Oxidation of 2‘-Deoxyguanosine 5‘-Monophosphate Photoinduced by Pterin:  Type I versus Type II Mechanism

Petroselli, Gabriela; Dántola, M. Laura; Cabrerizo, Franco M.; Capparelli, Alberto L.; Lorente, Carolina; Oliveros, Esther; Thomas, Andrés H.

doi:10.1021/ja075367j

Cited by 83 publications

(106 citation statements)

References 54 publications

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“…More recently, the mechanism involved in the photosensitization of biomolecules by pterins were investigated in a series of studies carried out with free nucleotides [28][29][30] and amino acids [12][13][14]. It was shown that pterins can act as photosensitizers through both type I and type II mechanisms and that the predominant one depends on a combination of many factors, such as quantum yields of Taking into account the studies mentioned in the previous paragraph, a set of competitive mechanisms can be summarized to explain the photooxidation of different biomolecules (S) by pterin derivatives (Pt) (reactions [1][2][3][4][5][6][7][8][9][10][11][12] …”

Section: General Mechanism Of Photooxidation Of Biomolecules By Pterinsmentioning

confidence: 99%

Photosensitization of peptides and proteins by pterin derivatives

et al. 2017

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Proteins are one of the preferential targets of the photosensitized damaging effects of ultraviolet (UV) radiation on biological system. Pterins belong to a family of heterocyclic compounds, which are widespread in living systems and participate in relevant biological functions. In pathological conditions, such as vitiligo, oxidized pterins accumulate in the white skin patches of patients suffering this depigmentation disorder. It is known that pterins are able to photosensitize damage in nucleotides and DNA by type I (electron transfer) and type II (singlet oxygen) mechanisms. Recently, it has been demonstrated that proteins and its components may also be damaged when solutions containing both proteins and pterin are exposed to UV-A radiation. Therefore, given the biological and medical relevance of the photosensitizing properties of these molecules, we present in this article an overview of the capability of different pterin derivatives to photoinduce damage in proteins present in the skin, focusing our attention on the chemical modifications of tyrosine and tryptophan residues.

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Section: General Mechanism Of Photooxidation Of Biomolecules By Pterinsmentioning

confidence: 99%

Photosensitization of peptides and proteins by pterin derivatives

et al. 2017

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“…In the presence of oxygen, pterin (Ptr) [14], the parent and unsubstituted compound of oxidized pterins, acts as a photosensitizer through both type I (electron transfer or hydrogen abstraction) [15] and type II (production of 1 O 2 ) [16] mechanisms. Moreover, Ptr photoinduces DNA damage and the oxidation of purine nucleotides [17][18][19][20]. Therefore, taking into account the accumulation of pterins in the human skin under pathological conditions described in the previous paragraph, the photochemistry and, especially their photosensitizing properties of these compounds are of particular interest for the study of skin disease.…”

Section: Introductionmentioning

confidence: 99%

Chemical changes in bovine serum albumin photoinduced by pterin

Thomas

Zurbano

Lorente

et al. 2014

Journal of Photochemistry and Photobiology B: Biology

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“…Under UV-A irradiation, the excited pterins may undergo photooxidation besides fluorescence emission. Pterins, chiefly 6-carboxy pterin, have been shown to photosensitize DNA damage by both type I (electron transfer) and type II (singlet oxygen) mechanisms (19)(20)(21)(22). Despite their important contribution, the electronic and geometrical features of related low-lying states as well as the explicit mechanism of photochemistry and photophysics of pterins are still unclear.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Study on the Relative Energies of Neutral Pterin Tautomers

Soniat

Martin

2008

Pteridines

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Current literature lists the lactam and lactim tautomers as the only major contributors to aqueous pterin structures. Density functional theory calculations were used to determine whether there are other significant neutral tautomers of pterin participating in photochemical and biological systems other than the lactam and lactim forms in aqueous media. Calculations showed that the lactam tautomer is the lowest energy structure while the lactim structure is higher in energy than expected (∼6 kcal/mol) compared to the lactam structure. Three other neutral pterin structures were calculated to be less than ∼4 kcal/mol above the most stable lactam and therefore should also be considered as structures which possibly play an important role in chemical and biological pterin systems.

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Oxidation of 2‘-Deoxyguanosine 5‘-Monophosphate Photoinduced by Pterin: Type I versus Type II Mechanism

Cited by 83 publications

References 54 publications

Photosensitization of peptides and proteins by pterin derivatives

Photosensitization of peptides and proteins by pterin derivatives

Chemical changes in bovine serum albumin photoinduced by pterin

Theoretical Study on the Relative Energies of Neutral Pterin Tautomers

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