-light irradiation, which could be ascribed to their improved light absorption property and the reduced recombination of the photogenerated electrons and holes during the photocatalytic reaction.
Microalgae are capable of acclimating to changes in light and ultraviolet radiation (UVR, 280–400 nm). However, little is known about how the ecologically important coccolithophore Emiliania huxleyi responds to UVR when acclimated to different light regimes. Here, we grew E. huxleyi under indoor constant light or fluctuating sunlight with or without UVR, and investigated its growth, photosynthetic performance and pigmentation. Under the indoor constant light regime, the specific growth rate (μ) was highest, while fluctuating outdoor solar radiation significantly decreased the growth rate. Addition of UVR further decreased the growth rate. The repair rate of photosystem II (PSII), as reflected in changes in PSII quantum yield, showed an inverse correlation with growth rate. Cells grown under the indoor constant light regime exhibited the lowest repair rate, while cells from the outdoor fluctuating light regimes significantly increased their repair rate. Addition of UVR increased both the repair rate and intracellular UV-absorbing compounds. This increased repair capability, at the cost of decreased growth rate, persisted after the cells were transferred back to the indoor again, suggesting an enhanced allocation of energy and resources for repair of photosynthetic machinery damage by solar UVR which persisted for a period after transfer from solar UVR.
We grew calcifying Emiliania huxleyi under indoor constant light and fluctuating sunlight regimes with or without UV radiation. The growth rate was the highest under the indoor, significantly decreased under fluctuating outdoor solar radiation, especially in the presence of UV radiation. When the UV-exposed cells were regrown under indoor light, the growth recovered slowly, which were predicted to take a month to catch the previous indoor growth rate. The results indicate that the cells, while growing under fluctuating light, require additional energy and resources for maintaining photosynthetic machinery and synthesizing UV-absorbing compounds at the cost of decreased growth rate.
Abhishek D. Garg, Hannelore Maes, Erminia Romano, Patrizia Agostinis Autophagy is fundamentally a cytoprotective and pro-survival process yet studies have shown that it has an exceedingly contextual role in cancer biology; depending on the phase, location or type of oncogenic trigger and/or therapy, its role could fluctuate from pro- to anti-tumourigenic. To cite this article before page numbers are assigned, use the DOI form of citation above. The content of this RSS Feed (c) The Royal Society of Chemistry
Photosynthetic organisms are adapted to light characteristics in their habitat in part via the spectral characteristics of the associated chlorophyll pigments, which differ in the position of a formyl group around the chlorin macrocycle (chlorophylls b, d, f) or no formyl group (chlorophyll a). To probe the origin of this spectral tuning, the photophysical and electronic structural properties of a new set of synthetic chlorins are reported. The zinc and free base chlorins have a formyl group at either the 2- or 3-position. The four compounds have fluorescence yields in the range 0.19–0.28 and singlet excited-state lifetimes of ca 4 ns for zinc chelates and ca 8 ns for the free base forms. The photophysical properties of the 2- and 3-formyl zinc chlorins are similar to those observed previously for 13-formyl or 3,13-diformyl chlorins, but differ markedly from those for 7-formyl analogs. Molecular-orbital characteristics obtained from density functional theory (DFT) calculations were used as input to spectral simulations employing the four-orbital model. The analysis has uncovered the key changes in electronic structure engendered by the presence/location of a formyl group at various macrocycle positions, which is relevant to understanding the distinct spectral properties of the natural chlorophylls a, b, d and f.
The location of the formyl group at the perimeter of the chlorin ring has a profound effect on the position of the long-wavelength chlorin absorption band. Photophysical studies of synthetic formyl chlorins combined with DFT calculations and use of the tetrapyrrole four-orbital model have identified the molecular physical origin of the observed spectral shifts.
Nobiletin is a unique flavonoid having polymethoxy groups and has exhibited anti-inflammatory and antiobesity effects. Here, we examined the inhibition of nobiletin on melanogenesis induced by endothelin-1 (ET) and stem cell factor (SCF) in normal human melanocytes. Nobiletin dose dependently reduced ET plus SCF-stimulated tyrosinase activity without causing cytotoxicity. Nobiletin reduced cAMP-response element-binding protein (CREB) phosphorylation and microphthalmia-associated transcription factor (MITF) expression, which is a key transcription factor for tyrosinase expression in pigmentation induced by ET plus SCF stimulation. Nobiletin treatment effectively decreased ET plus SCF-induced Raf-1, MEK and ERK1/2 phosphorylation and also downregulated the forskolin-induced phosphorylation of CREB. Furthermore, nobiletin inhibited ET plus SCF-triggered production of melanin and expression of MITF/tyrosinase in a three-dimensional human epidermal model. In accordance with protein expression, the expression of genes related to the pigmentation was also increased in the cells stimulated with ET plus SCF and the cotreatment with nobiletin decreased obviously the ET plus SCF-triggered gene expressions of tyrosinase, PMEL, TRP1 and MITF. Nobiletin contributes to hypopigmentation by downregulating MITF and tyrosinase expression through reduced Raf-1 phosphorylation. Our findings implicate nobiletin as a potential new whitening agent.
Nobiletin inhibited ET plus SCF-triggered production of melanin and expression of MITF/tyrosinase in human melanocytes and a three-dimensional human epidermal model. This is the first research emphasizing the antimelanogenesis potential of nobiletin isolated from citrus and its possibility of beneficial applications in the cosmetic industry.
The effect of ultraviolet (UV) radiation and copper (Cu) on apical segments of Pterocladiella capillacea was examined under two different conditions of radiation, PAR (control) and PAR+UVA+UVB (PAR+UVAB), and three copper concentrations, ranging from 0 (control) to 0.62, 1.25 and 2.50 μm. Algae were exposed in vitro to photosynthetically active radiation (PAR) at 70 μmol photons m−2 s−1, PAR + UVB at 0.35 W m−2 and PAR +UVA at 0.70 W m−2 during a 12-h photocycle for 3 h each day for 7 days. The effects of radiation and copper on growth rates, content of photosynthetic pigments and photosynthetic performance were analyzed. In addition, samples were processed for light and transmission electron microscopy. The content of photosynthetic pigments decreased after exposure to radiation and Cu. Compared with PAR radiation and copper treatments modified the kinetics patterns of the photosynthesis/irradiance curve. The treatments also caused changes in the ultrastructure of cortical and subcortical cells, including increased cell wall thickness and accumulation of plastoglobuli, as well as changes in the organization of chloroplasts. The results indicate that the synergistic interaction between UV radiation and Cu in P. capillacea, led to the failure of protective mechanisms and causing more drastic changes and cellular imbalances.
This study shows that both ultraviolet radiation (UVR) and copper (Cu) have deleterious effects on the macroalgae Pterocladiella capillacea, which toxicity led to drastic cellular changes and failure of protective mechanisms. Although UV radiation demonstrated to be more harmful than Cu, our results clearly indicate a synergistic interaction between the two stressors.
In 1968, Dr. James Cleaver reported defective DNA repair in cultured cells from patients with xeroderma pigmentosum. This link between clinical disease and molecular pathophysiology has sparked interest in understanding not only the clinical characteristics of sun sensitivity, damage and cancer that occurred in XP patients but also the mechanisms underlying the damage and repair. While affected patients are rare, their exaggerated UV damage provides a window into the workings of DNA repair. These studies have clarified the importance of a functioning DNA repair system to the maintenance of skin and neurologic health in the general population. Understanding the role of damage in causing cancer, neurologic degeneration, hearing loss and internal cancers provides an opportunity for prevention and treatment. Characterizing complementation groups pointed to the importance of different underlying genes. Studying differences in cancer age of onset and underlying molecular signatures in cancers occurring either in XP patients or the general population has led to insights into differences in carcinogenic mechanisms. The accelerated development of cancers in XP has been used as a model to discover new cancer chemopreventive agents. An astute insight can be a “tipping point” triggering decades of productive inquiry.
James Cleaver's 1968 report of defective DNA repair in patients with xeroderma pigmentosum (XP) inspired scientists at the National Institutes of Health to initiate long-term studies of patients with XP and related disorders. These have led to a better understanding of the role of DNA repair in protection from sunlight-induced cancer of the skin and eyes, in maintaining the integrity of the nervous system and in human development. XP serves as a model of the effectiveness of sun protection and of oral retinoids in prevention of skin cancers.
This study compares the abilities of the glutathione (GSH) and thioredoxin (Trx) antioxidant systems in defending cultured human lens epithelial cells (LECs) against UVA light. Levels of GSH were depleted with either L-buthionine-(S,R)-sulfoximine (BSO) or 1-chloro-2,4-dinitrobenzene (CDNB). CDNB treatment also inhibited the activity of thioredoxin reductase (TrxR). Two levels of O2, 3% and 20%, were employed during a 1 h exposure of the cells to 25 J cm−2 of UVA radiation (338–400 nm wavelength, peak at 365 nm). Inhibition of TrxR activity by CDNB, combined with exposure to UVA light, produced a substantial loss of LECs and cell damage, with the effects being considerably more severe at 20% O2 compared to 3%. In contrast, depletion of GSH by BSO, combined with exposure to UVA light, produced only a slight cell loss, with no apparent morphological effects. Catalase was highly sensitive to UVA-induced inactivation, but was not essential for protection. Although UVA light presented a challenge for the lens epithelium, it was well tolerated under normal conditions. The results demonstrate an important role for TrxR activity in defending the lens epithelium against UVA light, possibly related to the ability of the Trx system to assist DNA synthesis following UVA-induced cell damage.
Exposure of cultured human lens epithelial cells (LECs) to UVA light (25 J cm−2), or pretreatment of the cells with an inhibitor (1-chloro-2,4-dinitrobenzene) of thioredoxin reductase (TrxR), produced no damaging cellular effects. However, a combination of the two challenges produced substantial loss of LECs and cell damage, including death (arrows) and threadlike structures (arrowheads). In contrast, depletion of reduced glutathione (GSH) by L-buthionine-(S,R)-sulfoximine, combined with exposure to UVA light, produced only a slight cell loss, with no apparent morphological effects. The results demonstrate an important role for TrxR activity, possibly more so than GSH level, in defending the lens epithelium against UVA light.
The nitrobenzofurazan (NBD) moiety has gained tremendous popularity over the last decades due to its fluorogenic nature. Indeed, upon interaction with aliphatic amines, it generates a stable fluorescent adduct, which has been used for protein and lipid labeling. In fact the 4-amino substituted NBD belongs to the broad family of intramolecular charge transfer molecules, with the amino group acting as an electron donor upon photoexcitation, and the nitro group as an electron acceptor. Although the singlet excited state of 4-amino NBD derivatives has been abundantly studied, investigation of its triplet manifold is scarce and even the absence of intersystem crossing for this type of molecules has been suggested. However, intramolecular charge transfer molecules are known to undergo intersystem crossing and high phosphorescence quantum yields have been reported in a nonpolar solvent. In the present paper, we have investigated the photophysical and photochemical properties of N-hexyl-7-nitrobenzo[c][1,2,5]xadiazole-4-amine. We have shown the existence of a triplet state for this molecule in cyclohexane via nanosecond laser flash photolysis. Interestingly, deactivation of the triplet state leads to photoproducts formation, which are only present in the absence of oxygen.
While NBD derivatives are very popular fluorogenic compounds and their first excited states are well characterized, no study had investigated the ability of these compounds to undergo intersystem crossing. As many other intramolecular charge transfer molecules, NBD derivatives present a triplet state in a nonpolar solvent such as cyclohexane.
Flexible dye-sensitized solar cells (DSSCs) built on plastic substrates have attracted great interest as they are lightweight and can be roll-to-roll printed to accelerate production and reduce cost. However, plastic substrates such as PEN and PET are permeable to water, oxygen and volatile electrolyte solvents, which is detrimental to the cell stability. Therefore, to address this problem, in this work, an ionic liquid (IL) electrolyte is used to replace the volatile solvent electrolyte. The initial IL-based devices only achieved around 50% of the photovoltaic conversion efficiency of the cells using the solvent electrolyte. Current-voltage and electrochemical impedance spectroscopy (EIS) analysis of the cells in the dark indicated that this lower efficiency mainly originated from (i) a lack of blocking layer to reduce recombination, and (ii) a lower charge collection efficiency. To combat these problems, cells were developed using a 12 nm thick blocking layer, produced by atomic layer deposition, and 1 μm thick P25 TiO2 film sensitized with the hydrophobic MK-2 dye. These flexible DSSCs utilizing an IL electrolyte exhibit significantly improved efficiencies and a <10% drop in performance after 1000 h aging at 60°C under continuous light illumination.
Flexible dye-sensitized solar cells (DSSCs) with enhanced stability, built on ITO/PEN substrates and using an ionic liquid (IL) electrolyte, have been developed. A 12 nm thick blocking layer, produced by atomic layer deposition, was used to reduce electron recombination, and a 1 μm thick TiO2 film sensitized with the hydrophobic MK-2 dye was used to improve charge collection and extraction. These flexible DSSCs exhibit comparable efficiency to those cells using a solvent based electrolyte plus significantly improved stability, with a <10% drop in performance after 1000 h aging at 60°C under continuous light illumination.
The present work is aimed to synthesize CdTe/ZnSe core/shell quantum dots (QDs) in an easy way and to explore the possibilities of its application in in vitro imaging of chicken tissue and embryo. The QDs were prepared using microwave irradiation with different temperatures, which is a very easy and less time-consuming method. Subsequently, these QDs were characterized by spectrofluorimetry, Transmission Electron Microscopy, X-ray fluorescence analysis and Dynamic Light Scattering measurement. A blueshifting of the emission was found when ZnSe was deposited on CdTe QDs. The QDs showed its fluorescence emission quantum yields up to 25%. They were applied into chicken embryos and breast muscle tissues to study their efficiency in in vitro imaging. All the QDs of different color were able to visualize in in vitro imaging. The highest fluorescence intensity was detected in the case of red QDs prepared at 100°C. The green and red QDs were possible to detect up to the depth of 3 and 4 mm of the tissue, respectively.
CdTe/ZnSe core/shell quantum dots (QDs) were prepared using microwave irradiation with different temperatures which is a very easy and less time-consuming method. The QDs were characterized by spectrofluorimetry, TEM, X-ray fluorescence analysis and Dynamic Light Scattering measurement. A blueshifting of the emission was found when ZnSe was deposited on CdTe QDs. All the QDs were able to visualize in in vitro imaging of chicken tissue and embryo and the QDs prepared at 100°C showed the best result.
Low-level laser (light) therapy has been used before exercise to increase muscle performance in both experimental animals and in humans. However, uncertainty exists concerning the optimum time to apply the light before exercise. The mechanism of action is thought to be stimulation of mitochondrial respiration in muscles, and to increase adenosine triphosphate (ATP) needed to perform exercise. The goal of this study was to investigate the time course of the increases in mitochondrial membrane potential (MMP) and ATP in myotubes formed from C2C12 mouse muscle cells and exposed to light-emitting diode therapy (LEDT). LEDT employed a cluster of LEDs with 20 red (630 ± 10 nm, 25 mW) and 20 near-infrared (850 ± 10 nm, 50 mW) delivering 28 mW cm2 for 90 s (2.5 J cm2) with analysis at 5 min, 3 h, 6 h and 24 h post-LEDT. LEDT-6 h had the highest MMP, followed by LEDT-3 h, LEDT-24 h, LEDT-5 min and Control with significant differences. The same order (6 h > 3 h > 24 h > 5 min > Control) was found for ATP with significant differences. A good correlation was found (r = 0.89) between MMP and ATP. These data suggest an optimum time window of 3–6 h for LEDT stimulate muscle cells.
Mechanism of action of LLLT or LEDT on mitochondria in muscle cells. There is an increased flux of electrons through all the complexes of the electron transport chain, increased pumping of H+, increased synthesis of ATP and increased mitochondrial membrane potential as shown by TMRM fluorescence. The result is that muscles can perform much more work when light is delivered 3–6 h before exercise.
2-(2′-Hydroxyphenyl)benzoxazole (HBO) is known for undergoing intramolecular proton transfer in the excited state to result in the emission of its tautomer. A minor long-wavelength absorption band in the range 370–420 nm has been reported in highly polar solvents such as dimethylsulfoxide (DMSO). However, the nature of this species has not been entirely clarified. In this work, we provide evidence that this long-wavelength absorption band might have been caused by base or metal salt impurities that are introduced into the spectral sample during solvent transport using glass Pasteur pipettes. The contamination by base or metal salt could be avoided by using borosilicate glass syringes or nonglass pipettes in sample handling. Quantum chemical calculations conclude that solvent-mediated deprotonation is too energetically costly to occur without the aid of a base of an adequate strength. In the presence of such a base, the deprotonation of HBO and its effect on emission are investigated in dichloromethane and DMSO, the latter of which facilitates deprotonation much more readily than the former. Finally, the absorption and emission spectra of HBO in 13 solvents are reported, from which it is concluded that ESIPT is hindered in polar solvents that are also strong hydrogen bond acceptors.
Minor long-wavelength absorption bands of the excited state intramolecular proton transfer (ESIPT) dye 2-(2′-hydroxyphenyl)benzoxazole (HBO) have been observed in DMSO by us and others. These bands might have been caused by base or metal salt impurities introduced by glass Pasteur pipettes that are equipped with latex rubber bulbs. Without the interference of extraneous bases or metal salts, solvent-mediated deprotonation fails to occur. The propensity of HBO to deprotonation is much higher in DMSO than in less polar solvents. The solvatochromic shifts of HBO suggest that the ESIPT is hindered in polar solvents that are also strong hydrogen bond acceptors.
In an effort to create a molecule that can absorb low energy visible or near-infrared light for photochemotherapy (PCT), the new complexes [Ru(biq)2(dpb)](PF6)2 (1, biq = 2,2′-biquinoline, dpb = 2,3-bis(2-pyridyl)benzoquinoxaline) and [(biq)2Ru(dpb)Re(CO)3Cl](PF6)2 (2) were synthesized and characterized. Complexes 1 and 2 were compared to [Ru(bpy)2(dpb)](PF6)2 (3, bpy = 2,2′-bipyridine) and [Ru(biq)2(phen)](PF6)2 (4, phen = 1,10-phenanthroline). Distortions around the metal and biq ligands were used to explain the exchange of one biq ligand in 4 upon irradiation. Complex 1, however, undergoes photoinduced dissociation of the dpb ligand rather than biq under analogous experimental conditions. Complex 3 is not photoactive, providing evidence that the biq ligands are crucial for ligand photodissociation in 1. The crystal structures of 1 and 4 are compared to explain the difference in photochemistry between the complexes. Complex 2 absorbs lower energy light than 1, but is photochemically inert although its crystal structure displays significant distortions. These results indicate that both the excited state electronic structure and steric bulk play key roles in bidentate photoinduced ligand dissociation. The present work also shows that it is possible to stabilize sterically hindered Ru(II) complexes by the addition of another metal, a property that may be useful for other applications.
In an effort to create a molecule that can absorb low energy visible or near-infrared light for photochemotherapy (PCT) with easily tunable excited state properties, the new complexes [Ru(biq)2(dpb)](PF6)2 (1, biq = 2,2′-biquinoline, dpb = 2,3-bis(2-pyridyl)benzoquinoxaline) and [(biq)2Ru(dpb)Re(CO)3Cl](PF6)2 (2) were synthesized and characterized. Complex 1 undergoes photoinduced ligand dissociation of the dpb ligand in coordinating solvent in the PCT window, however, the bimetallic complex is photoinert but does absorb lower energy light. The differences in the photophysical properties and the crystal structures of the complexes are discussed and used to explain the differences in photoreactivity.
Nucleotide excision repair (NER) is an important modulator of disease, especially in constitutive deficiencies such as the cancer predisposition syndrome Xeroderma pigmentosum. We have found profound variation in NER capacity among normal individuals, between cell-types and during carcinogenesis. NER is a repair system for many types of DNA damage, and therefore many types of genotoxic carcinogenic exposures, including ultraviolet light, products of organic combustion, metals and oxidative stress. Because NER is intimately related to cellular metabolism, requiring components of both the DNA replicative and transcription machinery, it has a narrow range of functional viability. Thus, genes in the NER pathway are expressed at the low levels manifested by, for example, nuclear transcription factors. As NER activity and gene expression vary by cell-type, it is inherently epigenetically regulated. Furthermore, this epigenetic modulation is disregulated during sporadic breast carcinogenesis. Loss of NER is one basis of genomic instability, a required element in cellular transformation, and one that potentially influences response to therapy. In this study, we demonstrate differences in NER capacity in eight adult mouse tissues, and place this result into the context of our previous work on mouse extraembryonic tissues, normal human tissues and sporadic early stage human breast cancer.
We have shown profound variation in NER (Nucleotide Excision Repair) capacity in humans, between cell-types and during carcinogenesis. As NER is intimately related to both replication and transcription, it shows a narrow range of functional viability. NER activity and gene expression are epigenetically regulated, although this epigenetic modulation is disregulated during sporadic breast carcinogenesis. We now demonstrate differences in NER capacity in eight adult mouse tissues, including a complete lack of activity in brain, and place this result into the context of our previous work on mouse extraembryonic tissues, normal human tissues and sporadic early stage human breast cancer.
Deoxyribonucleic acid photosensitization, i.e. the photoinduced electron- or energy-transfer of chromophores interacting with DNA, is a crucial phenomenon that triggers important DNA lesions such as pyrimidine dimerization, even upon absorption of relatively low-energy radiation. Oxidative lesions may also be produced via the photoinduced production of reactive oxygen species. Aromatic ketones, and acetophenone in particular, are well known for their sensitization effects. In this contribution we model the structural and dynamical properties of the acetophenone/DNA aggregates as well as their spectroscopic and photophysical properties using high-level hybrid quantum mechanics/molecular mechanics methods. We show that the key steps of the photochemistry of acetophenone in gas phase are conserved in the macromolecular environment and thus an ultrafast singlet–triplet conversion of acetophenone is expected prior to the transfer to DNA.
Using a combination of Molecular Dynamics and QM/MM modeling we have characterized stable interaction modes between acetophenone and DNA. The effects of the macromolecular environment on the acetophenone photophysics have been elucidated, confirming that it is still able to efficiently photosensitize DNA by energy transfer from triplet state. In particular this is due to the maintaining of the quasidegenerescence between the first two acetophenone triplet states that are moreover characterized by a high spin-orbit coupling with the ground state. Our work gives important insights in the triplet sensitization mechanism and on the effect of the environment.
Photochem. Photobiol. Sci., 2015, 14,618-625 DOI: 10.1039/C4PP00266K, Paper
Stefanos Giannakis, Efthymios Darakas, Antoni Escalas-Canellas, Cesar Pulgarin Solar disinfection of wastewater is under study, as a process initiated on-site and continuing in nature. The environmental factors implicating the process (light intensity, intermittence and receiving water matrix) are also under study. The content of this RSS Feed (c) The Royal Society of Chemistry
The ability to repair DNA is a ubiquitous characteristic of life on Earth and all organisms possess similar mechanisms for dealing with DNA damage, an indication of a very early evolutionary origin for repair processes. James E. Cleaver's career (initiated in the early 1960s) has been devoted to the study of mammalian ultraviolet radiation (UVR) photobiology, specifically the molecular genetics of xeroderma pigmentosum and other human diseases caused by defects in DNA damage recognition and repair. This work by Jim and others has influenced the study of DNA damage and repair in a variety of taxa. Today, the field of DNA repair is enhancing our understanding of not only how to treat and prevent human disease, but is providing insights on the evolutionary history of life on Earth and how natural populations are coping with UVR-induced DNA damage from anthropogenic changes in the environment such as ozone depletion.
Sunlight is one of the most ubiquitous hazards for life on Earth. Although some aspects of solar radiation are beneficial (e.g. photosynthesis, vision, vitamin D synthesis), the ultraviolet B (UVB) component causes substantial damage to DNA resulting in debilitating and lethal effects. All organisms are capable of repairing DNA photoproducts and repair pathways are remarkably similar. While DNA repair research often focuses on human diseases and the development of cancer; solar DNA damage is also an important component of ecosystem health and stability. This review provides an overview of DNA repair in non-mammalian taxa relative to ambient UVB stress.
Methyl tert-butyl ether is a commonly used fuel oxygenate that is present in gasoline. It was introduced to eliminate the use of leaded gasoline and to improve the octane quality because it aids in the complete combustion of fuel by supplying oxygen during the combustion process. Over the past decade, the use of MTBE has increased tremendously worldwide. For obvious reasons relating to accidental spillage, MTBE started to appear as an environmental and human health threat because of its nonbiodegradable nature and carcinogenic potential, respectively. In this work, MTBE was degraded with the help of an advanced oxidation process through the use of zinc oxide as a photocatalyst in the presence of visible light. A mixture of 200 mg of zinc oxide in 350 mL of 50 ppm MTBE aqueous solution was irradiated with visible light for a given time. The complete degradation of MTBE was recorded, and approximately 99% photocatalytic degradation of 100 ppm MTBE solution was observed. Additionally, the photoactivity of 1% Pd-doped ZnO was tested under similar conditions to understand the effect of Pd doping on ZnO. Our results obtained under visible light irradiation are very promising, and they could be further explored for the degradation of several nondegradable environmental pollutants.
The photocatalytic degradation of aqueous MTBE solution was studied using zinc oxide as a photocatalyst. Complete MTBE removal was achieved within 9 h under visible light irradiation using ZnO particles. MTBE removal is attributed to the visible light excitation of the photocatalyst resulting in the generation of photoexcited electron/hole pairs. This method can be considered as an efficient and complete removal system of MTBE from water.
The International Commission on Non-Ionizing Radiation Protection (ICNIRP) has established guidelines for exposure to ultraviolet radiation in outdoor occupational settings. Spectrally weighted ICNIRP ultraviolet exposures received by the skin or eye in an 8 h period are limited to 30 J m−2. In this study, the time required to reach the ICNIRP exposure limit was measured daily in 10 min intervals upon a horizontal plane at a subtropical Australian latitude over a full year and compared with the effective Vitamin D dose received to one-quarter of the available skin surface area for all six Fitzpatrick skin types. The comparison of measured solar ultraviolet exposures for the full range of sky conditions in the 2009 measurement period, including a major September continental dust event, show a clear relationship between the weighted ICNIRP and the effective vitamin D dose. Our results show that the horizontal plane ICNIRP ultraviolet exposure may be used under these conditions to provide minimum guidelines for the healthy moderation of vitamin D, scalable to each of the six Fitzpatrick skin types.
The relationship between vitamin D dose and the International Commission on Non-Ionizing Radiation Protection (ICNIRP) UV exposure is studied from measurements made in Southern Queensland, Australia. The measurements take into account all weather and atmospheric conditions including a major continental dust storm event (NASA MODIS Terra image, 23 September 2009). Personal minimum exposure guidelines for the optimal production of vitamin D are presented for each of the internationally recognized UV index ranges relative to the received ICNIRP exposure. The measured data show that the healthy production of vitamin D can be maintained at subtropical latitude without exceeding ICNIRP exposure guidelines.
This study aimed to document the vitamin D status of HIV-infected individuals across a wide latitude range in one country and to examine associated risk factors for low vitamin D. Using data from patients attending four HIV specialist clinics across a wide latitude range in Australia, we constructed logistic regression models to investigate risk factors associated with 25(OH)D < 75 nmol L−1. 1788 patients were included; 87% were male, 76% Caucasian and 72% on antiretroviral therapy. The proportion with 25(OH)D < 50 nmol L−1 was 27%, and <75 nmol L−1 was 54%. Living in Melbourne compared with Cairns (adjusted odds ratio (aOR) 3.30; 95% CI 2.18, 4.99, P <0.001) and non-Caucasian origin (aOR 2.82, 95% CI 2.12, 3.75, P <0.001) was associated with an increased risk, while extreme UV index compared with low UV index was associated with a reduced risk (aOR 0.33; 95% CI 0.20, 0.55, P <0.001) of 25(OH)D < 75 nmol L−1. In those with biochemistry available (n = 1117), antiretroviral therapy was associated with 25(OH)D < 75 nmol L−1; however, this association was modified by serum cholesterol status. Location and UV index were the strongest factors associated with 25(OH)D < 75 nmol L−1. Cholesterol, the product of an alternative steroid pathway with a common precursor steroid, modified the effect of antiretroviral therapy on serum 25(OH)D.
Low vitamin D is commonly found in people with HIV. This figure presents the unadjusted proportions of people with 25(OH)D <75 nmol L−1 grouped by UV index categories and the four different study locations in Australia [Cairns (latitude 17°S), Nambour (27°S), Brisbane (28°S) and Melbourne (38°S)]. In this study, we describe these and other factors contributing to serum 25(OH)D levels in people with HIV in Australia. Antiretroviral therapy was also associated with 25(OH)D <75 nmol L−1 which appeared to be modified by cholesterol and warrants further exploration in future studies.
Exciplexes of 9,10-dicyanoanthracene (DCA) with alkylbenzene donors in cyclohexane show structureless emission spectra, typical of exciplexes with predominantly charge-transfer (CT) character, when the donor has a relatively low oxidation potential (Eox), e.g. hexamethylbenzene (HMB). With increasing Eox and stronger mixing with a locally excited (LE) state, vibrational structure begins to appear with 1,2,3,5-tetramethylbenzene and becomes prominent with p-xylene (p-Xy). A simple theoretical model reproduces the spectra and the radiative rate constants, and it reveals several surprises: Even in this nonpolar solvent, the fractional CT character of a highly mixed exciplex varies widely in response to fluctuations in the microscopic environment. Environments that favor the LE (or CT) state contribute more to the blue (or red) side of the overall spectrum. It is known that sparsely substituted benzene radical cations, e.g., p-Xy•+, are stabilized more in acetonitrile than the heavily substituted HMB•+. Remarkably, ion pairing with DCA•– in cyclohexane leads to even larger differences in the stabilization of these radical cations. The spectra of the low-Eox donors are almost identical except for displacements that approximately equal the differences in Eox, even though the exciplexes have varying degrees of CT character. These similarities result from compensation among several nonobvious, but quantified factors.
Exciplexes of 9,10-dicyanoanthracene with low oxidation potential (Eox) alkylbenzenes in cyclohexane show structureless emission spectra suggesting ideal charge-transfer (CT) states. With higher Eox donors, vibrational structure emerges. A theoretical model of mixing with a locally excited (LE) state reproduces the spectra and radiative rate constants. The fractional CT character of a highly mixed exciplex varies widely with fluctuations in the microscopic environment and/or librational geometry. Fluctuations favoring the LE (or CT) state contribute more to the blue (or red) side of the overall spectrum. The “ideal CT” appearance of the low-Eox spectra is illusory, resulting instead from several compensating factors.
The present study deals with G-quadruplexes formed by folding of the human telomeric sequence d(GGGTTAGGGTTAGGGTTAGGG), in presence of K+ cations, noted Tel21/K+. Fluorescence decays and fluorescence anisotropy decays, obtained upon excitation at 267 nm, are probed from femtosecond to nanosecond domains using two different detection techniques, fluorescence upconversion and time-correlated single photon counting. The results are discussed in light of recent theoretical studies. It is shown that efficient energy transfer takes place among the bases on the femtosecond time scale, possible only via exciton states. The major part of the fluorescence originates from bright excited states having weak charge transfer character and decaying between 1 and 100 ps. Charge transfer states involving guanines in different tetrads decay mainly after 100 ps and emit at the red wing of the spectrum. The persistence of electronic excitations in Tel21/K+ is longer and the contribution of charge transfer states is more pronounced than what is observed for G-quadruplexes formed by association of four d(TGGGT) strands and containing the same number of tetrads. This difference is due to the increased structural rigidity of monomolecular structures which reduces nonradiative deactivation pathways and favors collective effects.
G-quadruplexes formed by folding of the human telomeric sequence d(GGGTTAGGGTTAGGGTTAGGG) in presence of K+ ions are studied by fluorescence spectroscopy from femtosecond to nanosecond domains. Population of exciton states leads to ultrafast energy transfer. Bright excited states with weak charge transfer character emit at the fluorescence maximum and decay between 1 and 100 ps. Charge transfer states with longer lifetime emit at lower energy. Due to the increased rigidity of these monomolecular structures, the persistence of excitations is longer and the contribution of charge transfer states is more pronounced than what is observed for tetramolecular G-quadruplexes.
This work reports an examination of singlet oxygen reactions with amino acid substrates by a method involving measurement of the change in phosphorescence intensity of the singlet oxygen sensitizer. The sensitizer, a Ru(II) bipyridyl complex covalently linked to pyrene, has long-lived phosphorescence in N2 purged aqueous solutions (τ0 ~ 20 μs) that is nearly completely quenched by oxygen in aerated solutions. Irradiation of the complex in water containing sub mM concentrations of histidine, tryptophan and methionine results in a dramatic, easily visible increase in the phosphorescence intensity over a period of 10–100 s. Rate constants for singlet oxygen oxidation of each of the substrates can be obtained by using changes in the phosphorescence intensity in initial rate kinetic analysis. Rate constants obtained in this way compare favorably with those reported in the literature. The method represents a very simple approach for obtaining rate constants for singlet oxygen reactions with various substrates and the kinetics can be extended to nonaqueous solvents.
Photolysis of a Ruthenium-pyrene complex in oxygenated aqueous solutions results in efficient sensitization of singlet oxygen. In the presence of substrates, large increases in the orange luminescence of the Ruthenium-pyrene complex are observed as dissolved oxygen reacts with the substrate. Luminescence intensity changes allow determination of rate constants for singlet oxygen reaction with substrates.
The fish genus Xiphophorus consists of 26 species distributed along the eastern slopes of mountain ranges extending from northern Mexico to Belize and Nicaragua. We analyzed light-dependent repair of UV-induced DNA damage in at least two species from each of the four monophyletic Xiphophorus groups. We found that the northern platyfish had significantly reduced photoenzymatic repair compared to the other three groups, including the northern swordtails, southern platyfish and southern swordtails. All of the species of the northern platyfish, including the Marbled (meyeri), Northern (gordoni) and Monterrey Platyfish (couchianus) are the northernmost species in the genus and are the only three species in the genus that are currently found on the IUCN Red List of Threatened Species. Satellite data from the past 30 years (1979–2008) correlate greater increases in shorter wavelength UVB with higher latitudes within the Xiphophorus range. We suggest that, combined with other consequences of human population growth, anthropogenic deozonation resulting in a disproportionate increase in UVB in temperate latitudes may be a contributing factor in the decline and extirpation of the northern platyfish.
Geographical distribution of 26 species of the genus Xiphophorus with three northern species is highlighted. The three species comprising the Rio Grande Platyfish are the only Xiphophorus listed on the IUCN Red List of Threatened Species and this clade as a whole displays significantly reduced DNA repair compared to the other species in the genus.
The photochemical properties of three o-amino analogs of the green fluorescence protein chromophore O0, O1 and O8 (o-ABDIs) have been investigated and compared with those of the m- and p-amino isomers (m-ABDIs and p-ABDIs) in solutions, aggregates, and the solid state. In aprotic solvents, the fluorescence competes with the Z E photoisomerization for all cases, and the o-ABDIs display a fluorescence quantum efficiency of 1–6%, lying between the m-ABDIs of 5–48% and the p-ABDIs of < 0.1%. The fluorescence of both the o- and m-ABDIs is nearly quenched in protic solvents, attributable to the solvent–solute hydrogen bonding (SSHB) interactions. The phenomenon of aggregation-induced emission observed for O8 in poor solvents resembles the behavior of M8 as a consequence of exclusion of the SSHB interactions and restriction of internal rotation for molecules located inside the aggregates. The occurrence of [2 + 2] photodimerization for O0 in the solid state is unique among the ABDIs, and the X-ray crystal structures of O0 and the photodimer OD reveal the head-to-tail syn-oriented stereochemistry. Analysis on the X-ray crystal structures of O0, O1, M0, M1 and P0 shows that not only the pairwise topochemical geometry but also the columnar packing mode is important in determining the photodimerization reactivity.
The GFP-like chromophore O0 undergoes solid-state [2 + 2] photodimerization to form a head-to-tail syn-oriented photodimer OD that is confirmed by X-ray crystallography. The excited-state “meta-ortho effect” of the amino analogs of GFP chromophore in solutions and aggregates is also established and discussed.
cis-1,2-Di(1-methyl-2-naphthyl)ethene, c-1,1, undergoes photoisomerization in methylcyclohexane, isopentane and diethyl ether/isopentane/ethanol glasses at 77 K. On 313 nm excitation the fluorescence of c-1,1 is replaced by fluorescence from t-1,1. Singular value decomposition reveals that the spectral matrices behave as two component systems suggesting conversion of a stable c-1,1 conformer to a stable t-1,1 conformer. However, the fluorescence spectra are λexc dependent. Analysis of global spectral matrices shows that c-1,1 is a mixture of two conformers, each of which gives one of four known t-1,1 conformers. The λexc dependence of the c-1,1 fluorescence spectrum is barely discernible. Structure assignments to the resolved fluorescence spectra are based on the principle of least motion and on calculated geometries, energy differences and spectra of the conformers. The relative shift of the c-1,1 conformer spectra is consistent with the shift of the calculated absorption spectra. The calculated structure of the most stable conformer of c-1,1 agrees well with the X-ray crystal structure. Due to large deviations of the naphthyl groups from the ethenic plane in the conformers of both c- and t-1,1 isomers, minimal motion of these bulky substituents accomplishes cistrans interconversion by rotation about the central bond.
One bond twist photoisomerization of cis-I,2-di(1-methyl-2-naphthyl)ethene in glassy media.
Photochem. Photobiol. Sci., 2015, 14,608-617 DOI: 10.1039/C4PP00269E, Paper
Melisa L. Mariani, Roberto L. Romero, Cristina S. Zalazar A kinetic model to interpret the simultaneous oxidation of a mixture of herbicides (glyphosate and 2,4-D) in water using the UV/H2O2 process was proposed. Good agreement of the experimental data and the model were achieved. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,603-607 DOI: 10.1039/C4PP00377B, Paper
Iosif Tantis, Leda Bousiakou, George-Albert Karikas, Panagiotis Lianos Photocatalytic and photoelectrocatalytic degradation of the antibacterial fluoroquinolone drug, ciprofloxacin, has been studied in the presence of nanocrystalline titania films supported on glass slides or transparent electrodes. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,597-602 DOI: 10.1039/C4PP00261J, Paper
Elim Albiter, Salvador Alfaro, Miguel A. Valenzuela The photo-oxidation of DMA could be carried out in 3 steps: the first step is the photosensitized production of 1O2 near the surface of the composite; the second step is the diffusion of 1O2 from the surroundings of the surface to the solvent and the third step is the homogeneous reaction between 1O2 and DMA. The content of this RSS Feed (c) The Royal Society of Chemistry
Photodimerization of cocrystals of four bispyridylethylenes and two stilbazoles with urea as a template in the solid state has been investigated following our success with thiourea. Four investigated olefins photodimerized quantitatively to a single dimer in the crystalline state only. The reactivity of urea–olefin crystals is understood on the basis of their packing arrangements in the crystalline state. In reactive crystals the adjacent reactive molecules are within 4.2 Å and parallel, whereas the unreactive ones have their adjacent molecules are farther than 4.6Å and nonparallel. Thus, with the knowledge of crystal packing the reactivity of urea–olefin crystals is predictable on the basis of Schmidt's topochemical postulates. The templating property of urea, similar to thiourea, derives from its ability to form hydrogen bonds with itself and the guest olefins. Despite the similarities in molecular structures of urea and thiourea their subtle electronic properties, yet to be fully understood, affect the crystal packing and consequently their reactivity in the crystalline state. Further work is needed to fully exploit the templating properties of urea.
Templating properties of urea in solid-state photodimerization of stilbazoles and bispyridylethylenes have been established through a study that combined photochemistry and X-ray crystallography. The templating ability of urea derives from its ability to form hydrogen bond with itself and with coguests stilbazoles and bispyridylethylenes. At this stage, it is not easy to predict when urea will and when will not function as a template.
Photochem. Photobiol. Sci., 2015, 14,569-575 DOI: 10.1039/C4PP00230J, Paper
T. Olmez-Hanci, I. Arslan-Alaton, D. Dursun, B. Genc, D. G. Mita, M. Guida, L. Mita This paper discusses the degradation and mineralization of the nonionic surfactant and octylphenol polyethoxylate (OPEO) Triton[trade mark sign] X-45 via the peroxymonosulfate (PMS)/UV-C treatment process. The inhibitory effect of aqueous OPEO solution and its oxidation products was investigated by employing a battery of toxicity tests. The content of this RSS Feed (c) The Royal Society of Chemistry
The mechanism and dynamics of photoinduced electron transfer in two families of DNA hairpins possessing Michler's ketone linkers have been investigated by means of steady state and time-resolved transient absorption and emission spectroscopies. The excited state behavior of the diol linker employed in hairpin synthesis is similar to that of Michler's ketone in methanol solution. Hairpins possessing only a Michler's ketone linker undergo fast singlet state charge separation and charge recombination with an adjacent purine base, attributed to well-stacked ground state conformations, and intersystem crossing to the triplet state, attributed to poorly stacked ground state conformations. The failure of the triplet to undergo electron transfer reactions on the 7 ns time scale of our measurements is attributed to the low triplet energy and reduction potential of the twisted triplet state. Hairpins possessing both a Michler's ketone linker and a perylenediimide base surrogate separated by four base pairs undergo photoinduced hole transport from the diimide to Michler's ketone upon excitation of the diimide. The efficiency of hole transport is dependent upon the sequence of the intervening purine bases.
The behavior of DNA conjugates having Michler's ketone hairpin linkers is dependent upon the ground state conformation of the linker. Linkers in which there is little interaction with the adjacent base pair undergo fluorescence and intersystem crossing to form a long-lived triplet state; whereas linkers that are stacked with an adjacent purine base undergo fast, reversible electron transfer.
Photochem. Photobiol. Sci., 2015, 14,576-582 DOI: 10.1039/C4PP00262H, Paper
M. Bekbolet, S. Sen-Kavurmaci Photocatalytic oxidation leads to a drastic change in excitation emission matrix (EEM) fluorescence features of humic acid molecular size fractions. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,591-596 DOI: 10.1039/C4PP00271G, Paper
Marcin Janczarek, Anna Zielinska-Jurek, Irmina Markowska, Jan Hupka Thin films of Cu-TiO2 with high transparency were prepared using a low-cost dip-coating method. The visible light activity of Cu-TiO2 in the aqueous solution was confirmed in relation to model organic compounds. The content of this RSS Feed (c) The Royal Society of Chemistry
Roghayeh Imani, Peter Veranic, Ales Iglic, Mateja Erdani Kreft, Meysam Pazoki, Samo Hudoklin Paper shows that internalization of the TiO2 microbeads followed by the UV-irradiation is an efficient approach for killing cancer urothelial cells. Additionally, differentiation dependent differences in the sensitivity of the cells to the UV-irradiation are shown, and a model of photocatalytic treatment of the in vivo bladder cancer is presented. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,563-568 DOI: 10.1039/C4PP00268G, Paper
Theodoros S. Symeonidis, Ioannis Tamiolakis, Gerasimos S. Armatas, Ioannis N. Lykakis Decatungstate supported on mesoporous TiO2 nanoparticle assemblies catalyze the selective and efficient oxidation of aromatic alcohols under "green" oxidation conditions. An electron transfer mechanism was predominated under UV-vis irradiation. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,550-555 DOI: 10.1039/C4PP00252K, Paper
V. Vaiano, D. Sannino, P. Ciambelli The performances of Pd/TiO2 catalysts in the steam reduction of CO2 were analyzed in a photocatalytic and in a thermo-catalytic system. The comparison showed the superiority of the photocatalytic route. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,556-562 DOI: 10.1039/C4PP00256C, Paper
M. S. Peres, M. G. Maniero, J. R. Guimaraes Photocatalytic processes (UV/TiO2 and UV/TiO2/H2O2) were used for ofloxacin degradation. The antimicrobial activity of ofloxacin solutions subjected to degradation processes was evaluated. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,501-505 DOI: 10.1039/C4PP00263F, Paper
Tiele Caprioli Machado, Marla Azario Lansarin, Camila Silva Ribeiro The application of photochemical reduction of Cr(VI) in the treatment of wastewater from the electroplating industry was studied, and a spiral shaped reactor was designed and constructed (SSR). The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,536-542 DOI: 10.1039/C4PP00273C, Paper
J. J. Macias-Sanchez, L. Hinojosa-Reyes, A. Caballero-Quintero, W. de la Cruz, E. Ruiz-Ruiz, A. Hernandez-Ramirez, J. L. Guzman-Mar The photocatalytic performance of modified 30% wt. N-ZnO nanoparticles under visible light irradiation was demonstrated by the oxidation of picloram and 2,4-D. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,528-535 DOI: 10.1039/C4PP00277F, Paper
Zacharias Frontistis, Evroula Hapeshi, Despo Fatta-Kassinos, Dionissios Mantzavinos In this work, the degradation of the azo dye methyl orange in model aqueous solutions by UVC light-induced persulfate oxidation was studied. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,543-549 DOI: 10.1039/C4PP00274A, Paper
M. L. Maya-Trevino, M. Villanueva-Rodriguez, J. L. Guzman-Mar, L. Hinojosa-Reyes, A. Hernandez-Ramirez A comparative study of the catalytic activity of ZnO-Fe2O3 and ZnO-Fe0 0.5 wt% materials was carried out for the degradation of commercial 2,4-D herbicide using a compound parabolic collector (CPC) reactor. The content of this RSS Feed (c) The Royal Society of Chemistry
2-Diazo-1,2-naphthoquinone (1) and its derivatives are the photoactive components in Novolak photoresists. A femtosecond infrared study has established that the photoreaction of 1 proceeds largely by a concerted Wolff rearrangement yielding the ketene 1H-inden-1-ylidene-methanone (3) within 300 fs after excitation, but earlier trapping studies gave evidence for a minor reaction path via a carbene intermediate 1-oxo-2(1H)-naphthalenylidene (2) with a lifetime of about 10 ps. Here, we provide a quantitative assessment of the stepwise pathway by Stern–Volmer analysis of the trapping of 2 by methanol to yield 2-methoxy-1-naphthol (4). We conclude that the lifetime of the carbene 2 is at least 200 ps. Moreover, [3 + 2]cycloaddition of 2 and acetonitrile yielding 2-methylnaphth[2,1-d]oxazole (5) was observed. A comparison of the yields of 5 formed upon photolysis and upon thermolysis of 1 in acetonitrile provides evidence that a substantial part of the hot nascent carbene 2 formed photolytically rearranges to the ketene 3 during its vibrational relaxation (hot ground-state reaction).
A quantitative assessment of the stepwise versus concerted photodeazotization pathways of 2-diazo-1,2-naphthoquinone (1) forming ketene 3 is provided. Trapping of the carbene intermediate 2 by methanol yields 2-methoxy-1-naphthol (4) in up to 12% yield. [3+2]Cycloaddition of 2 and acetonitrile yielding 2-methylnaphth[2,1-d]oxazole (5) was also observed. The lifetime of the thermalized carbene 2 is at least 200 ps. A comparison of the yields of 5 formed upon photolysis and upon thermolysis of 1 in acetonitrile provides evidence that a substantial part of the hot nascent carbene 2 formed photolytically rearranges to the ketene 3 during its vibrational relaxation (hot ground-state reaction).
Photochem. Photobiol. Sci., 2015, 14,514-519 DOI: 10.1039/C4PP00270A, Paper
Rafal Sadowski, Magdalena Strus, Marta Buchalska, Piotr B. Heczko, Wojciech Macyk A transparent polypropylene foil pre-treated with a low temperature plasma and covered with sensitized, nanocrystalline TiO2 thin film, appears to be a useful, self-sterilizing material activated upon visible light irradiation. The content of this RSS Feed (c) The Royal Society of Chemistry
The photophysical properties of fluorescent Hammett acidity indicator derived from 3,4,5,6-tetrahydrobis(pyrido[3,2-g]indolo)[2,3-a:3′,2′-j]acridine (1a), 6-bis(pyrido[3,2-g]indol-2′-yl)pyridine (1b) and their analogues have been investigated in sulfuric acid solutions by means of absorption, fluorimetry, relaxation dynamics and computational approach. These new indicators undergo a reversible protonation process in the Hammett acidity range of H0 < 0, accompanied by a drastic increase of the bright blue-green (1a) or yellow (1b) fluorescence intensity upon increasing the acidity. For 1a in H2SO4, the emission yield increases as large as 200 folds from pH = −0.41 to the Hammett acidity range of −5.17, the results of which are rationalized by a much increase of the steric hindrance upon third protonation toward the central pyridinic site, together with their accompanied changes of electronic configuration from charge transfer to a delocalized ππ* character in the lowest lying excited state. The combination of 1a and 1b renders a wide and linear range of H0 measurement from −1.2 to −5.1 detected by highly intensive fluorescence.
A new series of fluorescent indicators are developed for sensing super acids. The fluorescence intensity switches from the nonemissive state (the diprotonated form) to the intense emissive state (the triprotonated form) with pKa as low as −3.16. This super acid indicator with the highly emissive intensity, great chemical stability and excitation/emission wavelengths in the visible region may find potential applications in industry.
Photochem. Photobiol. Sci., 2015, 14,506-513 DOI: 10.1039/C4PP00291A, Paper
Danae Venieri, Antonia Fraggedaki, Vassilios Binas, Apostolos Zachopoulos, George Kiriakidis, Dionissios Mantzavinos Klebsiella pneumoniae is considered to be an emerging pathogen persisting under extreme environmentally stressed conditions. The content of this RSS Feed (c) The Royal Society of Chemistry
Photochem. Photobiol. Sci., 2015, 14,520-527 DOI: 10.1039/C4PP00254G, Paper
M. Antonopoulou, D. Vlastos, I. Konstantinou Heterogeneous photocatalysis using N-F codoped TiO2 was successfully applied for degradation, mineralization as well as for genotoxicity and ecotoxicity elimination of PCP in the aqueous phase. The content of this RSS Feed (c) The Royal Society of Chemistry
The seminal discovery by James Cleaver of defective DNA repair in xeroderma pigmentosum (XP) opened up an ever-expanding field of DNA repair-related disorders. In addition, it put XP on the map and has led to improved diagnosis, care and management of affected patients. In the United Kingdom, we recently established a multidisciplinary specialist clinic for XP patients. All XP patients in the United Kingdom are able to visit the clinic where they are examined and advised by a team of specialists with detailed knowledge of the different aspects of XP.
Early diagnosis and rigorous protection from daylight can completely prevent the skin problems in XP. Patient XP59BR (left) has had poor protection from daylight and has developed many skin cancers. In contrast, patient XPJCLO was diagnosed in his first year of life, has been rigorously protected from sunlight and has not developed any significant skin lesions. Curiously, despite having similar mutations in the XPD gene, XP59BR has no severe neurological problems, whereas XPJCLO has shown features of neurological degeneration since the age of 2. Photographs published with consent of patient or their family.
Light-dark cycles are considered important cues to entrain biological clocks. A feedback loop of clock gene transcription and translation is the molecular basis underlying the mechanism of both central and peripheral clocks. Xenopus laevis embryonic melanophores respond to light with melanin granule dispersion, response possibly mediated by the photopigment melanopsin. In order to test whether light modulates clock gene expression in Xenopus melanophores, we used qPCR to evaluate the relative mRNA levels of Per1, Per2, Clock and Bmal1 in cultured melanophores exposed to light-dark (LD) cycle or constant darkness (DD). LD cycles elicited temporal changes in the expression of Per1, Per2 and Bmal1. A 10-min pulse of blue light was able to increase the expression of Per1 and Per2. Red light had no effect on the expression of these clock genes. These data suggest the participation of a blue-wavelength sensitive pigment in the light-dark cycle-mediated oscillation of the endogenous clock. Our results add an important contribution to the emerging field of peripheral clocks, which in non-mammalian vertebrates have been mostly studied in Drosophila and Danio rerio. Within this context, we show that Xenopus laevis melanophores, which have already led to melanopsin discovery, represent an ideal model to understanding circadian rhythms.
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