Guanine photochemistry

The photochemistry of the polynucleotides has been elucidated primarily by studies of the photochemical behavior of the individual pyrimidine and purine bases (the ribose and phosphate groups would not be expected to undergo photochemical reactions in this wavelength range). These studies have shown the pyrimidines (cytosine and thymine) to be roughly ten times more sensitive to UV than the purines (adenine and guanine.) Thus we would expect most of the photochemistry of the nucleic acids to result from the action of light on the pyrimidines. 

A number of studies on photochemistry of the nucleic acid bases in aqueous solutions demonstrated that while uracil undergoes reversible hydration under exposure to UV irradiation, the other bases (thymine, adenine, and guanine) were stable [41,42], However, the sensitivity of dissolved thymine to UV irradiation can be significantly increased if the solution is rapidly frozen [43]. In 1960 the thymine photoproduct was isolated from irradiated frozen aqueous solution of thymine. Elemental analysis, molecular weight measurements, powder X-ray diffraction, NMR and IR spectroscopy confirmed that the most likely photoproduct is a thymine dimer [20]. Similar photoproduct was obtained by hydrolysis of irradiated DNA. Its formation was attributed to reaction between two adjacent thymine groups on the same DNA chain [44], Independently an identical compound was isolated from DNA of UV-irradiated bacteria [45]. 

Very few reports of the excited-state structural dynamics of the purine nucleobases have appeared in the literature. This lack of research effort is probably due to a number of factors. The primary factor is the lack of photochemistry seen in the purines. Although adenine can form photoadducts with thymine, and this accounts for 0.2% of the photolesions found upon UVC irradiation of DNA [67], the purines appear to be relatively robust to UV irradiation. This lack of photoreactivity is probably due to the aromatic nature of the purine nucleobases. A practical issue with the purine nucleobases is their insolubility in water. While adenine enjoys reasonable solubility, it is almost an order of magnitude lower than that of thymine and uracil, the two most soluble nucleobases [143], Guanine is almost completely insoluble in water at room temperature [143],... 

Atherton, S. J., and Harriman, A. (1993). Photochemistry of intercalated methylene blue photoinduced hydrogen atom abstraction from guanine and adenine. /. Am. Chem. Soc. 115 1816-1822. 

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