Numbers above panels refer to minutes right after tetracycline-mediated transcriptional shutoff of : Différence entre versions

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Lower and upper dotted lines represent half-life values for wild-type UPF1 (Upf1-wt) and no add-back (None) circumstances Rocaglamide A biological activity respectively. b39 mRNA half-lives (t1/2) have been calculated following normalization of levels of b39 mRNA to levels of constitutively transcribed b-globin APDH fusion mRNA (bWT-GAP) and are provided as averages .e.m. from three independent experiments. Numbers on the correct refer to RNA lengths in nucleotides (nts) excluding polyA-tails. (c) Graph showing half-lives calculated from experiments presented in b. Reduce and upper dotted lines represent half-life values for wild-type UPF1 (Upf1-wt) and no add-back (None) circumstances respectively. Error bars represent s.e.m. from 3 independent experiments. P values were calculated relative to Upf1-wt circumstances making use of the paired two-tailed Student's t-test; *Po0.05 and **Po0.01.NATURE COMMUNICATIONS | 7:12434 | DOI: ten.1038/ncomms12434 | www.nature.com/naturecommunicationsARTICLEalanine substitutions at positions 17 and 18 caused a rise within the half-life on the b39 mRNA (UPF1 [S/T]17,18A) as compared with that observed with wild-type UPF1 (UPF1-wt; Fig.Numbers above panels refer to minutes just after tetracycline-mediated transcriptional shutoff of b39 mRNA (chase). b39 mRNA half-lives (t1/2) were calculated just after normalization of levels of b39 mRNA to levels of constitutively transcribed b-globin APDH fusion mRNA (bWT-GAP) and are provided as averages .e.m. from three independent experiments. Numbers on the correct refer to RNA lengths in nucleotides (nts) excluding polyA-tails. (c) Graph showing half-lives calculated from experiments presented in b. Reduce and upper dotted lines represent half-life values for wild-type UPF1 (Upf1-wt) and no add-back (None) circumstances respectively. Error bars represent s.e.m. from 3 independent experiments. P values were calculated relative to Upf1-wt situations working with the paired two-tailed Student's t-test; *Po0.05 and **Po0.01.NATURE COMMUNICATIONS | 7:12434 | DOI: ten.1038/ncomms12434 | www.nature.com/naturecommunicationsARTICLEalanine substitutions at positions 17 and 18 triggered an increase in the half-life with the b39 mRNA (UPF1 [S/T]17,18A) as compared with that observed with wild-type UPF1 (UPF1-wt; Fig. 4b; quantified in Fig. 4c). Nonetheless, this mutant UPF1 protein was only partially impaired in NMD, supporting degradation of b39 mRNA at a drastically faster rate than that observed within the absence of UPF1 add-back (None), or inside the presence of UPF1 C126S, a mutant UPF1 protein that fails to fpsyg.2017.00209 interact with UPF2 (refs 10,47). No defect in NMD activity was observed for the UPF1 [S/T]1,2A, [S/T]15,16A or [S/T]7,eight,19A mutants, which was surprising because phosphorylation at residues T28 (right here referred to as position 2), S1078 (position 16) and S1116 (position 19) have previously been shown to assistance interaction with SMG6 (T28), SMG7 (S1078) and SMG5 (S1116)10,17,22,33. Strikingly, combining alanine substitutions that on their own had small or no effect on UPF1 activity, resulted in decreased activity of UPF1 as observed by the increase in b39 mRNA half-lives as [S/T]Q to AQ substitutions were combined, culminating in absolutely inactivated UPF1 (Fig.