The Molecular Perspective: Ultraviolet Light and Pyrimidine Dimers [PDF]
STEM CELLS, 2001 we go about our daily activities. Whenever we walk in the sun, ultraviolet light (UV) attacks our DNA, making chemical changes that corrupt our genetic information. Fortunately, the most dangerous UV light never reaches us at all: the ozone in the upper atmosphere absorbs (at least for now) the energetic UVC wavelengths.
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The RAD7 and RAD16 genes, which are essential for pyrimidine dimer removal from the silent mating type loci, are also required for repair of the nontranscribed strand of an active gene in Saccharomyces cerevisiae. [PDF]
, 1994 Richard A. Verhage +6 more
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Wavelength-dependent ultraviolet induction of cyclobutane pyrimidine dimers in the human cornea [PDF]
, 2013 Justin D. Mallet, Patrick J. Rochette
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Molecular Mechanisms of Pyrimidine Dimer Excision in Saccharomyces cerevisiae : Incision of Ultraviolet-Irradiated Deoxyribonucleic Acid In Vivo [PDF]
, 1981 Richard Reynolds, Errol C. Friedberg
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Removal of cyclobutane pyrimidine dimers by the UV damage repair and nucleotide excision repair pathways of Schizosaccharomyces pombe at nucleotide resolution [PDF]
, 1999 Marcel Lombaerts
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Elevated pyrimidine dimer formation at distinct genomic bases underlie promoter mutation hotspots in UV-exposed cancers [PDF]
, 2018 Kerryn Elliott +7 more
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Preincision Processing of Cyclobutane Pyrimidine Dimers in Escherichia coli
, 2008 Sunirmal Paul +4 more
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A Study on Yeast Using the Photoreactivation Process to Repair the Pyrimidine Dimer Mutations
, 2023 Yichen Liu
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All You Need Is Light. Photorepair of UV-Induced Pyrimidine Dimers [PDF]
, 2020 Agnieszka Katarzyna Banaś +5 more
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