Archive for the ‘Hot Article’ Category

Photochemical & Photobiological Sciences issue 9 is now available online

Issue 9 of Photochemical & Photobiological Sciences is now available to read online.

PPS 9 front coverThe front cover this month features work by Richard McKenzie and co-workers from New Zealand. Their paper details the results of using electronic dosimeters to investigate the relationship between personal UV exposure and vitamin D status among a group of New Zealanders.

Read the article in full – it’s free to access for the next six weeks:
Small doses from artificial UV sources elucidate the photo-production of vitamin D
R. McKenzie, B. Liley, P. Johnston, R. Scragg, A. Stewart, A.I. Reeder and M.W. Allen  
Photochem. Photobiol. Sci., 2013,12, 1726-1737, DOI: 10.1039/C3PP50041A

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Photochemical & Photobiological Sciences issue 8 is now available online

Issue 8 of Photochemical & Photobiological Sciences is a themed issue on the Interaction of UV radiation with DNA and is now available to read online.

PPS issue 8 coverThe front cover this month features work by Patrick Rochette and Justin Mallet from Québec, Canada. In their work they seek to shed light on the genotoxic effect of sunlight in the human eye, by  investigating cyclobutane pyrimidine dimer (CPD) induction in the cornea and the iris following irradiation of human eyes with different UV wavelengths (UVA, UVB and UVC).

Read the article in full – it’s free to access for the next six weeks:
Wavelength-dependent ultraviolet induction of cyclobutane pyrimidine dimers in the human cornea
Justin D. Mallet and Patrick J. Rochette  
Photochem. Photobiol. Sci., 2013,12, 1310-1318, DOI: 10.1039/C3PP25408A


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HOT papers in Photochemical & Photobiological Science

Here is the latest HOT paper published in Photochemical & Photobiological Sciences:

The effect of dimerization on the excited state behavior of methylated xanthine derivatives: a computational study
Dana Nachtigallová, Adelia J. A. Aquino, Shawn Horn and Hans Lischka  
Photochem. Photobiol. Sci., 2013, Advance Article, DOI: 10.1039/C3PP50077B

 C3PP50077B ga

This paper is free to access for the next 4 weeks!

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Photochemical & Photobiological Sciences issue 7 is now available online

Issue 7 of Photochemical & Photochemical Sciences is a themed issue on ‘Blue-light photoreceptors’ and is now available to read online.

The front cover this month features work by Aba Losi and co-workers from Parma, Italy. Their article takes as its starting point the increasing evidence that prokaryotic organisms can sense and react to light stimuli via a variety of photosensory receptors and signal transduction pathways. The authors present a comprehensive scenario of the existence of bilin-GAF, LOV and BLUF proteins in the prokaryotic world, and inspect possible phylogenetic pathways. They also define novel criteria for identifying gene (and protein) sequences based on experimentally assessed photochemical events.

Read the article in full – it’s free to access for the next six weeks:
Distance-tree analysis, distribution and co-presence of bilin- and flavin-binding prokaryotic photoreceptors for visible light
Carmen Mandalari, Aba Losi and Wolfgang Gärtner  
Photochem. Photobiol. Sci., 2013, 12, 1144-1157, DOI: 10.1039/C3PP25404F

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Highly fluorescent peptide nanoribbon impregnated with Sn-porphyrin as a potent DNA sensor

Peptide nanostructures have recently been identified as an important bio-functional nanostructure.  Researchers have demonstrated that modification of these peptide nanostructures can greatly expand their biological applications.

Graphical abstract of C3PP25337FIn this work, Minjoong Yoon and colleagues from Chungnam National University, Republic of Korea, have prepared peptide nanoribbons (PNRs) impregnated with a Sn-porphyrin via solvothermal self-assembly.  The resulting nanoribbons are highly fluorescent and thermo-stable.  However, the fluorescence intensity and life-time were selectively affected upon interaction with the nucleotide base sequences of DNA, thus implying that these Sn-porphyrin-PNRs could be useful as a biocompatible DNA sensor.

Read the full article for free until the 7th March 2013!

Highly fluorescent peptide nanoribbon impregnated with Sn-porphyrin as a potent DNA sensor, Sreenivasan Koliyat Parayil, Jooran Lee and Minjoong Yoon, Photochem. Photobiol. Sci., 2013, DOI: 10.1039/C3PP25337F

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Photochemistry and photophysics of UV filter decomposition products in the human eye

The human eye is photoprotected by molecular UV filters which consist of low-molecular weight compounds in the lens that absorb UV light in the 300-400 nm spectral region.  The UV filters decompose to give a mixture of products, which can include kynurenine yellow (KNY) and kynurenic acid (KNA) from the UV filter kynurenine.  These compounds have only been found in very small or negligible concentrations in the human lens which may indicate that they are much more chemically or photochemically active than the original UV filters.

Graphical abstract for C2PP25357GIn this work, Yuri Tsentalovich and colleagues from Russia, Switzerland and The Netherlands investigated the photochemistry and photophysics of neutral aqueous solutions KNY and KNA using time-resolved optical spectroscopy.  Their work has shown that both of these molecules are significantly more photoactive and photostable than the parent UV filter.  These species and their products may react with the protein environment in the lens and could contribute to the development of oxidative stress conditions – a main factor in the development of cataract.

Read this article for free until the 8th February 2013:

Photochemistry of aqueous solutions of kynurenic acid and kynurenine yellow, Ekaterina A. Zelentsova, Peter S. Sherin, Olga A. Snytnikova, Robert Kaptein, Eric Vauthey and Yuri P. Tsentalovich, Photochem. Photobiol. Sci., 2013, DOI: 10.1039/C2PP25357G

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Photodegradation of methyl orange and photoinactivation of bacteria

Scientists from India used visible light activation of persulphate by a ruthenium(II) complex to investigate it’s ability to cause degradation of organic contaminants.

Graphical abstract of C2PP25316JHalan Prakash and colleagues from the Birla Institute of Technology and Science, India, looked at the ability of persulphate to cause degradation of organic contaminants and also its effect on bacteria in aqueous media. The team used methyl orange, a model azo dye, and Gram positive and negative bacteria. Visible light activation of persulphate was achieved using ruthenium(II) polypyridyl complexes, which produced sulphate radicals and led to significant degradation of methyl orange as well as complete inactivation of bacteria.

The authors note that to take this appraoch forward and make it more practical for actual application in the environment, strategies for removal of the ruthenium photosensitizer and its degradation products need to be developed.

Read the full article for free until the 3rd January 2013!

Photodegradation of methyl orange and photoinactivation of bacteria by visible light activation of persulphate using a tris(2,2′-bipyridyl)ruthenium(II) complex, Gokulakrishnan Subramanian, Priyadarshini Parakh and Halan Prakash, Photochem. Photobiol. Sci., 2013, DOI: 10.1039/C2PP25316J

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PPS Issue 10 now available online!

Issue 10 of PPS is now available to read online!

Front cover of Photochemical & Photobiological Sciences, issue 10, 2012The front cover of this issue highlights work by Tia Keyes and colleagues from Dublin City University, Ireland.  The team prepared a series of highly luminescent Ru(II) polypyridyl metallopolymers and studies their photonic and redox properties in solution and in thin films.  The authors found that the polymer backbone had relatively little impact on the spectroscopy or redox properties of polymers compared to the parent complex.

The metallopolymers could form continuous films when drop-cast at an indium tin oxide interface and retained their strong luminescence.  This processability and their intense luminescence makes them potentially useful compounds for sensing and display applications. 

Find out more by reading the full article – free to access for 6 weeks!

Highly luminescent Ru(II) metallopolymers: photonic and redox properties in solution and as thin films, James J. Walsh, Qiang Zeng, Robert J. Forster and Tia E. Keyes, Photochem. Photobiol. Sci., 2012, 11, 1547-1557.

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Extracorporeal photochemotherapy effective in the treatment of severe refractory atopic dermatitis

Graphical abstract: Extracorporeal photochemotherapy as systemic monotherapy of severe, refractory atopic dermatitis: results from a prospective trialA team from Austria and Germany perform a prospective clinical trial on the effect of extracorporeal photochemotherapy in the treatment of atopic dermatitis.

Atopic dermatitis (AD) is a common, chronically relapsing inflammatory skin disease characterised by itchy eczematous skin lesions; the exact pathogenesis of AD remains unclear.  Conventional therapies, including topical corticosteroids or phototherapy is not effective in some patients particularly when the suffer from chronic disease with wide spread skin involvement. 

Extracorporeal photochemotherapy (ECP) in AD is a safe and likely effective treatment first described in 1994.  ECP is a form of phototherapy where blood is exposed outside the body to the photoactivated drug 8-methoxypsoralen (8-MOP) before being returned to the body.  Many retrospective studies have been performed but this is the first prospective study and it confirms that extracorporeal photochemotherapy is effective in severe refractory atopic dermatitis. In particular female and/or erythrodermic patients may favorably respond to the treatment.

Interested in knowing more? Read the article for free until 8th October.

Extracorporeal photochemotherapy as systemic monotherapy of severe, refractory atopic dermatitis: results from a prospective trial
Peter Wolf, Dimitrios Georgas, Nordwig S. Tomi, Christoph M. Schempp and Klaus Hoffmann
Photochem. Photobiol. Sci., 2013, Advance Article

You may also be interested in this review article, also free to access until 8th October.

Photopheresis (extracorporeal photochemotherapy)
Franz Trautinger, Ulrike Just and Robert Knobler
Photochem. Photobiol. Sci., 2012, Advance Article

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Photodermatology – The future is Bright

Nils Ryberg Finsen

Nils Ryberg Finsen (1860–1904) (Courtesy of the Clendening History of Medicine Library, University of Kansas Medical Center

“Real modern phototherapy began with Niels Ryberg Finsen, the father of ultraviolet therapy. In 1896, Finsen, aware of the bacteria-destroying effects of sunlight, developed a “chemical rays” lamp with which he treated a friend who had lupus vulgaris; within a few months the lesions were completely resolved”

This perspective by Herbert Hönigsmann from the Department of Dermatology from the Medical University of Vienna gives a history of phototherapy in dermatology, describing the key developments to date.  He covers the ancient history and describes how over many centuries, treatment with sunlight or “heliotherapy” was used in the treatment of skin diseases.  He then describes the developments made in the 19th century when observations were made that sunlight may be beneficial for medical purposes. 

In 1974 the development of photochemotherapy marked the beginning of a huge upsurge in photodermatology and the subsequent development of high intensity UV sources with defined spectra facilitated a variety of new therapies. Photodynamic therapy, first conceived at the start of the 20th century has developed in to a routine treatment for many diseases including cancer.

The parting words of this article come from a quote from Kendric C. Smith, one of the founding fathers of the American Society for Photobioloty: “Photodermatology – The future is Bright”.

Read the article in full, free to access until 10th August:

History of phototherapy in dermatology, Herbert Hönigsmann
Photochem. Photobiol. Sci., 2012, Advance Article, DOI: 10.1039/C2PP25120E

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