PDB 6doz citation summary ‹ Protein Data Bank in Europe (PDBe) ‹ EMBL-EBI

Cation trafficking propels RNA hydrolysis.

Samara NL, Yang W

Nat Struct Mol Biol 25 715-721 (2018)

Related entries: 6dmn, 6dmv, 6do8, 6do9, 6doa, 6dob, 6doc, 6dod, 6doe, 6dof, 6dog, 6doh, 6doi, 6doj, 6dok, 6dol, 6dom, 6don, 6doo, 6dop, 6doq, 6dor, 6dos, 6dot, 6dou, 6dov, 6dow, 6dox, 6doy, 6dp0, 6dp1, 6dp2, 6dp3, 6dp4, 6dp5, 6dp6, 6dp7, 6dp8, 6dp9, 6dpa, 6dpb, 6dpc, 6dpd, 6dpe, 6dpf, 6dpg, 6dph, 6dpi, 6dpj, 6dpk, 6dpl, 6dpm, 6dpn, 6dpo, 6dpp

Cited: 28 times

PMID: 30076410

10.1038/s41594-018-0099-4

Abstract

Catalysis by members of the RNase H superfamily of enzymes is generally believed to require only two Mg₂₊ ions that are coordinated by active-site carboxylates. By examining the catalytic process of Bacillus halodurans RNase H1 in crystallo, however, we found that the two canonical Mg₂₊ ions and an additional K₊ failed to align the nucleophilic water for RNA cleavage. Substrate alignment and product formation required a second K₊ and a third Mg₂₊, which replaced the first K₊ and departed immediately after cleavage. A third transient Mg₂₊ has also been observed for DNA synthesis, but in that case it coordinates the leaving group instead of the nucleophile as in the case of the RNase H1 hydrolysis reaction. These transient cations have no contact with the enzymes. Other DNA and RNA enzymes that catalyze consecutive cleavage and strand-transfer reactions in a single active site may similarly require cation trafficking coordinated by the substrate.

Articles - 6doz mentioned but not cited (1)

Cation trafficking propels RNA hydrolysis. Samara NL, Yang W. Nat Struct Mol Biol 25 715-721 (2018)

Reviews citing this publication (5)

Catalytic mechanism of DNA polymerases-Two metal ions or three? Tsai MD. Protein Sci 28 288-291 (2019)
Nucleotide addition and cleavage by RNA polymerase II: Coordination of two catalytic reactions using a single active site. Unarta IC, Goonetilleke EC, Wang D, Huang X. J Biol Chem 299 102844 (2023)
The life and death of RNA across temperatures. Becskei A, Rahaman S. Comput Struct Biotechnol J 20 4325-4336 (2022)
Not making the cut: Techniques to prevent RNA cleavage in structural studies of RNase-RNA complexes. Jones SP, Goossen C, Lewis SD, Delaney AM, Gleghorn ML. J Struct Biol X 6 100066 (2022)
The catalytic mechanism, metal dependence, substrate specificity, and biodiversity of ribonuclease H. Pang J, Guo Q, Lu Z. Front Microbiol 13 1034811 (2022)

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