Fig 1 - Archaeal origin translation proofreader imparts multialdehyde stress tolerance to land plants

Fig 1. Aldehydes generate N-alkylated-aa-tRNA adducts TLC showing modification on L-and D-Tyr-tRNA Tyr by A) formaldehyde, acetaldehyde, propionaldehyde, butyraldehyde, valeraldehyde, isovaleraldehyde, decanal and B) MG (AMP: adenine mono phosphate which corresponds to free tRNA; whereas Tyr-AMP and Modified-Tyr-AMP corresponds to unmodified and modified Tyr-tRNA Tyr ). Mass spectra showing C) DPhe-tRNA Phe , D) formaldehyde modified D-Phe-tRNA Phe E) propionaldehyde modified D-Phe-tRNA Phe F) Butyraldehyde modified D-Phe-tRNA Phe G) MG modified D-Phe-tRNA Phe . H) Graph showing the effect of increasing chain length of aldehyde on modification propensity with aa-tRNA at two different concentrations of various aldehydes. Effect of I) formaldehyde, and J) MG modification on stability of ester linkage in D-aa-tRNA under alkaline conditions.

Aldehydes generate N-alkylated-aa-tRNA adducts TLC showing modification on L-and D-Tyr-tRNA Tyr by A) formaldehyde, acetaldehyde, propionaldehyde, butyraldehyde, valeraldehyde, isovaleraldehyde, decanal and B) MG (AMP: adenine mono phosphate which corresponds to free tRNA; whereas Tyr-AMP and Modified-Tyr-AMP corresponds to unmodified and modified Tyr-tRNA Tyr ). Mass spectra showing C) DPhe-tRNA Phe , D) formaldehyde modified D-Phe-tRNA Phe E) propionaldehyde modified D-Phe-tRNA Phe F) Butyraldehyde modified D-Phe-tRNA Phe G) MG modified D-Phe-tRNA Phe . H) Graph showing the effect of increasing chain length of aldehyde on modification propensity with aa-tRNA at two different concentrations of various aldehydes. Effect of I) formaldehyde, and J) MG modification on stability of ester linkage in D-aa-tRNA under alkaline conditions.

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Reference

Archaeal origin translation proofreader imparts multialdehyde stress tolerance to land plants - Scientific Figure on ResearchGate. Available from: https://www.researchgate.net/figure/Aldehydes-generate-N-alkylated-aa-tRNA-adducts-TLC-showing-modification-on-L-and_fig1_375901431 [accessed 3 Jul, 2024]

Caption

Fig 1. Aldehydes generate N-alkylated-aa-tRNA adducts TLC showing modification on L-and D-Tyr-tRNA Tyr by A) formaldehyde, acetaldehyde, propionaldehyde, butyraldehyde, valeraldehyde, isovaleraldehyde, decanal and B) MG (AMP: adenine mono phosphate which corresponds to free tRNA; whereas Tyr-AMP and Modified-Tyr-AMP corresponds to unmodified and modified Tyr-tRNA Tyr ). Mass spectra showing C) DPhe-tRNA Phe , D) formaldehyde modified D-Phe-tRNA Phe E) propionaldehyde modified D-Phe-tRNA Phe F) Butyraldehyde modified D-Phe-tRNA Phe G) MG modified D-Phe-tRNA Phe . H) Graph showing the effect of increasing chain length of aldehyde on modification propensity with aa-tRNA at two different concentrations of various aldehydes. Effect of I) formaldehyde, and J) MG modification on stability of ester linkage in D-aa-tRNA under alkaline conditions.

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<a href="https://www.researchgate.net/figure/Aldehydes-generate-N-alkylated-aa-tRNA-adducts-TLC-showing-modification-on-L-and_fig1_375901431"><img src="https://www.researchgate.net/publication/375901431/figure/fig1/AS:11431281240733093@1714748550554/Aldehydes-generate-N-alkylated-aa-tRNA-adducts-TLC-showing-modification-on-L-and.jpg" alt="Aldehydes generate N-alkylated-aa-tRNA adducts TLC showing modification on L-and D-Tyr-tRNA Tyr by A) formaldehyde, acetaldehyde, propionaldehyde, butyraldehyde, valeraldehyde, isovaleraldehyde, decanal and B) MG (AMP: adenine mono phosphate which corresponds to free tRNA; whereas Tyr-AMP and Modified-Tyr-AMP corresponds to unmodified and modified Tyr-tRNA Tyr ). Mass spectra showing C) DPhe-tRNA Phe , D) formaldehyde modified D-Phe-tRNA Phe E) propionaldehyde modified D-Phe-tRNA Phe F) Butyraldehyde modified D-Phe-tRNA Phe G) MG modified D-Phe-tRNA Phe . H) Graph showing the effect of increasing chain length of aldehyde on modification propensity with aa-tRNA at two different concentrations of various aldehydes. Effect of I) formaldehyde, and J) MG modification on stability of ester linkage in D-aa-tRNA under alkaline conditions."/></a>