We show that the non-canonical nucleobase 2,6-diaminopurine (D) spontaneously base pairs with uracil (U) in water and the solid state without the need to be attached to the ribose-phosphate backbone. De- pending on the reaction conditions, D and U assemble in thermodynamically stable hydrated and anhy- drated D-U base-paired cocrystals. Under UV irradiation, an aqueous solution of D-U base-pair undergoes photochemical degradation, while a pure aqueous solution of U does not. Our simulations suggest that D may trigger the U photodimerization and show that complementary base-pairing modifies the photo- chemical properties of nucleobases, which might have implications for prebiotic chemistry.
Base-pairing of uracil and 2,6-diaminopurine: from cocrystals to photoreactivity
Grisanti, Luca
Ultimo
2024
Abstract
We show that the non-canonical nucleobase 2,6-diaminopurine (D) spontaneously base pairs with uracil (U) in water and the solid state without the need to be attached to the ribose-phosphate backbone. De- pending on the reaction conditions, D and U assemble in thermodynamically stable hydrated and anhy- drated D-U base-paired cocrystals. Under UV irradiation, an aqueous solution of D-U base-pair undergoes photochemical degradation, while a pure aqueous solution of U does not. Our simulations suggest that D may trigger the U photodimerization and show that complementary base-pairing modifies the photo- chemical properties of nucleobases, which might have implications for prebiotic chemistry.| File | Dimensione | Formato | |
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