Stephen R. Lynch scite author profile

N6-Methyladenosine (m6A) modification is hypothesized to control processes such as RNA degradation, localization, and splicing. However, the molecular mechanisms by which this occurs are unclear. Here, we measured structures of an RNA duplex containing m6A in the GGACU consensus, along with an unmodified RNA control, by 2D NMR. The data show that m6A–U pairing in the double-stranded context is accompanied by the methylamino group rotating from its energetically preferred syn geometry on the Watson–Crick face to the higher-energy anti conformation, positioning the methyl group in the major groove. Thermodynamic measurements of m6A in duplexes reveal that it is destabilizing by 0.5–1.7 kcal/mol. In contrast, we show that m6A in unpaired positions base stacks considerably more strongly than the unmodified base, adding substantial stabilization in single-stranded locations. Transcriptome-wide nuclease mapping of methylated RNA secondary structure from human cells reveals a structural transition at methylated adenosines, with a tendency to single-stranded structure adjacent to the modified base.

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A Four-Base Paired Genetic Helix with Expanded Size

Gao

Lynch

et al. 2003

Science

227

176

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We describe a new molecular class of genetic-pairing system that has a native DNA backbone but has all four base pairs replaced by new, larger pairs. The base pairs include size-expanded analogs of thymine and of adenine, both extended by the width of a benzene ring (2.4 A). The expanded-diameter double helices are more thermodynamically stable than the Watson-Crick helix, likely because of enhanced base stacking. Structural data confirm a right-handed, double-stranded, and base-paired helical form. Because of the larger base size, all the pairs of this helical system are fluorescent, which suggests practical applications in detection of natural DNA and RNA. Our findings establish that there is no apparent structural or thermodynamic prohibition against genetic systems having sizes different from the natural one.

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Solution Structure of xDNA: A Paired Genetic Helix with Increased Diameter

2004

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We describe the structure in aqueous solution of an extended-size DNA-like duplex with base pairs that are approximately 2.4 A longer than those of DNA. Deoxy-lin-benzoadenosine (dxA) was employed as a dA analogue to form hydrogen-bonded base pairs with dT. The 10mer self-complementary extended oligodeoxynucleotide 5'-d(xATxAxATxATTxAT) forms a much more thermodynamically stable duplex than the corresponding DNA sequence, 5'-d(ATAATATTAT). NMR studies show that this extended DNA (xDNA) retains many features of natural B-form DNA, but with a few structural alterations due to its increased helical diameter. The results give insight into the structural plasticity of the natural DNA backbone and lend insight into the evolutionary origins of the natural base pairs. Finally, this structural study confirms the hypothesis that extended nucleobase analogues can form stable DNA-like structures, suggesting that alternative genetic systems might be viable for storage and transfer of genetic information.

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Structural origins of aminoglycoside specificity for prokaryotic ribosomes

Lynch

Puglisi

2001

Journal of Molecular Biology

138

107

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Stephen R. Lynch

Structure and Thermodynamics of N⁶-Methyladenosine in RNA: A Spring-Loaded Base Modification

A Four-Base Paired Genetic Helix with Expanded Size

Solution Structure of xDNA: A Paired Genetic Helix with Increased Diameter

Structural origins of aminoglycoside specificity for prokaryotic ribosomes

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About

Stephen R. Lynch

Structure and Thermodynamics of N6-Methyladenosine in RNA: A Spring-Loaded Base Modification

A Four-Base Paired Genetic Helix with Expanded Size

Solution Structure of xDNA: A Paired Genetic Helix with Increased Diameter

Structural origins of aminoglycoside specificity for prokaryotic ribosomes

Contact Info

Product

Resources

About

Structure and Thermodynamics of N⁶-Methyladenosine in RNA: A Spring-Loaded Base Modification