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Cryo-EM structure of a 40 kDa SAM-IV riboswitch RNA at 3.7?A resolution.


ABSTRACT: Specimens below 50?kDa have generally been considered too small to be analyzed by single-particle cryo-electron microscopy (cryo-EM). The high flexibility of pure RNAs makes it difficult to obtain high-resolution structures by cryo-EM. In bacteria, riboswitches regulate sulfur metabolism through binding to the S-adenosylmethionine (SAM) ligand and offer compelling targets for new antibiotics. SAM-I, SAM-I/IV, and SAM-IV are the three most commonly found SAM riboswitches, but the structure of SAM-IV is still unknown. Here, we report the structures of apo and SAM-bound SAM-IV riboswitches (119-nt, ~40?kDa) to 3.7?Å and 4.1?Å resolution, respectively, using cryo-EM. The structures illustrate homologies in the ligand-binding core but distinct peripheral tertiary contacts in SAM-IV compared to SAM-I and SAM-I/IV. Our results demonstrate the feasibility of resolving small RNAs with enough detail to enable detection of their ligand-binding pockets and suggest that cryo-EM could play a role in structure-assisted drug design for RNA.

SUBMITTER: Zhang K 

PROVIDER: S-EPMC6890682 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Cryo-EM structure of a 40 kDa SAM-IV riboswitch RNA at 3.7 Å resolution.

Zhang Kaiming K   Li Shanshan S   Kappel Kalli K   Pintilie Grigore G   Su Zhaoming Z   Mou Tung-Chung TC   Schmid Michael F MF   Das Rhiju R   Chiu Wah W  

Nature communications 20191203 1


Specimens below 50 kDa have generally been considered too small to be analyzed by single-particle cryo-electron microscopy (cryo-EM). The high flexibility of pure RNAs makes it difficult to obtain high-resolution structures by cryo-EM. In bacteria, riboswitches regulate sulfur metabolism through binding to the S-adenosylmethionine (SAM) ligand and offer compelling targets for new antibiotics. SAM-I, SAM-I/IV, and SAM-IV are the three most commonly found SAM riboswitches, but the structure of SAM  ...[more]

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