for Journals by Title or ISSN
for Articles by Keywords
help
  Subjects -> CHEMISTRY (Total: 849 journals)
    - ANALYTICAL CHEMISTRY (47 journals)
    - CHEMISTRY (603 journals)
    - CRYSTALLOGRAPHY (22 journals)
    - ELECTROCHEMISTRY (26 journals)
    - INORGANIC CHEMISTRY (41 journals)
    - ORGANIC CHEMISTRY (45 journals)
    - PHYSICAL CHEMISTRY (65 journals)

CHEMISTRY (603 journals)            First | 1 2 3 4     

Showing 601 - 735 of 735 Journals sorted alphabetically
World Journal of Chemical Education     Open Access   (Followers: 1)
X-Ray Spectrometry     Hybrid Journal   (Followers: 9)
Zeitschrift für Naturforschung B : A Journal of Chemical Sciences     Open Access   (Followers: 1)

  First | 1 2 3 4     

Journal Cover Photochemistry and Photobiology
  [SJR: 0.63]   [H-I: 106]   [1 followers]  Follow
    
   Hybrid Journal Hybrid journal (It can contain Open Access articles)
   ISSN (Print) 0031-8655 - ISSN (Online) 1751-1097
   Published by John Wiley and Sons Homepage  [1612 journals]
  • Phylogenetic and Functional Classification of the Photolyase/Cryptochrome
           Family
    • Authors: Nuri Ozturk
      Abstract: The Photolyase/Cryptochrome (PHR/CRY) family is a large group of proteins with similar structure and but very diverge functions such as in DNA repair, circadian clock resetting, and regulation of transcription. As a result of advances in the biochemistry of the CRY/PHR family and identification of new members, several adjustments have been made to the classification of this protein family. For example, a new class of PHRs, Class III, has been proposed. Furthermore, CRYs have been suggested to function as photosensory proteins in the primordial eye of sponge larvae. Additionally, a magnetosensory function has been attributed to certain CRYs. Recent advances in the field enabled us to propose a comprehensive classification scheme and nomenclatural system for this family.This review focuses on the computational and biochemical classifications of the PHR/CRY family. Several examples show that computational analysis can give a hinge about the function of newly discovered members before performing any biochemical study.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-19T08:15:21.469454-05:
      DOI: 10.1111/php.12676
       
  • Mfd Protein and Transcription-Repair Coupling in E. coli
    • Authors: Christopher P. Selby
      Abstract: In 1989, transcription-repair coupling (TRC) was first described in Escherichia coli, as the transcription-dependent, preferential nucleotide excision repair (NER) of UV photoproducts located in the template DNA strand. This finding led to pioneering biochemical studies of TRC in the laboratory of Professor Aziz Sancar, where, at the time, major contributions were being made toward understanding the roles of the UvrA, UvrB and UvrC proteins in NER. When the repair studies were extended to TRC, template but not coding strand lesions were found to block RNA polymerase (RNAP) in vitro, and unexpectedly, the blocked RNAP inhibited NER. A transcription-repair coupling factor, also called Mfd protein, was found to remove the blocked RNAP, deliver the repair enzyme to the lesion, and thereby mediate more rapid repair of the transcription-blocking lesion compared to lesions elsewhere. Structural and functional analyses of Mfd protein revealed helicase motifs responsible for ATP hydrolysis and DNA binding, and regions that interact with RNAP and UvrA. These and additional studies provided a basis upon which other investigators, in following decades, have characterized fascinating and unexpected structural and mechanistic features of Mfd, revealed the possible existence of additional pathways of TRC, and discovered additional roles of Mfd in the cell.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-19T07:25:22.825099-05:
      DOI: 10.1111/php.12675
       
  • Solving Blue-light Riddles: New Lessons from Flavin-binding LOV
           Photoreceptors
    • Authors: Aba Losi; Wolfgang Gärtner
      Abstract: Detection of blue light (BL) via flavin-binding photoreceptors (Fl-Blues) has evolved throughout all three domains of life. Although the main BL players, i.e. LOV (Light, Oxygen and Voltage), BLUF (Blue Light Sending using Flavins) and Cry (Cryptochrome) proteins have been characterized in great detail with respect to structure and function, still several unresolved issues at different levels of complexity remain and novel unexpected findings were reported. Here, we review the most prevailing riddles of LOV-based photoreceptors, for example: the relevance of water and/or small metabolites for the dynamics of the photocycle; molecular details of light-to-signal transduction events; the interplay of BL sensing by LOV domains with other environmental stimuli, such as BL plus oxygen mediating photodamage and its impact on microbial life-styles; the importance of the cell or chromophore redox state in determining the fate of BL-driven reactions; the evolutionary pathways of LOV-based BL sensing and associated functions through the diverse phyla. We will discuss major novelties emerged during the last few years on these intriguing aspects of LOV proteins by presenting paradigmatic examples from prokaryotic photosensors that exhibit the largest complexity and richness in associated functions.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-18T13:00:30.807519-05:
      DOI: 10.1111/php.12674
       
  • Convergence of The Nobel Fields of Telomere Biology and DNA Repair
    • Authors: Elise Fouquerel; Patricia Opresko
      Abstract: The fields of telomere biology and DNA repair have enjoyed a great deal of cross-fertilization and convergence in recent years. Telomeres function at chromosome ends to prevent them from being falsely recognized as chromosome breaks by the DNA damage response and repair machineries. Conversely, both canonical and non-conical functions of numerous DNA repair proteins have been found to be critical for preserving telomere structure and function. In 2009 Elizabeth Blackburn, Carol Greider, and Jack Szostak were awarded the Nobel prize in Physiology or Medicine for the discovery of telomeres and telomerase. Four years later pioneers in the field of DNA repair, Aziz Sancar, Tomas Lindahl and Paul Modrich, were recognized for their seminal contributions by being awarded the Nobel Prize in Chemistry. This review is part of a special issue meant to celebrate this amazing achievement, and will focus in particular on the convergence of nucleotide excision repair and telomere biology, and will discuss the profound implications for human health.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-18T12:50:29.211448-05:
      DOI: 10.1111/php.12672
       
  • Cation and Anion Substituted Potassium Manganese Phosphate, KMnP3O9:
           Luminescence and Photocatalytic studies
    • Authors: C. H. Sudhakar Reddy; G. Ravi, K. Sreenu, Ravinder Guje, M. Malathi, Muga Vithal
      Abstract: Phosphates as multi-functional materials were of vital importance in the environmental and energy fields. In the present work, a new cyclophosphate, potassium-manganese-phosphate (KMnP3O9) (hereafter KMPO), was prepared by solid state method. Cations (Ag+ and Cu2+) and anion (N3-) were substituted into KMPO lattice via ion-exchange and solid state methods respectively. The as-prepared materials were characterized by powder X–ray diffraction, SEM–EDS and UV–visible diffuse reflectance spectra. Rietveld refinement was carried out for parent material. All the prepared materials were found to crystallize in the hexagonal lattice and isomorphous with KCoP3O9. The nitrogen content in N3- substituted KMPO was estimated by EDS and O-N-H analysis. The bandgap energy of the cation and anion substituted samples was lower compared to that of pristine KMPO. Gouy method was employed to determine the magnetic susceptibility of KMPO. The photoluminescence property of Mn2+ in all the samples was studied, and the color coordinates were calculated using CIE 1931 chromaticity. The photocatalytic activity of visible light active material, N3- substituted KMPO, was examined against the degradation of methylene blue and methyl violet at ambient conditions.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-18T12:50:27.638856-05:
      DOI: 10.1111/php.12673
       
  • Cloning of the Orange Light-Producing Luciferase from Photinus scintillans
           - A New Proposal on how Bioluminescence Color is Determined
    • Authors: Bruce R. Branchini; Tara L. Southworth, Danielle M. Fontaine, Martha H. Murtiashaw, Alex McGurk, Munya H. Talukder, Rakhshi Qureshi, Deniz Yetil, Jesse A. Sundlov, Andrew M. Gulick
      Abstract: Unlike the enchanting yellow-green flashes of light produced on warm summer evenings by Photinus pyralis, the most common firefly species in North America, the orange lights of Photinus scintillans are infrequently observed. These Photinus species, and likely all bioluminescent beetles, use the same substrates beetle luciferin, ATP, and oxygen to produce light. It is the structure of the particular luciferase enzyme that is the key to determining the color of the emitted light. We report here the molecular cloning of the P. scintillans luc gene and the expression and characterization of the corresponding novel recombinant luciferase enzyme. A comparison of the amino acid sequence with that of the highly similar P. pyralis enzyme and subsequent mutagenesis studies revealed that the single conservative amino acid change tyrosine to phenylalanine at position 255 accounted for the entire emission color difference. Additional mutagenesis and crystallographic studies were performed on a H-bond network, which includes the position 255 residue and 5 other stringently conserved beetle luciferase residues, that is proximal to the substrate/emitter binding site. The results are interpreted in the context of a speculative proposal that this network is key to the understanding of bioluminescence color determination.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-18T12:45:31.449821-05:
      DOI: 10.1111/php.12671
       
  • Daily Variation of UV-induced Erythema and the Action of Solar Filters
    • Authors: Ana Flo; Ana C. Calpena, Antoni Díez-Noguera, Alfons del Pozo, Trinitat Cambras
      Abstract: UV rays may cause several degrees of skin damage, which makes sunscreen research necessary. In addition, skin sensitivity shows daily variations, which can interfere in the detection of the efficacy of the filters. Here we studied the UV-induced erythema in hairless rats at two times of the day (light and darkness) using a colorimeter method. The effect of an emulsion with solar filters, with or without melatonin was also assayed. Results indicate that the value of a* (from CIELAB color space values L* a* b) was the most useful variable to evaluate the erythema. However, at the UV intensity used, erythema was only detected when irradiation was carried out during the activity phase of the animal, enabling the detection of the protective action of the sunscreen at this time. Thus, daily variations in skin sensitivity have been demonstrated and should be taken into account in dermatological research.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-16T07:58:23.652143-05:
      DOI: 10.1111/php.12670
       
  • The Photolyase/cryptochrome Family of Proteins as DNA Repair Enzymes and
           Transcriptional Repressors
    • Authors: Ibrahim Halil Kavakli; Ibrahim Barış, Mehmet Tardu, Şeref Gül, Haşimcan Öner, Sibel Çal, Selma Bulut, Darya Yarparvar, Çağlar Berkel, Pınar Ustaoğlu, Cihan Aydın
      Abstract: Light is a very important environmental factor that governs many cellular responses in organisms. As a consequence, organisms possess different kinds of light-sensing photoreceptors to regulate their physiological variables and adapt to a given habitat. The cryptochrome/photolyase family (CPF) includes photoreceptors that perform different functions in different organisms. Photolyases repair ultraviolet-induced DNA damage by a process known as photoreactivation using photons absorbed from the blue end of the light spectrum. On the other hand, cryptochromes act as blue-light circadian photoreceptors in plants and Drosophila to regulate growth and development. In mammals, cryptochromes have light-independent functions and are very important transcriptional regulators that act at the molecular level as negative transcriptional regulators of the circadian clock. In this review, we highlight current knowledge concerning the structural and functional relationships of CPF members.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-16T07:53:49.861192-05:
      DOI: 10.1111/php.12669
       
  • The Cartography of UV-induced DNA Damage Formation and DNA Repair
    • Authors: Jinchuan Hu; Sheera Adar
      Abstract: DNA damage present a barrier to DNA-templated biochemical processes, including gene expression and faithful DNA replication. Compromised DNA repair leads to mutations, enhancing the risk for genetic diseases and cancer development. Conventional experimental approaches to study DNA damage required a researcher to choose between measuring bulk damage over the entire genome, with little or no resolution regarding a specific location, and obtaining data specific to a locus of interest, without a global perspective. Recent advances in high-throughput genomic tools overcame these limitations and provide high-resolution measurements simultaneously across the genome. In this review, we discuss the available methods for measuring DNA damage and their repair, focusing on genome-wide assays for pyrimidine photodimers, the major types of damage induced by ultraviolet irradiation. These new genomic assays will be a powerful tool in identifying key components of genome stability and carcinogenesis.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-14T10:01:58.528917-05:
      DOI: 10.1111/php.12668
       
  • Bringing It All Together: Coupling Excision Repair to the DNA Damage
           Checkpoint
    • Authors: Laura A. Lindsey-Boltz
      Abstract: Nucleotide excision repair and the ATR-mediated DNA damage checkpoint are two critical cellular responses to the genotoxic stress induced by ultraviolet (UV) light and are important for cancer prevention. In vivo genetic data indicate that these global responses are coupled. Aziz Sancar and colleagues developed an in vitro coupled repair-checkpoint system to analyze the basic steps of these DNA damage stress responses in a biochemically defined system. The minimum set of factors essential for repair-checkpoint coupling include damaged DNA, the excision repair factors (XPA, XPC, XPF-ERCC1, XPG, TFIIH, RPA), the 5’-3’ exonuclease EXO1, and the damage checkpoint proteins ATR-ATRIP and TopBP1. This coupled repair-checkpoint system was used to demonstrate that the ~30 nucleotide single-stranded DNA (ssDNA) gap generated by nucleotide excision repair is enlarged by EXO1 and bound by RPA to generate the signal that activates ATR.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-14T09:51:15.684592-05:
      DOI: 10.1111/php.12667
       
  • A Novel Streptavidin–luciferase Fusion Protein: Preparation, Properties,
           and Application in Hybridization Analysis of DNA
    • Authors: D. V. Smirnova; M. Y. Rubtsova, V. G. Grigorenko, N. N. Ugarova
      Abstract: A streptavidin–luciferase fusion protein comprising the thermostable mutant form of firefly luciferase Luciola mingrelica and minimal core streptavidin was constructed. The streptavidin–luciferase fusion was mainly produced in a tetrameric form with high luciferase and biotin-binding activities. It was shown, that fusion has the same Km values for ATP and luciferin and the bioluminescence spectra as initial luciferase. The linear dependence of the bioluminescence signal on the content of the fusion was observed within the range of 10-18–10-13 mol per well. Successful application of obtained fusion in a biospecific bioluminescence assay based on biotin–streptavidin interactions was demonstrated by the example of a specific DNA hybridization analysis. A DNA hybridization analysis for E. coli cells identification was developed using unique for these cells gadB fragment encoding glutamate decarboxylase. The amplified biotinylated GadB fragments were hybridized with the immobilized oligonucleotide probes; then, the biotin in the DNA duplexes was detected using the streptavidin-luciferase fusion protein. To reach the high sensitivity of the assay we optimized the conditions of the assay. It was shown, that the use of pluronic for plate modification resulted in a significant reduction of the DNA detection limit which finally was 0.4 ng per well.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-14T09:41:33.57388-05:0
      DOI: 10.1111/php.12666
       
  • Unanimous Model for Describing the Fast Bioluminescence Kinetics of
           Ca2+-regulated Photoproteins of Different Organisms
    • Authors: Elena V. Eremeeva; Sergey I. Bartsev, Willem J.H. van Berkel, Eugene S. Vysotski
      Abstract: Upon binding their metal ion cofactors, Ca2+-regulated photoproteins display a rapid increase of light signal, which reaches its peak within milliseconds. In the present study we investigate bioluminescence kinetics of the entire photoprotein family. All five recombinant hydromedusan Ca2+-regulated photoproteins—aequorin from Aequorea victoria, clytin from Clytia gregaria, mitrocomin from Mitrocoma cellularia, and obelins from Obelia longissima and Obelia geniculata—demonstrate the same bioluminescent kinetics pattern. Based on these findings, for the first time we propose a unanimous kinetic model describing the bioluminescence mechanism of Ca2+-regulated photoproteins.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-12T10:40:20.113139-05:
      DOI: 10.1111/php.12664
       
  • Impact of the Circadian Clock on UV-Induced DNA Damage Response and
           Photocarcinogenesis
    • Authors: Panshak Dakup; Shobhan Gaddameedhi
      Abstract: The skin is in constant exposure to various external environmental stressors, including solar ultraviolet (UV) radiation. Various wavelengths of UV light are absorbed by the DNA and other molecules in the skin to cause DNA damage and induce oxidative stress. The exposure to excessive ultraviolet (UV) radiation and/or accumulation of damage over time can lead to photocarcinogenesis and photoaging. The nucleotide excision repair (NER) system is the sole mechanism for removing UV photoproduct damage from DNA, and genetic disruption of this repair pathway leads to the photosensitive disorder xeroderma pigmentosum (XP). Interestingly, recent work has shown that NER is controlled by the circadian clock, the body's natural time keeping mechanism, through regulation of the rate-limiting repair factor xeroderma pigmentosum group A (XPA). Studies have shown reduced UV-induced skin cancer after UV exposure in the evening compared to the morning, which corresponds with times of high and low repair capacities, respectively. However, most studies of the circadian clock-NER connection have utilized murine models, and it is therefore important to translate these findings to humans to improve skin cancer prevention and chronotherapy.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-12T10:30:26.915192-05:
      DOI: 10.1111/php.12662
       
  • Cryptochromes Orchestrate Transcription Regulation of Diverse Blue Light
           Responses in Plants
    • Authors: Zhaohe Yang; Bobin Liu, Jun Su, Jiakai Liao, Chentao Lin, Yoshito Oka
      Abstract: Blue light affects many aspects of plant growth and development throughout the plant lifecycle. Plant cryptochromes (CRYs) are UV-A/blue light photoreceptors that play pivotal roles in regulating blue light-mediated physiological responses via the regulated expression of more than one thousand genes. Photoactivated CRYs regulate transcription via two distinct mechanisms: indirect promotion of the activity of transcription factors by inactivation of the COP1/SPA E3 ligase complex or direct activation or inactivation of at least two sets of basic helix-loop-helix transcription factor families by physical interaction. Hence, CRYs govern intricate mechanisms that modulate activities of transcription factors to regulate multiple aspects of blue light-responsive photomorphogenesis. Here, we review recent progress in dissecting the pathways of CRY signaling and discuss accumulating evidence that shows how CRYs regulate broad physiological responses to blue light.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-12T10:30:21.057996-05:
      DOI: 10.1111/php.12663
       
  • From Mfd to TRCF and Back Again – A Perspective on Bacterial
           Transcription-Coupled Nucleotide Excision Repair
    • Authors: Alexandra M. Deaconescu; Margaret M. Suhanovsky
      Abstract: Photochemical and other reactions on DNA cause damage and corrupt genetic information. To counteract this damage, organisms have evolved intricate repair mechanisms that often crosstalk with other DNA-based processes, such as transcription. Intriguing observations in the late 1980s and early 1990s led to the discovery of transcription-coupled repair (TCR), a subpathway of nucleotide excision repair (NER). TCR, found in all domains of life prioritizes for repair lesions located in the transcribed DNA strand, directly read by RNA polymerase. Here we give a historical overview of developments in the field of bacterial TCR, starting from the pioneering work of Evelyn Witkin and Aziz Sancar, which led to the identification of the first transcription-repair coupling factor (the Mfd protein), to recent studies that have uncovered alternative TCR pathways and regulators.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-12T10:20:22.717076-05:
      DOI: 10.1111/php.12661
       
  • Improving the Photocatalytic Activity of Modified Anatase TiO2 with
           Different Concentrations of Aluminum under Visible Light: Mechanistic
           Survey
    • Authors: Shahrara Afshar; Shabnam Pordel, Babak Tahmouresilerd, Alireza Azad
      Abstract: Visible-light-driven Al-doped TiO2 with different aluminum contents (2, 5, and 10 mol %) were synthesized via a facile sol-gel method. Fourier transform infrared (FTIR), UV-visible diffuse reflectance, energy dispersive X-ray (EDX) spectroscopy as well as X-ray diffraction (XRD), X-ray fluorescence (XRF) and scanning electron microscopy (SEM) methods were used for the characterization of the obtained nanoparticles. The photocatalytic performance of the samples was evaluated by the degradation of rhodamine B (RhB) under visible light irradiation. The yield of the degradation RhB was estimated to be 71%, 89%, 65%, and 56%, for the bare TiO2, 2%, 5%, and 10% Al doped TiO2, respectively. It was found that 2 mol % of Al-doped TiO2 shows the best photocatalytic performance. In low concentration of dopant, separation of photogenerated electron-hole pairs was promoted and subsequently the degradation efficiency increased. It was proposed that the degradation of RhB by 2 mol % Al-doped TiO2 photocatalyst follows both N-deethylation, and chromophore cleavage mechanisms, while the N-deethylation still predominated over cleavage of dye chromophore structure. The key role of hydroxyl radicals in RhB degradation was verified by the effects of scavengers. In addition, the photocatalyst can be reused for three runs without any significant loss of its catalytic activity.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-12T09:42:06.460911-05:
      DOI: 10.1111/php.12665
       
  • Optimization and Degradation Mechanism of Photocatalytic Removal of
           Bisphenol A Using Zn0.9Fe0.1S Synthesized by Microwave-assisted Method
    • Authors: Rongjun Su; Yanei Xue, Guangshan Zhang, Qiao Wang, Limin Hu, Peng Wang
      Abstract: The sulfide photocatalyst of Zn0.9Fe0.1S was successfully synthesized by a facile microwave-assisted method, and Zn0.9Fe0.1S photocatalysts were characterized using SEM, EDX, XRD, and BET. The specific surface area of synthesized Zn0.9Fe0.1S is 78.1 m2·g−1 and total pore volume is 0.4 cm3·g−1. With bisphenol A (BPA) as a target pollutant, photocatalytic system of UV+Zn0.9Fe0.1S+H2O2 was set up. Some influencing parameters, including H2O2 dosage, initial pH value, initial concentration of BPA and Zn0.9Fe0.1S dosage, were investigated and the stability of the Zn0.9Fe0.1S was also studied during the photocatalysis. The optimum values of operating parameters were found at an initial pH value of 5.0, a H2O2 dosage of 0.15 mmol·L−1, and a Zn0.9Fe0.1S dosage of 0.08 g when the initial concentration of BPA was 10 mg·L−1. Under the optimal conditions, the highest removal rate of BPA achieved 95%. After seven consecutive reaction cycles, the degradation efficiency of BPA could still reach 85% and there was only a little dissolution of Zn2+ and Fe2+. Compared with the traditional photo-Fenton system, the UV+Zn0.9Fe0.1S+H2O2 system can not only improve the degradation efficiency of BPA, but also reduce the dosage of H2O2 and thus reduce the processing cost.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-10T03:20:34.164134-05:
      DOI: 10.1111/php.12660
       
  • Resatorvid-based Pharmacological Antagonism of Cutaneous TLR4 Blocks
           UV-induced NF-κB and AP-1 Signaling in Keratinocytes and Mouse Skin
    • Authors: Jaroslav Janda; Nichole Burkett, Karen Blohm-Mangone, Vivian Huang, Clara Curiel-Lewandrowski, David S. Alberts, Emanuel F. Petricoin, Valerie S. Calvert, Janine Einspahr, Zigang Dong, Ann M. Bode, Georg T. Wondrak, Sally E. Dickinson
      Abstract: Cutaneous exposure to solar ultraviolet (UV) radiation is a major causative factor in skin carcinogenesis, and improved molecular strategies for efficacious chemoprevention of non-melanoma skin cancer (NMSC) are urgently needed. Toll-like receptor 4 (TLR4) signaling has been shown to drive skin inflammation, photoimmunosuppression and chemical carcinogenesis. Here we have examined the feasibility of genetic and pharmacological antagonism targeting cutaneous TLR4 for the suppression of UV-induced NF-κB and AP-1 signaling in keratinocytes and mouse skin. Using immunohistochemical and proteomic microarray analysis of human skin, we demonstrate for the first time that a significant increase in expression of TLR4 occurs in keratinocytes during the progression from normal skin to actinic keratosis (AK), also detectible during further progression to squamous cell carcinoma. Next, we demonstrate that siRNA-based genetic TLR4 inhibition blocks UV-induced stress signaling in cultured keratinocytes. Importantly, we observed that resatorvid (TAK-242), a molecularly-targeted clinical TLR4 antagonist, blocks UV-induced NF-κB and MAP kinase/AP-1 activity and cytokine expression (Il-6, Il-8, and Il-10) in cultured keratinocytes and in topically treated murine skin. Taken together, our data reveal that pharmacological TLR4 antagonism can suppress UV-induced cutaneous signaling, and future experiments will explore the potential of TLR4-directed strategies for prevention of NMSC.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-10T02:15:23.095683-05:
      DOI: 10.1111/php.12659
       
  • Targeted Inactivation of DNA Photolyase Genes in Medaka Fish (Oryzias
           latipes)
    • Authors: Tomoko Ishikawa-Fujiwara; Eri Shiraishi, Yoshihiro Fujikawa, Toshio Mori, Tohru Tsujimura, Takeshi Todo
      Abstract: Proteins of the cryptochrome/photolyase family (CPF) exhibit sequence and structural conservation, but their functions are divergent. Photolyase is a DNA repair enzyme that catalyzes the light-dependent repair of ultraviolet (UV)-induced photoproducts, whereas cryptochrome acts as a photoreceptor or circadian clock protein. Two types of DNA photolyase exist: CPD photolyase, which repairs cyclobutane pyrimidine dimers (CPDs), and 6-4 photolyase, which repairs 6-4 pyrimidine–pyrimidone photoproducts (6-4PPs). Although the Cry-DASH protein is classified as a cryptochrome, it also has light-dependent DNA repair activity. To determine the significance of the three light-dependent repair enzymes in recovering from solar UV-induced DNA damage at the organismal level, we generated mutants in each gene in medaka using the CRISPR genome editing technique. The light-dependent repair activity of the mutants was examined in vitro in cultured cells and in vivo in skin tissue. Light-dependent repair of CPD was lost in the CPD photolyase–deficient mutant, whereas weak repair activity against 6-4PPs persisted in the 6-4 photolyase–deficient mutant. These results suggest the existence of a heretofore unknown 6-4PP repair pathway, and thus improve our understanding of the mechanisms of defense against solar UV in vertebrates.This article is protected by copyright. All rights reserved.
      PubDate: 2016-11-10T02:10:54.413626-05:
      DOI: 10.1111/php.12658
       
  • Theoretical Study of Dinoflagellate Bioluminescence
    • Authors: Ming-Yu Wang; Ya-Jun Liu
      Abstract: Dinoflagellates are the most ubiquitous luminescent protists in the marine environment and have drawn much attention for their crucial roles in marine ecosystems. Dinoflagellate bioluminescence has been applied in underwater target detection. The luminescent system of dinoflagellates is a typical luciferin-luciferase one. However, the excited-state oxyluciferin is not the light emitter of dinoflagellate bioluminescence as in most luciferin-luciferase bioluminescent organisms. The oxyluciferin of bioluminescent dinoflagellates is not fluorescent, whereas its luciferin emits bright fluorescence with similar wavelength of the bioluminescence. What is the light emitter of dinoflagellate bioluminescence and what is the chemical process of the light emission like? These questions have not be answered by the limited experimental evidence so far. In this study, for the first time, the density functional calculation is employed to investigate the geometries and properties of luciferin and oxyluciferin of bioluminescent dinoflagellate. The calculated results agree with the experimental observations and indicate the luciferin or its analogue, rather than oxyluciferin, is the bioluminophore of dinoflagellate bioluminescence. A rough mechanism involving energy transfer is proposed for dinoflagellate bioluminescence.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-31T00:46:11.701811-05:
      DOI: 10.1111/php.12657
       
  • Firefly Luciferase-Based Fusion Proteins and their Applications in
           Bioanalysis
    • Authors: Daria V. Smirnova; Natalia N. Ugarova
      Abstract: Firefly luciferase is widely used in molecular biology and bioanalytical systems as a reporter molecule due to the high quantum yield of the bioluminescence, availability of stable mutant forms of the enzyme with prescribed spectral characteristics, and abundance of bacterial expression systems suitable for production of recombinant proteins in limitless quantities. In this review we described fusion proteins of luciferase with biotin-binding domain and streptavidin, with proteins A and G, antibodies, with DNA- and RNA-binding proteins, as well as fusion proteins designed for BRET-systems. The firefly luciferase-based fusion proteins are represented as an effective tool for the development of different bioanalytical systems such as: 1) systems in which luciferase is attached to the surface of the target and the bioluminescence signal is detected from the specific complexes formed; 2) BRET-based systems, in which the specific interaction induces changes in the bioluminescence spectrum; 3) systems that use modified or split-luciferases, in which the luciferase activity changes under the action of the analyte. All these systems have wide application in biochemical analysis of physiologically important compounds, for the detection of pathogenic bacteria and viruses, for evaluation of protein–protein interactions, assaying of metabolites involved in cell communication and cell signaling.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-31T00:46:07.356715-05:
      DOI: 10.1111/php.12656
       
  • Spectroscopic properties of amine-substituted analogues of firefly
           luciferin and oxyluciferin
    • Authors: Michio Kakiuchi; Soichiro Ito, Minoru Yamaji, Vadim R. Viviani, Shojiro Maki, Takashi Hirano
      Abstract: Spectroscopic and photophysical properties of firefly luciferin and oxyluciferin analogues with an amine substituent (NH2, NHMe and NMe2) at the C6′ position were studied based on absorption and fluorescence measurements. Their π-electronic properties were investigated by DFT and TD-DFT calculations. These compounds showed fluorescence solvatochromism with good quantum yields. An increase in the electron donating strength of the substituent led to the bathochromic shift of the fluorescence maximum. The fluorescence maxima of the luciferin analogues and the corresponding oxyluciferin analogues in a solvent were well correlated to each other. Based on the obtained data, the polarity of a luciferase active site was explained. As a result, the maximum wavelength of bioluminescence for a luciferin analogue was readily predicted by measuring the photoluminescence of the luciferin analogue in place of that of the corresponding oxyluciferin analogue.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-31T00:46:04.151239-05:
      DOI: 10.1111/php.12654
       
  • Facilitators and Repressors of Transcription Coupled DNA Repair in
           Saccharomyces cerevisiae
    • Authors: Wentao Li; Shisheng Li
      Abstract: Nucleotide excision repair is a well-conserved DNA repair pathway that removes bulky and/or helix-distorting DNA lesions, such as UV induced cyclobutane pyrimidine dimers and pyrimidine (6-4) pyrimidone photoproducts. Transcription coupled repair (TCR) is a subpathway of nucleotide excision repair that is dedicated to rapid removal of DNA lesions in the transcribed strand of actively transcribed genes. In eukaryotic cells, TCR is triggered by RNA polymerase II (RNAP II). Rad26, a DNA-dependent ATPase, Rpb9, a nonessential subunit of RNAP II, and Sen1, a 5′ to 3′ RNA/DNA and DNA helicase, have been shown to facilitate TCR in Saccharomyces cerevisiae. In contrast, a number of factors have also been found to repress TCR in the yeast. These TCR repressors include Rpb4, another nonessential subunit of RNAP II, Spt4/5, a transcription elongation factor complex, and the RNAP II associated factor complex (PAFc). It appears that the eukaryotic TCR process involves intricate interplays of RNAP II with TCR facilitators and repressors. In this minireview, we summarize recent advances in TCR in S. cerevisiae.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-31T00:35:58.983834-05:
      DOI: 10.1111/php.12655
       
  • The Visible Light Photocatalytic Activity and Antibacterial Performance of
           Ag/AgBr/TiO2 Immobilized on Activated Carbon
    • Authors: Lu Yang; Fangyun Ye, Peng Liu, Fazhou Wang
      Abstract: Visible light driven Ag/AgBr/TiO2/activated carbon (AC) composite was prepared by sol-gel method coupled with photo-reduction method. For comparison, TiO2, TiO2/AC and Ag/AgBr/TiO2 were also synthesized. Their characteristics were analyzed by XRD, SEM-EDS, TG-DSC and UV-Vis techniques. Photocatalytic activity and antibacterial performance under visible light irradiation were investigated by ICP-AES, ATR-FT-IR and spectrophotometry methods using methylene blue and Escherichia coli as target systems, respectively. The results showed that Ag/AgBr was successfully deposited on anatase TiO2/AC surface, and exhibited a distinct light absorption in the visible region. Ag/AgBr/TiO2/AC displayed excellent antibacterial performance both in dark and under visible light illumination. The growth of E. coli cell was inhibited in presence of Ag/AgBr/TiO2/AC in dark. Moreover, upon visible light illumination, a significant damaged of cell membrane was noticed. Ag/AgBr/TiO2/AC was also shown higher photocatalytic efficiency for methylene blue degradation than those of TiO2, TiO2/AC and Ag/AgBr/TiO2. This is attributed to the synergetic effect between AC and Ag/AgBr/TiO2, of which AC acts as the role of increasing reaction areas, continuous enriching and transferring the adsorbed MB molecules to the surface of supported photocatalysts, and the Ag/AgBr/TiO2 acts as a highly active photocatalyst for degrading MB molecules under visible light irradiation.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-20T03:45:23.134136-05:
      DOI: 10.1111/php.12653
       
  • The Photostabilizing Effect of Grape Seed Extract on Three Common
           Sunscreen Absorbers
    • Authors: Bice S. Martincigh; Moses A. Ollengo
      Abstract: The photostabilizing ability of grape seed extract on three common sunscreen absorbers: 2-ethylhexyl-p-methoxcinnamate (EHMC), benzophenone-3 (BP3) and tert-butylmethoxy dibenzoylmethane (BMDBM), was investigated. Samples were exposed to simulated solar radiation and monitored by spectrophotometric and chromatographic methods. The chemical composition of the grape seed extract was determined by GC-MS and HPLC-MS and the major secondary metabolites were found to be epicatechin and catechin. Exposure of the extract to UV radiation increased the UV absorption capacity of the extract. All sunscreens showed an improved photostability in the extract. The inherent photo-instability of BMDBM when exposed to UV radiation was almost eliminated in the presence of grape seed extract. A mixture of all three sunscreens in the extract showed very high photostability and a red shift covering the entire UVB and UVA regions thereby improving the broad-spectrum protection. The incorporation of grape seed extract in sunscreen and other cosmetic formulations for topical application boosts photoprotection by stabilizing the UV filters and enhancing broad-spectrum coverage. This in turn helps in reducing the amounts of absorbers and other additives incorporated in a sunscreen product and consequently lowers the risk of an unprecedented build-up of photoproducts whose toxicities are currently unknown.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-19T09:35:23.252659-05:
      DOI: 10.1111/php.12652
       
  • Determining an Effective UV Radiation Exposure Time for Vitamin D
           Synthesis in the Skin Without Risk to Health: Simplified Estimations from
           UV Observations
    • Authors: Masaatsu Miyauchi; Hideaki Nakajima
      Abstract: UV radiation contains erythemally-weighted UV, as well as UV that synthesizes vitamin D3. Here, we attempted to determine the relationship between these factors by numerical simulation of atmospheric parameters, such as total ozone, using a simplified “SMART2″ model for radiative transfer. Both forms of UV were almost linearly correlated with each other for a comparably large UV radiation exposure, larger than UV Index ~ 1.6. If erythemally-weighted UV, which carries a risk of sunburn, is known, the amount of UV exposure needed for vitamin D synthesis in the epidermis can be estimated using this relationship. The production of 10 μg (400 IU) of vitamin D per day takes approximately 1/3 of the time needed to reach the Minimal Erythemal Dose (MED) for an effective skin area of 600 cm2 for skin photo type III. For an area of 1200 cm2, 1/6 of that exposure time suffices. From a UV Index that is commonly used, the risks and benefits can be evaluated using this linear relationship which will enable people to effectively manage their UV exposure and consider the risks and benefits to optimize health outcomes.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-18T09:25:28.19068-05:0
      DOI: 10.1111/php.12651
       
  • Perspectives on Bioluminescence Mechanisms
    • Authors: John Lee
      Abstract: The molecular mechanisms of the bioluminescence systems of the firefly, bacteria, and those utilizing imidazopyrazinone luciferins such as coelenterazine, are gradually being uncovered using modern biophysical methods such as dynamic (ns—ps) fluorescence spectroscopy, NMR, X-ray crystallography, and computational chemistry. The chemical structures of all reactants are well defined and the spatial structures of the luciferases are providing important insight into interactions within the active cavity. It is generally accepted that the firefly and coelenterazine systems, although proceeding by different chemistries, both generate a dioxetanone high energy species that undergoes decarboxylation to form directly the product in its S1 state, the bioluminescence emitter. More work is still needed to establish the structure of the products completely. In spite of the bacterial system receiving the most research attention, the chemical pathway for excitation remains mysterious except that it is clearly not by a decarboxylation. Both the coelenterazine and bacterial systems have in common of being able to employ “antenna proteins”, lumazine protein and the green-fluorescent protein, for tuning the color of the bioluminescence. Spatial structure information has been most valuable in informing the mechanism of the Ca2+-regulated photoproteins and the antenna protein interactions.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-17T09:35:21.666291-05:
      DOI: 10.1111/php.12650
       
  • Cloning of the Blue Ghost (Phausis reticulata) Luciferase Reveals a
           Glowing Source of Green Light
    • Authors: Bruce R. Branchini; Tara L. Southworth, Leah J. Salituro, Danielle M. Fontaine, Yuichi Oba
      Abstract: In the southern Appalachian area of the United States, the Phausis reticulata firefly, commonly known as the “Blue Ghost,” performs a unique display of bioluminescence. Adult male organisms are observed darting rapidly along paths and riverbeds in dark forests producing long-lasting and mesmerizing bluish-white luminous streaks. Starting with eighteen adult male firefly lanterns, we used a reverse transcriptase and rapid amplification of cDNA ends (RACE) approach to clone the 1635 base pair open reading frame of the P. reticulata luc gene corresponding to a 545 residue protein. Expression of the recombinant luciferase protein in E. coli and characterization studies revealed the true color of the light emission to be green (λmax = 552 nm), strongly suggesting that the field observations result from a Purkinje shift. While the P. reticulata luciferase amino acid sequence is 74.3% identical to the North American P. pyralis luciferase, we were surprised to find that it was 88.4% and 87.7% identical to luciferases from C. ruficollis and D. axillaris both native to mainland Japan. Phylogenetic analysis confirmed the close relationship of the three enzymes that is surprising given the great distance between their natural habitats and the inability of the Japanese fireflies to produce bright bioluminescence.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-01T10:23:59.50573-05:0
      DOI: 10.1111/php.12649
       
  • Hybrid Minimal Core Streptavidin-obelin as a Versatile Reporter for
           Bioluminescence-based Bioassay
    • Authors: Eugenia E. Bashmakova; Vasilisa V. Krasitskaya, Alexander N. Kudryavtsev, Vitaly G. Grigorenko, Ludmila A. Frank
      Abstract: Ca2+-regulated photoprotein obelin was genetically fused with a minimum-sized core streptavidin. Hybrid protein (SAV-OL) was produced by bacterial expression and applied as a specific bioluminescent probe in diverse solid-phase assays. The obtained results clearly demonstrate specific activity of each domain indicating its proper folding with favorable space orientation. SAV-OL has been shown to be a much more sensitive label than the chemical conjugate of a full-length streptavidin with obelin.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-01T10:23:57.26145-05:0
      DOI: 10.1111/php.12648
       
  • Nucleotide Excision Repair: Finely Tuned Molecular Orchestra of Early
           Pre-incision Events
    • Authors: Qianzheng Zhu; Altaf A. Wani
      Abstract: Nucleotide excision repair (NER) eliminates a broad variety of helix-distorting DNA lesions that can otherwise cause genomic instability. NER comprises two distinct sub-pathways: global genomic NER (GG-NER) operating throughout the genome, and transcription-coupled NER (TC-NER) preferentially removing DNA lesions from transcribing DNA strands of transcriptionally active genes. Several NER factors undergo post-translational modifications, including ubiquitination, occurring swiftly and reversibly at DNA lesion sites. Accumulating evidence indicates that ubiquitination not only orchestrates the spatio-temporal recruitment of key protein factors to DNA lesion sites but also the productive assembly of NER preincision complex. This review will be restricted to the latest conceptual understanding of ubiquitin-mediated regulation of initial damage sensors of NER, i.e., DDB, XPC, RNAPII and CSB. We project hypothetical NER models in which ubiquitin-specific segregase, valosin-containing protein (VCP)/p97, plays an essential role in timely extraction of the congregated DNA damage sensors to functionally facilitate the DNA lesion elimination from the genome.This article is protected by copyright. All rights reserved.
      PubDate: 2016-10-01T10:15:25.064246-05:
      DOI: 10.1111/php.12647
       
  • UV‐Induced DNA Damage and Mutagenesis in Chromatin
    • Authors: Peng Mao; John J. Wyrick, Steven A. Roberts, Michael J. Smerdon
      Abstract: UV radiation induces photolesions that distort the DNA double helix and, if not repaired, can cause severe biological consequences, including mutagenesis or cell death. In eukaryotes, both the formation and repair of UV damage occur in the context of chromatin, in which genomic DNA is packaged with histones into nucleosomes and higher‐order chromatin structures. Here, we review how chromatin impacts the formation of UV photoproducts in eukaryotic cells. We describe the initial discovery that nucleosomes and other DNA‐binding proteins induce characteristic ‘photofootprints’ during the formation of UV photoproducts. We also describe recent progress in genome‐wide methods for mapping UV damage, which echoes early biochemical studies, and highlights the role of nucleosomes and transcription factors in UV damage formation and repair at unprecedented resolution. Finally, we discuss our current understanding of how the distribution and repair of UV DNA damage influence mutagenesis in human skin cancers.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-26T09:00:24.412429-05:
      DOI: 10.1111/php.12646
       
  • Nanostructured Polymeric Micelles Carrying Xanthene Dyes for Photodynamic
           Evaluation
    • Authors: Camila Fabiano Freitas; Diogo Silva Pellosi, Bianca Martins Estevão, Italo Rodrigo Calori, Tayana Mazin Tsubone, Mário José Politi, Wilker Caetano, Noboru Hioka
      Abstract: It was evaluated the properties of the xanthene dyes Erythrosin B, Eosin Y and theirs Methyl, Butyl and Decyl ester derivatives as possible photosensitizers (PS) for photodynamic treatments. The more hydrophobic dyes self‐aggregate in water/ethanol solutions above 70% water (v/v) in the mixture. In buffered water these PS were encapsulated in Pluronic polymeric surfactants of P‐123 and F‐127 by two methodologies: direct addition and the thin‐film solid dispersion methods. The thin solid method provided formulations with higher stabilities besides effective encapsulation of the PS as monomers. Size measurements demonstrated that Pluronic forms self‐assembled micelles with uniform size, which present slightly negative surface potential and a spherical form detected by TEM microscopy. The ester length modulates xanthene localization in the micelle, which is deeper with the increase of the alkyl chain. Moreover, some PS is distributed into two populations: one on the corona micelle interface shell (PEO layer) and the other into the core (PPO region). Although all PS formulations show high singlet oxygen quantum yield, promising results were obtained for Erythrosin B esters with the hydrophobic P‐123, which ensures their potential as drug for clinical photodynamic applications.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-26T08:55:36.692863-05:
      DOI: 10.1111/php.12645
       
  • Photobiomodulation by Infrared Diode‐Laser: Effects on Intracellular
           Calcium Concentration and Nitric Oxide Production of Paramecium
    • Authors: Andrea Amaroli; Alberico Benedicenti, Sara Ferrando, Steven Parker, Wayne Selting, Lorenzo Gallus, Stefano Benedicenti
      Abstract: In Paramecium cilia beating is correlated to intracellular calcium concentration ([Ca2+]i) and nitric oxide (NO) synthesis. Recent findings affirm that photobiomodulation (PBM) can transiently increase the [Ca2+]i in mammalian cells. In the present study we investigated the effect of both 808nm and 980nm diode laser irradiated with flat‐top hand‐piece on [Ca2+]i and NO production of Paramecium primaurelia, to provide basic information for the development of new therapeutic approaches. In the experiments, the laser power in CW varied (0.1W; 0.5W; 1W; 1.5W) to generate the following respective fluences: 6.4J/cm2; 32J/cm2; 64J/cm2; 96J/cm2. The 6.4J/cm2 didn't induce PBM if irradiated by both 808nm and 980nm diode laser. Conversely, the 32J/cm2 fluence had no effect on Paramecium cells if irradiated by the 808nm laser, while if irradiated by the 980 nm laser induced increment in swimming speed (suggesting an effect on the [Ca2+]i, NO production, similar to the 64J/cm2 with the 808nm wavelength). The more evident discordance occurred with the 96J/cm2fluence, which had the more efficient effect on PBM among the parameters if irradiated with the 808nm laser and killed the Paramecium cells if irradiated by the 980nm laser. Lastly, the 980nm and 64J/cm2 or 96J/cm2 were the only parameters to induce a release of stored calcium.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-26T08:50:29.612682-05:
      DOI: 10.1111/php.12644
       
  • Tibetan Firefly Luciferase With Low Temperature Adaptation
    • Authors: Yasuo Mitani; Ryo Futahashi, Zichao Liu, Xingcai Liang, Yoshihiro Ohmiya
      Abstract: Fireflies are widespread all over the world and a numerous numbers of luciferases have been isolated and characterized. In this study, we identified and characterized the luciferase and luciferase‐like genes from a Tibetan firefly collected in Shangri‐La, China. The altitude of this area is more than 3,300 meters. We saw this Tibetan firefly flying with strong luminescence after sunset at ~10°C. We analyzed the transcriptome of Tibetan firefly using head, thorax, abdomen (without light organ), and light organ tissue by RNA sequencing. We identified one luciferase gene, which was almost identical to luciferase from fireflies Pyrocoelia species, and expressed specifically in the light organ. Interestingly, the optimal temperature of the Tibetan firefly recombinant luciferase was 10°C. The Km for D‐luciferin and ATP of the recombinant luciferase was 23 and 154 μM, respectively. The optimal pH was around 7.0 to 7.5. The emission peak was 556 nm at pH 8.0, while it shifted to 606 nm at pH 6.0. We also found a luciferase‐like gene with 43% identical amino acids to the Tibetan firefly luciferase, which was scarcely expressed in any portion of the adult body. No luciferase activity was detected for this luciferase‐like protein.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-26T08:50:23.110213-05:
      DOI: 10.1111/php.12643
       
  • Skin Exposure to Ultraviolet B Rapidly Activates Systemic Neuroendocrine
           and Immunosuppressive Responses
    • Authors: Cezary Skobowiat; Arnold E. Postlethwaite, Andrzej T. Slominski
      Abstract: The back skin of C57BL/6 mice was exposed to a single 400 mJ/cm2 dose of ultraviolet B (UVB), and parameters of hypothalamic‐pituitary‐adrenal (HPA) axis in relation to immune activity were tested after 30‐90 min following irradiation. Levels of brain and/or plasma corticotropin releasing hormone (CRH), β‐endorphin, ACTH and corticosterone (CORT) were enhanced by UVB. Hypophysectomy had no effect on UVB‐induced increases of CORT. Mitogen induced IFNγ production by splenocytes from UVB‐treated mice was inhibited at 30, 90 min and after 24 h. UVB also led to inhibition of IL‐10 production indicating an immunosuppressive effect on both Th1 and Th2 cytokines. Conditioned media from splenocytes isolated from UVB‐treated animals had no effect on IFNγ production in cultured normal splenocytes, however IFNγ increased with conditioned media from sham‐irradiated animals. Sera from UVB‐treated mice suppressed T cell mitogen‐induced IFNγ production as compared to sera from sham‐treated mice. IFNγ production was inhibited in splenocytes isolated from UVB‐treated animals with intact pituitary, while stimulated in splenocytes from UVB‐treated hypophysectomised mice. Thus, cutaneous exposure to UVB rapidly stimulates systemic CRH, ACTH, β‐endorphin, and CORT production accompanied by rapid immunosuppressive effects in splenocytes that appear to be independent of the HPA axis.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-26T08:45:23.154824-05:
      DOI: 10.1111/php.12642
       
  • Post‐excision Events in Human Nucleotide Excision Repair
    • Authors: Michael G. Kemp; Jinchuan Hu
      Abstract: The nucleotide excision repair system removes a wide variety of DNA lesions from the human genome, including photoproducts induced by ultraviolet (UV) wavelengths of sunlight. A defining feature of nucleotide excision repair is its dual incision mechanism, in which two nucleolytic incision events on the damaged strand of DNA at sites bracketing the lesion generate a damage‐containing DNA oligonucleotide and a single‐stranded DNA gap approximately 30 nucleotides in length. Although the early events of nucleotide excision repair, which include lesion recognition and the dual incisions, have been explored in detail and are reasonably well understood, the fate of the single‐stranded gaps and excised oligonucleotide products of repair have not been as extensively examined. In this review, recent findings that address these less‐explored aspects of nucleotide excision repair are discussed and support the concept that post‐incision gap and excised oligonucleotide processing are critical steps in the cellular response to DNA damage induced by UV light and other environmental carcinogens. Defects in these latter stages of repair lead to cell death and other DNA damage signaling responses and may therefore contribute to a number of human disease states associated with exposure to UV wavelengths of sunlight, including skin cancer, aging, and autoimmunity.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-19T19:25:23.282486-05:
      DOI: 10.1111/php.12641
       
  • Hormonal Regulation of the Repair of UV Photoproducts in Melanocytes by
           the Melanocortin Signaling Axis
    • Authors: Stuart G. Jarrett; John A. D'Orazio
      Abstract: Melanoma is the deadliest form of skin cancer because of its propensity to spread beyond the primary site of disease and because it resists many forms of treatment. Incidence of melanoma has been increasing for decades. Though ultraviolet radiation (UV) has been identified as the most important environmental causative factor for melanoma development, UV‐protective strategies have had limited efficacy in melanoma prevention. UV mutational burden correlates with melanoma development and tumor progression, underscoring the importance of UV in melanomagenesis. However, besides amount of UV exposure, melanocyte UV mutational load is influenced by the robustness of nucleotide excision repair, the genome maintenance pathway charged with removing UV photoproducts before they cause permanent mutations in the genome. In this review, we highlight the importance of the melanocortin hormonal signaling axis on regulating efficiency of nucleotide excision repair in melanocytes. By understanding the molecular mechanisms by which nucleotide excision repair can be increased, it may be possible to prevent many cases of melanoma by reducing UV mutational burden over time.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-19T19:25:20.826358-05:
      DOI: 10.1111/php.12640
       
  • Bioluminescent Enzymatic Assay as a Tool for Studying Antioxidant Activity
           and Toxicity of Bioactive Compounds
    • Authors: Nadezhda S. Kudryasheva; Ekaterina S. Kovel, Anna S. Sachkova, Anna A. Vorobeva, Viktoriya G. Isakova, Grigoriy N. Churilov
      Abstract: A bioluminescent assay based on a system of coupled enzymatic reactions catalyzed by bacterial luciferase and NADH:FMN‐oxidoreductase was developed to monitor toxicity and antioxidant activity of bioactive compounds. The assay enables studying toxic effects at the level of biomolecules and physicochemical processes, as well as determining the toxicity of general and oxidative types. Toxic and detoxifying effects of bioactive compounds were studied. Fullerenols, perspective pharmaceutical agents, nanosized particles, water‐soluble polyhydroxylated fullerene‐60 derivatives were chosen as bioactive compounds. Two homologous fullerenols with different number and type of substituents, C60O2‐4(OH)20‐24 and Fe0.5C60(OH)xOy (x+y=40‐42), were used. They suppressed bioluminescent intensity at concentrations > 0.01 g L−1 and > 0.001 g L−1 for C60O2‐4(OH)20‐24 and Fe0.5C60(OH)xOy, respectively, hence, a lower toxicity of C60O2‐4(OH)20‐24 was demonstrated. Antioxidant activity of fullerenols was studied in model solutions of organic and inorganic oxidizers; changes in toxicities of general and oxidative type were determined; detoxification coefficients were calculated. Fullerenol C60O2‐4(OH)20‐24 revealed higher antioxidant ability at concentrations 10‐17‐10‐5 g L−1. The difference in the toxicity and antioxidant activity of fullerenols was explained through their electron donor/acceptor properties and different catalytic activity. Principles of bioluminescent enzyme assay application for evaluating the toxic effect and antioxidant activity of bioactive compounds were summarized.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-19T19:20:27.241649-05:
      DOI: 10.1111/php.12639
       
  • Detection of the Excised, Damage‐containing Oligonucleotide Products of
           Nucleotide Excision Repair in Human Cells
    • Authors: Jimyeong Song; Michael G. Kemp, Jun‐Hyuk Choi
      Abstract: The human nucleotide excision repair system targets a wide variety of DNA adducts for removal from DNA, including photoproducts induced by UV wavelengths of sunlight. A key feature of nucleotide excision repair is its dual incision mechanism, which results in generation of a small, damage‐containing oligonucleotide approximately 24‐ to 32‐nt in length. Detection of these excised oligonucleotides using cell‐free extracts and purified proteins with defined DNA substrates has provided a robust biochemical assay for excision repair activity in vitro. However, the relevance of a number of in vitro findings to excision repair in living cells in vivo has remained unresolved. Over the past few years, novel methods for detecting and isolating the excised oligonucleotide products of repair in vivo have therefore been developed. Here we provide a basic outline of a sensitive and versatile in vivo excision assay and discuss how the assay both confirms previous in vitro findings and offers a number of advantages over existing cell‐based DNA repair assays. Thus, the in vivo excision assay offers a powerful tool for readily monitoring the repair of DNA lesions induced by a large number of environmental carcinogens and anti‐cancer compounds.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-16T02:30:41.787955-05:
      DOI: 10.1111/php.12638
       
  • Inside‐Out Ultraviolet‐C Sterilization of Pseudomonas
           aeruginosa Biofilm In Vitro
    • Authors: Cameron C Jones; Steffi Valdeig, Raymond M Sova, Clifford R Weiss
      Abstract: Biofilms are difficult to eradicate due to a protective architecture and create major challenges in patient care by diminishing both host immune response and therapeutic approaches. This study investigated a new strategy for treating surface‐attached biofilms by delivering germicidal UV through a material surface in a process referred to as “inside‐out sterilization” (IOS). Mature Pseudomonas aeruginosa (ATCC® 27853™) biofilms were irradiated with up to 1400 mJ cm−2 of germicidal UV from both ambient and IOS configurations. The lethal dose for the ambient exposure group was 461 mJ cm−2 95% CI [292, 728] compared to the IOS treatment group of 247 mJ cm−2 95% CI [187, 325], corresponding to 47% less UV dosage for the IOS group (p < 0.05). This study demonstrated that with IOS, a lower quantal dosage of UV energy is required to eradicate biofilm than with ambient exposure by leveraging the organizational structure of the biofilm.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-12T05:00:58.784369-05:
      DOI: 10.1111/php.12637
       
  • Antagonistic Effects of Endogenous Nitric Oxide in a Glioblastoma
           Photodynamic Therapy Model
    • Authors: Jonathan M. Fahey; Joseph V. Emmer, Witold Korytowski, Neil Hogg, Albert W. Girotti
      Abstract: Gliomas are aggressive brain tumors that are resistant to conventional chemotherapy and radiotherapy. Much of this resistance is attributed to endogenous nitric oxide (NO). Recent studies revealed that 5‐aminolevulinic acid (ALA)‐based photodynamic therapy (PDT) has advantages over conventional treatments for glioblastoma. In the present study, we used an in vitro model to assess whether NO from glioblastoma cells can interfere with ALA‐PDT. Human U87 and U251 cells expressed significant basal levels of neuronal NO synthase (nNOS) and its inducible counterpart (iNOS). After an ALA/light challenge, iNOS level increased 3‐4 fold over 24 h, whereas nNOS remained unchanged. Elevated iNOS resulted in a large increase in intracellular NO. Extent of ALA/light‐induced apoptosis increased substantially when an iNOS inhibitor or NO scavenger was present, implying that iNOS/NO was acting cytoprotectively. Moreover, cells surviving a photochallenge exhibited a striking increase in proliferation, migration, and invasion rates, iNOS/NO again playing a dominant role. Also observed was a large iNOS/NO‐dependent increase in matrix metalloproteinase‐9 activity, decrease in tissue inhibitor of metalloproteinase‐1 expression, and increase in survivin and S100A4 expression, each effect being consistent with accelerated migration/invasion as a prelude to metastasis. Our findings suggest introduction of iNOS inhibitors as pharmacologic adjuvants for glioblastoma PDT.This article is protected by copyright. All rights reserved.
      PubDate: 2016-09-08T09:45:22.725513-05:
      DOI: 10.1111/php.12636
       
  • Disinfection and Mechanistic Insights of E. coli in Water by Bismuth
           Oxyhalide Photocatalysis
    • Authors: Ilana Sherman; Yoram Gerchman, Yoel Sasson, Hani Gnayem, Hadas Mamane
      Abstract: This study demonstrates the potential of a new BiOCl0.875Br0.125 photocatalyst to disinfect Escherichia coli in water under simulated solar irradiation. Photocatalytic efficiency was examined for different photocatalyst loadings, solar wavelengths, exposure times, photocatalyst concentration × contact time (Ct) concept, and with the use of scavengers. To elucidate the inactivation mechanism, we examined DNA damage, membrane damage, lipid peroxidation and protein release. Both photolysis and photocatalysis were negligible under visible irradiation, but enhanced photocatalytic activity was observed under solar UVA (λ > 320 nm) and UVB (λ > 280 nm), with 1.5 and 3.6 log inactivation, respectively, after 40 min irradiation. The log inactivation vs. Ct curve for E. coli by UVA/BiOCl0.875Br0.125 was fairly linear, with Ct = 10 g L−1×min, resulting in 2‐log inactivation. Photocatalytic treatment led to membrane damage, but without lipid peroxidation. Accordingly, protein was released from the cells after UVA or UVA/BiOCl0.875Br0.125 treatment. Photocatalysis also increased endonuclease‐sensitive sites vs. photolysis alone, by an unknown mechanism. Finally, E. coli inactivation was not influenced by the addition of tert‐butanol or L‐histidine, implying that neither hydroxyl radicals nor singlet oxygen reactive species are involved in the inactivation process.This article is protected by copyright. All rights reserved.
      PubDate: 2016-08-17T02:50:20.725368-05:
      DOI: 10.1111/php.12635
       
  • Protective Effect of Curcumin Against Acute Ultraviolet B Irradiation
           Induced Photo‐damage
    • Authors: Huaping Li; Aili Gao, Na Jiang, Qing Liu, Bihua Liang, Runxiang Li, Erting Zhang, Zhenjie Li, Huilan Zhu
      Abstract: Ultraviolet B (UVB) irradiation is one of the most dangerous insults for skin, and causes sunburn, erythema, photoaging and photocarcinogenesis. Curcumin (diferuloylmethane), a yellow spice derived from dried rhizomes of Curcuma longa, has been shown to possess significant anti‐inflammatory, anti‐oxidant, anti‐carcinogenic, anti‐mutagenic, anticoagulant and anti‐infective effects. However, the protective effects of curcumin against acute photo‐damage are poorly understood. In this study, we investigated the photo‐protective effects of curcumin against UVB induced acute photo‐damage in hairless mice and immortalized human keratinocytes (HaCaT). Topical application of curcumin significantly inhibited acute UVB (540 mJ/cm2, for 3 successive days)‐induced inflammatory cells, collagen accrementition derangement and lipid peroxidation, and effectively induced NF‐E2‐related factor 2 (Nrf2) nuclear accumulation in Uncovered (Uncv) hairless mice skin. Treatment of HaCaT cells with curcumin significantly attenuated acute UVB (300 mJ/cm2)‐induced lactate dehydrogenase (LDH) release, intracellular reactive oxygen species (ROS) production and DNA damage, activated the expression of the phase II detoxifying enzymes and promoted DNA repair activity. The photoprotective effect provided by curcumin was potential associated with modulation of Nrf2–dependent antioxidant response. Our study suggested that curcumin is a potential agent for preventing and/or treating UV radiation induced acute inflammation and photoaging.This article is protected by copyright. All rights reserved.
      PubDate: 2016-08-12T03:55:22.752187-05:
      DOI: 10.1111/php.12628
       
  • Objective Detection of Oral Carcinoma with Multispectral Fluorescence
           Lifetime Imaging In Vivo
    • Authors: Bilal H. Malik; Joohyung Lee, Shuna Cheng, Rodrigo Cuenca, Joey M. Jabbour, Yi‐Shing Lisa Cheng, John Wright, Beena Ahmed, Kristen C. Maitland, Javier A. Jo
      Abstract: Successful early detection and demarcation of oral carcinoma can greatly impact the associated morbidity and mortality rates. Current methods for detection of oral cancer include comprehensive visual examination of the oral cavity, typically followed by tissue biopsy. A noninvasive means to guide the clinician in making a more objective and informed decision towards tissue biopsy can potentially improve the diagnostic yield of this process. To this end, we investigate the potential of fluorescence lifetime imaging (FLIM) for objective detection of oral carcinoma in the hamster cheek pouch model of oral carcinogenesis in vivo. We report that systematically selected FLIM features can differentiate between low‐risk (normal, benign and low‐grade dysplasia) and high‐risk (high‐grade dysplasia and cancer) oral lesions with sensitivity and specificity of 87.26% and 93.96%, respectively. We also show the ability of FLIM to generate ‘disease’ maps of the tissue which can be used to evaluate relative risk of neoplasia. The results demonstrate the potential of multispectral FLIM with objective image analysis as a noninvasive tool to guide comprehensive oral examination.This article is protected by copyright. All rights reserved.
      PubDate: 2016-08-06T21:34:36.427675-05:
      DOI: 10.1111/php.12627
       
  • Synthesis and Modification of Zn‐doped TiO2 Nanoparticles for the
           Photocatalytic Degradation of Tetracycline
    • Authors: Shuo Pang; Ji‐guo Huang, Yun Su, Bo Geng, Su‐yuan Lei, Yu‐ting Huang, Cong Lyu, Xing‐juan Liu
      Abstract: The synthesis of Zn‐doped TiO2 nanoparticles by sol‐gel method was investigated in this study, as well as its modification by H2O2. The catalyst was characterized by transmission electron microscopy, X‐ray diffraction, Brunauer‐Emmett‐Teller, UV‐visible reflectance spectra and X‐ray photoelectron spectroscopy (XPS). The results indicated that doping Zn into TiO2 nanoparticles could inhibit the transformation from anatase phase to rutile phase. Zn existed as the second valence oxidation state in the Zn‐doped TiO2. Zn‐doped TiO2 that was synthesized by 5% Zn doping at 450 °C exhibited the best photocatalytic activity. Then, the H2O2 modification further enhanced the photocatalytic activity. Zn doping and H2O2 modifying narrowed the band gap and efficiently increased the optical absorption in visible region. The optimal degradation rate of tetracycline by Zn‐doped TiO2 and H2O2 modified Zn‐doped TiO2 was 85.27% and 88.14%. Peroxide groups were detected in XPS analysis of H2O2 modified Zn‐doped TiO2, favoring the adsorption of visible light. Furthermore, Zn‐doped TiO2 modified by H2O2 had relatively good reusability, exhibiting a potential practical application for tetracycline's photocatalytic degradation.This article is protected by copyright. All rights reserved.
      PubDate: 2016-08-06T15:45:38.498958-05:
      DOI: 10.1111/php.12626
       
  • Deficient Nucleotide Excision Repair in Squamous Cell Carcinoma Cells
    • Authors: Tiffany K. Dong; Katherine Ona, Amy E. Scandurra, Stephanie K. Demetriou, Dennis H. Oh
      Abstract: Squamous cell carcinomas (SCCs) are associated with ultraviolet radiation and multiple genetic changes, but the mechanisms leading to genetic instability are unclear. SCC cell lines were compared to normal keratinocytes for sensitivity to ultraviolet radiation, DNA repair kinetics, and DNA repair protein expression. Relative to normal keratinocytes, four SCC cell lines were all variably sensitive to ultraviolet radiation and, except for the SCC25 cell line, were deficient in global repair of cyclobutane pyrimidine dimers, though not 6‐4 photoproducts. Impaired DNA repair of cyclobutane pyrimidine dimers was associated with reduced mRNA expression from XPC but not DDB2 genes which each encode key DNA damage recognition proteins. However, levels of XPC or DDB2 proteins or both were variably reduced in repair‐deficient SCC cell lines. p53 levels did not correlate with DNA repair activity or with XPC and DDB2 levels, but p63 levels were deficient in cell lines with reduced global repair. Repair‐proficient SCC25 cells depleted of p63 lost XPC expression, early global DNA repair activity and UV‐resistance. These results demonstrate that some SCC cell lines are deficient in global nucleotide excision repair, and support a role for p63 as a regulator of nucleotide excision repair in SCCs.This article is protected by copyright. All rights reserved.
      PubDate: 2016-08-06T12:06:45.722471-05:
      DOI: 10.1111/php.12625
       
  • Distinct Role of Sesn2 in Response to UVB‐induced DNA Damage and
           UVA‐induced Oxidative Stress in Melanocytes
    • Authors: Baozhong Zhao; Palak Shah, Lei Qiang, Tong‐Chuan He, Andrey Budanov, Yu‐Ying He
      Abstract: Ultraviolet (UV) radiation, including both UVB and UVA irradiation, is the major risk factor for causing skin cancer including melanoma. Recently we have shown that Sesn2, a member of the evolutionarily conserved stress‐inducible protein family Sestrins (Sesn), is up‐regulated in human melanomas as compared to melanocytes in normal human skin, suggesting an oncogenic role of Sesn2. However, the role of Sesn2 in UVB and UVA response is unknown. Here we demonstrated that both UVB and UVA induce Sesn2 up‐regulation in melanocytes and melanoma cells. UVB induces Sesn2 expression through the p53 and AKT3 pathways. Sesn2 negatively regulates UVB‐induced DNA damage repair. In comparison UVA induces Sesn2 up‐regulation through mitochondria but not Nrf2. Sesn2 ablation increased UVA‐induced Nrf2 induction and inhibits UVA‐induced ROS production, indicating that Sesn2 acts as an upstream regulator of Nrf2. These findings suggest previously unrecognized mechanisms in melanocyte response to UVB and UVA irradiation and potentially in melanoma formation.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-27T09:50:19.827165-05:
      DOI: 10.1111/php.12624
       
  • Attitudes, Beliefs and Measures Taken by Parents to Protect Their Children
           from the Sun in Guangzhou City, China
    • Authors: Miaojian Wan; Rong Hu, Ying Li, Yaning Wang, Xiaoyuan Xie, Pan Yue, Lei Guan, Wei Lai
      Abstract: Excessive sun exposure can cause sunburn, suntan, skin photoaging, and even skin cancer. Skin photoaging conflicts with the human pursuit of a young and beautiful appearance. Some research data indicate that the incidence of skin cancer in the Chinese has been increasing, although it remains lower than in whites. To estimate the prevalence of sun protection used on Chinese children aged 3–13 years and identify its predictors, a population‐based cross‐sectional questionnaire was give to 3,684 parents/guardians of children in Guangzhou, China of which 3,083 questionnaires were returned. Of those returned, 35.5% of parents/guardians reported regularly using sun protection on their children and the primary reason cited was to prevent sunburn. Hats and handheld umbrellas were the most frequently used measures; sunscreen was less common, and when used, 48.8% of parents/guardians still reapplied sunscreen on their children every 2.0–3.0 h. Parental age, parents using sun protection measures themselves when outdoors, and the child's sex were factors associated with regular use of sun protection on children. These results suggest that sun protection campaigns targeted toward parents and children need to be conducted in Guangzhou, or throughout China, to strengthen awareness about sun protection and address any inadequate protocols of sun protection.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-27T09:45:23.857185-05:
      DOI: 10.1111/php.12623
       
  • FAD and MTHF are the in‐planta Cofactors of Arabidopsis thaliana
           Cryptochrome 3
    • Authors: Tanja Göbel; Stefan Reisbacher, Alfred Batschauer, Richard Pokorny
      Abstract: Members of the cryptochrome/photolyase family (CPF) of proteins utilize non‐covalently bound light‐absorbing cofactors for their biological function. Usually, the identity of these cofactors is determined after expression in heterologous systems leaving the question unanswered whether these cofactors are identical to the indigenous ones. Here, cryptochrome 3 from Arabidopsis thaliana was expressed as a fusion with the green fluorescent protein in Arabidopsis plants. Besides the confirmation of the earlier report of its localization in chloroplasts, our data indicate that fractions of the fusion protein are present in the stroma and associated with thylakoids, respectively. Furthermore, it is shown that the fusion protein expressed in planta contains the same cofactors as the His6‐tagged protein expressed in Escherichia coli, i.e., flavin adenine dinucleotide and N5,N10‐methenyltetrahydrofolate. This demonstrates that the heterologously‐expressed cryptochrome 3, characterized in a number of previous studies, is a valid surrogate of the corresponding protein expressed in plants. To our knowledge, this is also a first conclusive analysis of cofactors bound to an Arabidopsis protein belonging to the CPF and purified from plant tissue.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-27T09:45:21.608782-05:
      DOI: 10.1111/php.12622
       
  • Near–infrared–Responsive Peptide that Targets Collagen Fibrils
           to Induce Cytotoxicity
    • Authors: Masayuki Honda; Aoi Odawara, Ikuro Suzuki, Morio Shimada, Kohki Yoshikawa, Tomoko Okada
      Abstract: A novel conjugate, PHG10–dye, was synthesized using a collagen peptide and a near‐infrared (NIR) responsive dye to achieve targeted cytotoxicity. The collagen peptide motif, ‐(Pro‐Hyp‐Gly)10‐ (PHG10), was incorporated for targeting collagen fibrils that are excessively produced by activated fibroblasts around tumor cells. PHG10–dye was purified by HPLC and identified by MALDI‐MS. The phototoxicity and cytotoxicity of PHG10–dye were examined using human glioma cells (HGCs). Fluorescent images indicated that PHG10–dye preferably assembled to collagen‐coated HGCs compared with non‐coated HGCs. Under irradiation with NIR light, effective cytotoxicity was observed on collagen‐coated HGCs within 20 min. Because phototoxicity and cytotoxicity are dependent on the assembled amount of PHG10–dye, the targeting of collagen fibrils by the collagen peptide motif PHG10 is assured.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-18T11:15:31.735262-05:
      DOI: 10.1111/php.12621
       
  • The Effects of Ultraviolet Ray Eye Irradiation on DSS‐induced
           Ulcerative Colitis in Mice
    • Authors: Keiichi Hiramoto; Yurika Yamate, Eisuke F. Sato
      Abstract: Ultraviolet (UV) eye irradiation denatures the cells of the intestine. This study examined the action of UVA and UVB on dextran sodium sulfate (DSS)‐induced ulcerative colitis. We produced a mouse model of ulcerative colitis by administering DSS for five days, and irradiated the eye with UVB or UVA for each day of the DSS‐treatment period. DSS‐induced ulcerative colitis was deteriorated by the UVB eye irradiation. Conversely, the symptoms improved with UVA eye irradiation. The levels of adrenocorticotropic hormone (ACTH), corticotropin‐releasing hormone (CRH), urocortin 2, interleukin (IL)‐18, IL‐6, and histamine in the blood increased after the UVB eye irradiation of DSS‐treated mice (UVB/DSS‐treated mice). In contrast, the β‐endorphin level in the blood of the UVA/DSS‐treated mice increased and the levels urocortin 2, tumor necrosis factor (TNF)‐α and histamine decreased. Furthermore, in the colon, the expression of melanocortin‐2 receptors (MC2R) increased in the UVB/DSS‐treated mice, while the expression of μ‐opioid receptors increased in the UVA/DSS‐treated mice. When an ACTH inhibitor was administered, UVB eye irradiation caused the deterioration of DSS‐treated ulcerative colitis, while the effect of UV eye irradiation disappeared with a μ‐opioid receptor antagonist. These results suggested that UV eye irradiation plays an important role in DSS‐induced ulcerative colitis.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-18T11:06:55.377456-05:
      DOI: 10.1111/php.12620
       
  • Differential Laser‐induced Perturbation Spectroscopy for Analysis of
           Mixtures of the Fluorophores L‐Phenylalanine, L‐Tyrosine, and
           L‐Tryptophan Using a Fluorescence Probe
    • Authors: Erman K. Oztekin; David W. Hahn
      Abstract: Quantitative detection of common endogenous fluorophores is accomplished using differential laser‐induced perturbation spectroscopy (DLIPS) with a 193‐nm UV fluorescence probe and various UV perturbation wavelengths. In this study, DLIPS is explored as an alternative to traditional fluorescence spectroscopy alone, with a goal of exploring natural fluorophores pursuant to biological samples and tissue analysis. To this end, aromatic amino acids, namely, L‐Phenylalanine, L‐Tyrosine and L‐Tryptophan are mixed with differing mass ratios and then classified with various DLIPS schemes. Classification with a traditional fluorescence probe is used as a benchmark. The results show a 20% improvement in classification performance of the DLIPS method over the traditional fluorescence method using partial least squares (PLS) analysis. Additional multivariate analyses are explored and the relevant photochemistry is elucidated in the context of perturbation wavelengths. We conclude that DLIPS is a promising biosensing approach with potential for in vivo analysis given the current findings with fluorophores relevant to biological tissues.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-15T03:05:32.109278-05:
      DOI: 10.1111/php.12618
       
  • Photoprotective Potential of Baccharis antioquensis (Asteraceae) as
           Natural Sunscreen
    • Authors: Juan C. Mejía‐Giraldo; Robert Winkler, Cecilia Gallardo, Ana M. Sánchez‐Zapata, Miguel A. Puertas‐Mejía
      Abstract: In the quest for new natural agents of photoprotection, we evaluated the photoprotective and antioxidant activity of B. antioquensis leaf extracts as well as its phenolic composition. The methanolic extract treated with activated carbon showed the highest absorption coefficients for UVA‐UVB radiation, as well as an antioxidant capacity comparable to BHT. Furthermore, the formulation containing this extract showed suitable sensorial and photostable characteristics for topical use, and significant values of UVAPF, critical wavelength (λc), UVA/UVB ratio and SPF (5.3, 378 nm, 0.78 and 9.1±0.1, respectively). In addition, three glycoside derivatives of quercetin, a kaempferol glycoside and a derivative of caffeic acid were the main polyphenolic compounds identified. These results demonstrate the potential of B. antioquensis extracts to be used as active components of novel, natural sunscreens.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-15T03:05:29.864055-05:
      DOI: 10.1111/php.12619
       
  • Germ Cell Testicular Cancer Incidence, Latitude and Sunlight Associations
           in the United States and Australia
    • Authors: Robert J. Biggar; Peter D. Baade, Jiandong Sun, Lindsay E. Brandon, Michael Kimlin
      Abstract: International patterns suggest germ cell testicular cancer (GCTC) incidence may be lower in lower latitudes. To investigate this possibility, we examined GCTC incidence by latitude (population‐centroid in 2000) for men >15 years within two reasonably homogeneous countries, the United States (US) and Australia. In the US, we examined age‐adjusted incidence/latitude trends using data from states (2001‐2010) and local‐area registries (1980‐2011). In Australia, we evaluated incidence/latitude trends in 61 Statistical Divisions (2000‐2009). In White US men (68,566 cases), state incidences increased by latitude, rising 5.74% (4.45‐7.05%) per 5°North latitude increment. Similar trends were found for seminoma and non‐seminoma subtypes (p
      PubDate: 2016-07-11T08:26:48.537791-05:
      DOI: 10.1111/php.12617
       
  • Ultra‐weak Photon Emission from the Seed Coat in Response to Temperature
           and Humidity ‐ A Potential Mechanism for Environmental Signal
           Transduction in the Soil Seed Bank
    • Authors: Steven Footitt; Simonetta Palleschi, Eugenio Fazio, Raffaele Palomba, William E Finch‐Savage, Leopoldo Silvestroni
      Abstract: Seeds beneath the soil sense the changing environment to time germination and seedling emergence with the optimum time of year for survival. Environmental signals first impact with the seed at the seed coat. To investigate whether the seed coat has a role in environmental sensing we investigated their ultra‐weak photon emission (UPE) under the variable temperature, relative humidity and oxygen conditions they could experience in the soil seed bank. Using a custom built luminometer we measured UPE intensity and spectra (300‐700 nm) from Phaseolus vulgaris seeds, seed coats and cotyledons. UPE was greatest from the internal surface of the seed coat. Seed coat UPE increased concomitantly with both increasing temperature and decreasing relative humidity. Emission was oxygen dependent and it was abolished by treatment with dinitrophenylhydrazine demonstrating the key role of seed coat carbonyls in the phenomenon. We hypothesize that beneath the soil surface the attenuation of light (virtual darkness: low background noise) enables seeds to exploit UPE for transducing key environmental variables in the soil (temperature, humidity and oxygen) to inform them of seasonal and local temperature patterns. Overall, seed coats were found to have potential as effective transducers of key fluctuating environmental variables in the soil.This article is protected by copyright. All rights reserved.
      PubDate: 2016-07-08T01:55:35.057823-05:
      DOI: 10.1111/php.12616
       
  • Plantamajoside Inhibits UVB and Advanced Glycation End Products‐induced
           MMP‐1 Expression by Suppressing the MAPK and NF‐ĸB Pathways in HaCaT
           Cells
    • Authors: Ah‐Ram Han; Mi‐Hyun Nam, Kwang‐Won Lee
      Abstract: Photoaging and glycation stress are major causes of skin deterioration. Oxidative stress caused by ultraviolet B (UVB) irradiation can upregulate matrix metalloprotease 1 (MMP‐1), a major enzyme responsible for collagen damage in the skin. Advanced glycation end products (AGEs) accumulate via gradual formation from skin proteins, especially from long‐lived proteins such as dermal elastin and collagen. Plantamajoside (PM), isolated from Plantago asiatica, has various biological effects including anti‐inflammatory and antioxidant effects. In this study, we assessed the protective effects of PM on a human keratinocyte cell line (HaCaT) and primary human dermal fibroblasts (HDF) against stress caused by glyceraldehyde‐induced AGEs (glycer‐AGEs) with UVB irradiation. We found that PM attenuated UVB‐and‐glycer‐AGEs–induced MMP‐1 expression in HaCaT and HDF cells and proinflammatory cytokines expression by inhibiting the phosphorylation of mitogen‐activated protein kinases (MAPKs) activated by reactive oxygen species. Specific inhibitors of NF‐κB and MAPKs attenuated the induced expression of MMP‐1. PM also inhibited the phosphorylation of IκBα, and reduced nuclear translocation of NF‐κB in these cells. Furthermore, PM attenuated the upregulation of receptor for AGEs (RAGE) by glycer‐AGEs with UVB irradiation. Therefore, our findings strongly suggest that PM is a promising inhibitor of skin photoaging.This article is protected by copyright. All rights reserved.
      PubDate: 2016-06-27T03:05:52.855034-05:
      DOI: 10.1111/php.12615
       
  • A Possible Phenom of Persistence in Pseudomonas aeruginosa Treated With
           Methylene Blue and Red Light
    • Authors: Ana Florencia Forte Giacobone; Maria Fernanda Ruiz Gale, Elsa Noemí Hogert, Oscar Juan Oppezzo
      Abstract: Planktonic Pseudomonas aeruginosa cells harvested in stationary phase were exposed to red light in presence of methylene blue to study the potential occurrence of persistence in bacterial populations submitted to photodynamic antimicrobial therapy. Survival curves revealed the existence of small subpopulations of cells exhibiting increased ability to tolerate the treatment. These subpopulations were detected even using high concentrations of photosensitizer, whether added in a single step or following a fractionated scheme, and when the irradiation medium was modified to delay the photodecomposition of methylene blue. When cells grown from survivors to the treatment were cultured and exposed to red light and dye, their responses were similar to that of the original strain. These results exclude exhaustion of the photosensitizer and selection of resistant mutants as explanations for the features of the survival curves. Cells able to tolerate the treatment were found even when radiation was imparted at a high dose rate. They exhibit a response typical of persisters, which tolerate antimicrobial agents due to transient and reversible changes in their phenotype, suggesting that persistence is a factor to consider upon evaluating the efficacy of photodynamic antimicrobial therapy.This article is protected by copyright. All rights reserved.
      PubDate: 2016-06-25T09:50:30.647571-05:
      DOI: 10.1111/php.12613
       
  • Surface Arginine Saturation Effect on Unfolding Reaction of Firefly
           Luciferase: A Thermodynamic and Kinetic Perspective
    • Authors: Zahra Solgi; Khosrow Khalifeh, Saman Hosseinkhani, Bijan Ranjbar
      Abstract: Replacement of some hydrophobic solvent‐exposed residues in Lampyris turkestanicus luciferase with arginine increases thermostability of this enzyme. Herein, thermodynamic and kinetic of unfolding reactions of wild type (WT), E354R/356R, E354R/356R‐I232R and E354R/356R‐Q35R/L182R/I232R variants has been investigated. Fluorescence and Far‐UV circular dichroism signals using urea as chemical denaturant indicated that the value of ∆G(H2O) for all variants is greater than that of WT enzyme. Analysis of m‐values, as a measure of difference in the solvent accessible surface area between the native and denatured states of protein, revealed that higher stability of mutants is related to their higher degree of compactness in the folded state. Results of unfolding kinetic experiments showed that all variants have three‐exponential behavior in which, they unfolded with three rate constants and corresponding amplitudes. Increasing the rate constants of fast unfolding phase in mutants relative to WT protein may be attributed to more compactness and more kinetic sensitivity of their folded state to urea. However, more population of WT protein was unfolded from fast unfolding phase. Results of this investigation highlight kinetic stability of luciferase via a slow rate of unfolding.This article is protected by copyright. All rights reserved.
      PubDate: 2016-06-25T09:45:25.91839-05:0
      DOI: 10.1111/php.12614
       
  • Reduced Levels of Tissue Inhibitors of Metalloproteinases (TIMPs) in UVB
           Irradiated Corneal Epithelium
    • Authors: Taras Ardan; Lucie Němcová, Božena Bohuslavová, Adéla Klezlová, Štěpán Popelka, Hana Studenovská, Eva Hrnčiarová, Jitka Čejková, Jan Motlík
      Abstract: Tissue inhibitors of metalloproteinases (TIMPs) are the major endogenous regulators of metalloproteinase activity in tissues. TIMPs are able to inhibit activity of all known matrix metalloproteinases (MMPs) and thus participate in controlling extracellular matrix synthesis and degradation. We showed previously elevated expressions of MMPs in the rabbit corneal epithelium upon UVB exposure and suggested that these enzymes might be involved in corneal destruction caused by excessive proteolysis. The aim of this study was to investigate TIMPs in the corneal epithelium after UV irradiation using immunohistochemical and biochemical methods. We found that as compared to control rabbit corneas where relatively high levels of TIMPs were present in the epithelium, repeated irradiation of the cornea with UVB rays (not with UVA rays of similar doses) significantly decreased TIMPs in corneal epithelial cells. The results of this study point to the suggestion that the decrease of TIMPs in the corneal epithelium after UVB irradiation contributes to increased proteolytic activity of MMPs in UVB irradiated corneal epithelium found previously.This article is protected by copyright. All rights reserved.
      PubDate: 2016-06-18T02:25:26.941082-05:
      DOI: 10.1111/php.12612
       
  • Identification of a Fluorescent Protein from Rhacostoma atlantica
    • Authors: Michael R. Tota; Jeanna M. Allen, Jan O. Karolin, Chris D. Geddes, William W.Ward
      Abstract: We have cloned a novel fluorescent protein from the jellyfish Rhacostoma atlantica. The closest known related fluorescent protein is the Phialidium yellow‐fluorescent protein, with only a 55% amino acid sequence identity. A somewhat unusual alanine‐tyrosine‐glycine amino acid sequence forms the presumed chromophore of the novel protein. The protein has an absorption peak at 466 nm and a fluorescence emission peak at 498 nm. The fluorescence quantum yield was measured to be 0.77 and the extinction coefficient is 58,200 M−1 cm−1. Several mutations were identified that shift the absorption peak to about 494 nm and the emission peak to between 512 and 514 nm.This article is protected by copyright. All rights reserved.
      PubDate: 2016-06-11T08:15:25.856241-05:
      DOI: 10.1111/php.12609
       
  • Issue Information
    • Pages: 649 - 650
      PubDate: 2016-09-19T06:25:07.292491-05:
      DOI: 10.1111/php.12517
       
 
 
JournalTOCs
School of Mathematical and Computer Sciences
Heriot-Watt University
Edinburgh, EH14 4AS, UK
Email: journaltocs@hw.ac.uk
Tel: +00 44 (0)131 4513762
Fax: +00 44 (0)131 4513327
 
Home (Search)
Subjects A-Z
Publishers A-Z
Customise
APIs
Your IP address: 54.146.177.118
 
About JournalTOCs
API
Help
News (blog, publications)
JournalTOCs on Twitter   JournalTOCs on Facebook

JournalTOCs © 2009-2016