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Tautomeric shifts in DNA

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Tautomeric shifts refer to the temporary rearrangement of chemical structure within a molecule, such as a base in DNA or RNA, by moving a hydrogen atom and switching a single bond and an adjacent double bond. In the context of nucleic acids, this shift can change the bonding structure of the bases (adenine, thymine, cytosine, and guanine in DNA; uracil replaces thymine in RNA), leading to atypical base pairing during DNA replication or RNA transcription. Normally, adenine pairs with thymine (in DNA) or uracil (in RNA) via two hydrogen bonds, forming a stable A-T (or A-U) pair. However, a tautomeric shift in adenine can alter its hydrogen bonding pattern, making it resemble the structure of guanine temporarily. This altered form of adenine can then mistakenly pair with cytosine, which is guanine's normal pairing partner, forming an A-C pair instead of the typical A-T pair. This mispairing is due to the tautomeric form of adenine presenting a hydrogen bonding pattern that complements cytosine. Such tautomeric shifts can lead to mutations if the altered base pairing is replicated in subsequent rounds of DNA replication. The cell has mechanisms to correct many of these errors, but if the tautomeric shift is not recognized and corrected, it can result in a permanent mutation, where an A-T pair is replaced by a G-C pair in the genome. Understanding tautomeric shifts and their implications is crucial in molecular biology and genetics because it helps explain some mechanisms behind spontaneous mutations, which can have significant biological consequences, including the development of diseases. After a tautomeric shift in adenine A) Adenine bonds with thymine B) Adenine bonds with uracil C) Adenine bonds with cytosine D) Adenine is unable to bond with any molecule

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