Abstract
Ionising radiation (IR) is known to induce a wide variety of lesions in DNA. In this review, we compared three different techniques that examined the DNA sequence preference of IR-induced DNA damage at nucleotide resolution. These three techniques were: the linear amplification/polymerase stop assay, the end-labelling procedure, and Illumina next-generation genome-wide sequencing. The DNA sequence preference of IR-induced DNA damage was compared in purified DNA sequences including human genomic DNA. It was found that the DNA sequence preference of IR-induced DNA damage identified by the end-labelling procedure (that mainly detected single-strand breaks) and Illumina next-generation genome-wide sequencing (that mainly detected double-strand breaks) was at C nucleotides, while the linear amplification/polymerase stop assay (that mainly detected base damage) was at G nucleotides. A consensus sequence at the IR-induced DNA damage was found to be 5′-AGGC*C for the end-labelling technique, 5′-GGC*MH (where * is the cleavage site, M is A or C, H is any nucleotide except G) for the genome-wide technique, and 5′-GG* for the linear amplification/polymerase stop procedure. These three different approaches are important because they provide a deeper insight into the mechanism of action of IR-induced DNA damage.
Highlights
An expanded DNA sequence preference was determined, and the analysis extended for ten nucleotides on either side of the DNA damage site
DNA utilised for the genome-wide experiments was more complex than the plasmid DNA used for the end-labelling and linear amplification/polymerase stop (LA/PS) experiments, and a slightly higher radiation dose was required to achieve optimal results
The similarity of the results with the genome-wide and the end-labelling techniques implied that a similar mechanism was operating for the production of Ionising radiation (IR)-induced double-strand breaks (DSBs) and single-strand breaks (SSBs), with hydroxyl radicals reacting with deoxyribose sugars in the minor groove of DNA to give rise to strand breakage
Summary
There are a large number of different DNA lesions produced by IR These include: double-strand breaks (DSBs), single-strand breaks (SSBs), abasic (apurinic/apyrimidinic) sites, intramolecular crosslinks, oxidised bases and sugars, and protein–DNA crosslinks [6,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23]. It is likely that IR induces several hundred different lesions in DNA [12,20]
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