Adaptation of the romanomermis culicivorax cca-adding enzyme to miniaturized armless trna substrates

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Abstract

The mitochondrial genome of the nematode Romanomermis culicivorax encodes for miniaturized hairpin-like tRNA molecules that lack D-as well as T-arms, strongly deviating from the consensus cloverleaf. The single tRNA nucleotidyltransferase of this organism is fully active on armless tRNAs, while the human counterpart is not able to add a complete CCA-end. Transplanting single regions of the Romanomermis enzyme into the human counterpart, we identified a beta-turn element of the catalytic core that—when inserted into the human enzyme—confers full CCA-adding activity on armless tRNAs. This region, originally identified to position the 3′-end of the tRNA primer in the catalytic core, dramatically increases the enzyme’s substrate affinity. While conventional tRNA substrates bind to the enzyme by interactions with the T-arm, this is not possible in the case of armless tRNAs, and the strong contribution of the beta-turn compensates for an otherwise too weak interaction required for the addition of a complete CCA-terminus. This compensation demonstrates the remarkable evolutionary plasticity of the catalytic core elements of this enzyme to adapt to unconventional tRNA substrates.

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Hennig, O., Philipp, S., Bonin, S., Rollet, K., Kolberg, T., Jühling, T., … Mörl, M. (2020). Adaptation of the romanomermis culicivorax cca-adding enzyme to miniaturized armless trna substrates. International Journal of Molecular Sciences, 21(23), 1–19. https://doi.org/10.3390/ijms21239047

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