Surakarn Choofong scite author profile

A systematic protocol to fabricate self-assembly deoxycholate-chitosan nanospheres (DC-CsNS) by c-ray pre-irradiation and chemical modification was studied. Hydrophobic deoxycholic acid moieties were chemically conjugated to pre-irradiated chitosan. The influences of chitosan physical forms (i.e., colloid and flake) during irradiation, radiation doses, and the reaction system (heterogeneous or homogeneous) on the chemical modification and the particle shape and size were investigated. Pre-irradiation of chitosan in colloidal form produced smaller DC-CsNS particle size than that of flake form. In the heterogeneous reaction, the pre-irradiated dose influenced the DC-CsNS particle size, whereas in the homogeneous reaction all pre-irradiation doses gave an identical average size range of 30-50 nm. By pre-irradiation (10 kGy) of chitosan in colloidal form before heterogeneous chemical conjugation, it is possible to obtain DC-CsNS with an average size of 46 nm. DC-CsNS of about 50 nm in size could also be synthesized using homogeneous chemical conjugation onto non-irradiated chitosan with the addition of N-hydroxysuccinimide (NHS).

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Base Release and Modification in Solid-Phase DNA Exposed to Low-Energy Electrons

Choofong

Cloutier

Sanche

et al. 2016

Radiation Research

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Ionization generates a large number of secondary low-energy electrons (LEEs) with a most probable energy of approximately 10 eV, which can break DNA bonds by dissociative electron attachment (DEA) and lead to DNA damage. In this study, we investigated radiation damage to dry DNA induced by X rays (1.5 keV) alone on a glass substrate or X rays combined with extra LEEs (average energy of 5.8 eV) emitted from a tantalum (Ta) substrate under an atmosphere of N and standard ambient conditions of temperature and pressure. The targets included calf-thymus DNA and double-stranded synthetic oligonucleotides. We developed analytical methods to measure the release of non-modified DNA bases from DNA and the formation of several base modifications by LC-MS/MS with isotopic dilution for precise quantification. The results show that the yield of non-modified bases as well as base modifications increase by 20-30% when DNA is deposited on a Ta substrate compared to that on a glass substrate. The order of base release (Gua > Ade > Thy ∼ Cyt) agrees well with several theoretical studies indicating that Gua is the most susceptible site toward sugar-phosphate cleavage. The formation of DNA damage by LEEs is explained by DEA leading to the release of non-modified bases involving the initial cleavage of N1-C1', C3'-O3' or C5'-O5' bonds. The yield of base modifications was lower than the release of non-modified bases. The main LEE-induced base modifications include 5,6-dihydrothymine (5,6-dHT), 5,6-dihydrouracil (5-dHU), 5-hydroxymethyluracil (5-HmU) and 5-formyluracil (5-ForU). The formation of base modifications by LEEs can be explained by DEA and cleavage of the C-H bond of the methyl group of Thy (giving 5-HmU and 5-ForU) and by secondary reactions of H atoms and hydride anions that are generated by primary LEE reactions followed by subsequent reaction with Cyt and Thy (giving 5,6-dHU and 5,6-dHT).

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Surakarn Choofong

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Base Release and Modification in Solid-Phase DNA Exposed to Low-Energy Electrons

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