EF-P and its paralog EfpL (YeiP) differentially control translation of proline-containing sequences

Sieber, Alina; Parr, Marina; von Ehr, Julian; Dhamotharan, Karthikeyan; Kielkowski, Pavel; Brewer, Tess; Schäpers, Anna; Krafczyk, Ralph; Qi, Fei; Schlundt, Andreas; Frishman, Dmitrij; Lassak, Jürgen

doi:10.1101/2024.04.15.589488

Cited by 2 publications

References 108 publications

(193 reference statements)

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Resolution of ribosomal stalling by EF-P and ABCF ATPases YfmR and YkpA/YbiT

Takada,

Fujiwara,

Atkinson

et al. 2024

Nucleic Acids Research

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Efficiency of protein synthesis on the ribosome is strongly affected by the amino acid composition of the assembled amino acid chain. Challenging sequences include proline-rich motifs as well as highly positively and negatively charged amino acid stretches. Members of the F subfamily of ABC ATPases (ABCFs) have been long hypothesised to promote translation of such problematic motifs. In this study we have applied genetics and reporter-based assays to characterise the four housekeeping ABCF ATPases of Bacillus subtilis: YdiF, YfmM, YfmR/Uup and YkpA/YbiT. We show that YfmR cooperates with the translation factor EF-P that promotes translation of Pro-rich motifs. Simultaneous loss of both YfmR and EF-P results in a dramatic growth defect. Surprisingly, this growth defect can be largely suppressed though overexpression of an EF-P variant lacking the otherwise crucial 5-amino-pentanolylated residue K32. Using in vivo reporter assays, we show that overexpression of YfmR can alleviate ribosomal stalling on Asp-Pro motifs. Finally, we demonstrate that YkpA/YbiT promotes translation of positively and negatively charged motifs but is inactive in resolving ribosomal stalls on proline-rich stretches. Collectively, our results provide insights into the function of ABCF translation factors in modulating protein synthesis in B. subtilis.

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Resolution of ribosomal stalling by EF-P and ABCF ATPases YfmR and YkpA/YbiT

Takada,

Fujiwara,

Atkinson

et al. 2024

Nucleic Acids Research

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A versatile dual reporter to identify ribosome pausing motifs alleviated by translation elongation factor P

Tomasiunaite,

Brewer,

Burdack

et al. 2024

Preprint

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Protein synthesis is influenced by the chemical and structural properties of the amino acids incorporated into the polypeptide chain. Motifs with consecutive prolines can slow down translation speed and cause ribosome stalling. Translation elongation factor P (EF-P) facilitates peptide bond formation in these motifs, thereby alleviating stalled ribosomes and restoring regular translational speed. Ribosome pausing at various polyproline motifs has been intensively studied using a range of sophisticated techniques, including ribosome profiling, proteomics, andin vivoscreenings with reporters incorporated into the chromosome. However, the full spectrum of motifs which cause translational pausing inEscherichia colihas not yet been identified. Here we describe a plasmid-based dual reporter for rapid assessment of pausing motifs. This reporter contains two coupled genes encoding mScarlet-I and chloramphenicol acetyltransferase to screen motif libraries based on both bacterial fluorescence and survival. In combination with a diprolyl motif library, we use this reporter to reveal motifs of different pausing strengths in anE. colistrain lackingefp.Subsequently, we use the reporter for a high-throughput screen of four motif libraries, with and without prolines at different positions, sorted by fluorescence-associated cell sorting (FACS) and identify new motifs that influence translational efficiency of the fluorophore. Our study provides anin vivoplatform for rapid screening of amino acid motifs that affect translational efficiencies.

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EF-P and its paralog EfpL (YeiP) differentially control translation of proline-containing sequences

Cited by 2 publications

References 108 publications

Resolution of ribosomal stalling by EF-P and ABCF ATPases YfmR and YkpA/YbiT

Resolution of ribosomal stalling by EF-P and ABCF ATPases YfmR and YkpA/YbiT

A versatile dual reporter to identify ribosome pausing motifs alleviated by translation elongation factor P

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