| P2093 | author name string | Yanan Chen | |
| | Jian-Quan Ni | |
| | Tianhui Sun | |
| | Babak Javid | |
| | Jose C Pastor-Pareja | |
| | Zhuo Bi | |
| P2860 | cites work | The maintenance of the accuracy of protein synthesis and its relevance to ageing | Q24569642 |
| | Comparison of the consensus sequence flanking translational start sites in Drosophila and vertebrates | Q24629553 |
| | Nonsense-mediated mRNA decay in Drosophila: at the intersection of the yeast and mammalian pathways | Q24671607 |
| | Nonsense-Mediated mRNA Decay: Degradation of Defective Transcripts Is Only Part of the Story | Q28082699 |
| | A yeast prion provides a mechanism for genetic variation and phenotypic diversity | Q28140932 |
| | Molecular mechanism for distinct neurological phenotypes conveyed by allelic truncating mutations | Q28248837 |
| | Ribosome-mediated specificity in Hox mRNA translation and vertebrate tissue patterning | Q28591034 |
| | Ribosome profiling reveals pervasive and regulated stop codon readthrough in Drosophila melanogaster | Q28661445 |
| | How to design a genetic mating scheme: a basic training package for Drosophila genetics | Q28709196 |
| | A systematic survey of loss-of-function variants in human protein-coding genes | Q29615756 |
| | Engineered luciferase reporter from a deep sea shrimp utilizing a novel imidazopyrazinone substrate | Q30420372 |
| | Impact of nonsense-mediated mRNA decay on the global expression profile of budding yeast | Q33266434 |
| | The maintenance of the accuracy of protein synthesis and its relevance to ageing: a correction | Q33709125 |
| | Visualizing high error levels during gene expression in living bacterial cells. | Q33952911 |
| | Programmed translational readthrough generates antiangiogenic VEGF-Ax | Q33959462 |
| | Evidence of efficient stop codon readthrough in four mammalian genes | Q34044340 |
| | Prions are a common mechanism for phenotypic inheritance in wild yeasts. | Q34254667 |
| | RNA function. Ribosome stalling induced by mutation of a CNS-specific tRNA causes neurodegeneration. | Q34430773 |
| | Olfactory receptor pseudo-pseudogenes | Q34543334 |
| | Quality control of eukaryotic mRNA: safeguarding cells from abnormal mRNA function | Q34658630 |
| | Drosophila Upf1 and Upf2 loss of function inhibits cell growth and causes animal death in a Upf3-independent manner | Q34706676 |
| | Vector and parameters for targeted transgenic RNA interference in Drosophila melanogaster | Q34726213 |
| | Identification of a microRNA that activates gene expression by repressing nonsense-mediated RNA decay | Q35067929 |
| | Development of a tissue-specific ribosome profiling approach in Drosophila enables genome-wide evaluation of translational adaptations. | Q46169318 |
| | The ecdysone-induced DHR4 orphan nuclear receptor coordinates growth and maturation in Drosophila | Q46527634 |
| | Upf proteins: highly conserved factors involved in nonsense mRNA mediated decay | Q47250656 |
| | Translation fidelity in the aging mammal: studies with an accurate in vitro system on aged rats | Q48526294 |
| | Evaluation of potential reference genes for reverse transcription-qPCR studies of physiological responses in Drosophila melanogaster. | Q52717746 |
| | A meta-analysis of nonsense mutations causing human genetic disease. | Q53037787 |
| | Nonsense-mediated RNA decay in the brain: emerging modulator of neural development and disease | Q58586716 |
| | Cell-Type-Specific Profiling of Alternative Translation Identifies Regulated Protein Isoform Variation in the Mouse Brain | Q64230481 |
| | Stop-codon read-through arises largely from molecular errors and is generally nonadaptive | Q92240528 |
| | The frequency of translational misreading errors in E. coli is largely determined by tRNA competition. | Q35230528 |
| | Evidence of abundant stop codon readthrough in Drosophila and other metazoa | Q35581562 |
| | Plasma membrane overgrowth causes fibrotic collagen accumulation and immune activation in Drosophila adipocytes | Q35813551 |
| | Using translational enhancers to increase transgene expression in Drosophila | Q35921948 |
| | The elongation, termination, and recycling phases of translation in eukaryotes | Q36065893 |
| | Adaptation of A-to-I RNA editing in Drosophila. | Q36304182 |
| | Exploiting position effects and the gypsy retrovirus insulator to engineer precisely expressed transgenes | Q36580731 |
| | Measurement of lifespan in Drosophila melanogaster | Q36639173 |
| | Rules that govern UPF1 binding to mRNA 3' UTRs | Q36653765 |
| | Identification of hundreds of novel UPF1 target transcripts by direct determination of whole transcriptome stability | Q36684609 |
| | Regulated translational bypass of stop codons in yeast. | Q36691978 |
| | Quality control despite mistranslation caused by an ambiguous genetic code | Q36954870 |
| | Candida albicans CUG mistranslation is a mechanism to create cell surface variation. | Q36971619 |
| | Long 3'-UTRs target wild-type mRNAs for nonsense-mediated mRNA decay in Saccharomyces cerevisiae. | Q37199538 |
| | Global analyses of UPF1 binding and function reveal expanded scope of nonsense-mediated mRNA decay | Q37207905 |
| | Alternative splicing resulting in nonsense-mediated mRNA decay: what is the meaning of nonsense? | Q37214130 |
| | Mistranslation-induced protein misfolding as a dominant constraint on coding-sequence evolution. | Q37227320 |
| | The evolutionary consequences of erroneous protein synthesis. | Q37393307 |
| | Innate immune and chemically triggered oxidative stress modifies translational fidelity. | Q37448835 |
| | Translational plasticity facilitates the accumulation of nonsense genetic variants in the human population | Q37461564 |
| | Mycobacterial mistranslation is necessary and sufficient for rifampicin phenotypic resistance | Q37519599 |
| | Cutting the nonsense: the degradation of PTC-containing mRNAs | Q37813770 |
| | Non-canonical translation in RNA viruses | Q38005664 |
| | Protein mistranslation: friend or foe? | Q38229416 |
| | Posttranscriptional control of the stem cell and neurogenic programs by the nonsense-mediated RNA decay pathway | Q38391768 |
| | Translating the genome in time and space: specialized ribosomes, RNA regulons, and RNA-binding proteins | Q38600854 |
| | The RNA Surveillance Factor UPF1 Represses Myogenesis via Its E3 Ubiquitin Ligase Activity | Q38697750 |
| | Structural basis for stop codon recognition in eukaryotes | Q38977358 |
| | Upf1 senses 3'UTR length to potentiate mRNA decay | Q39638722 |
| | Ageing of Clones of Mammalian Cells | Q39936744 |
| | The essential mycobacterial amidotransferase GatCAB is a modulator of specific translational fidelity. | Q40483822 |
| | A novel stop codon readthrough mechanism produces functional Headcase protein in Drosophila trachea | Q40791179 |
| | Translation readthrough mitigation. | Q41366279 |
| | Translation fidelity coevolves with longevity | Q41628879 |
| | Temperature dependent mistranslation in a hyperthermophile adapts proteins to lower temperatures | Q41782761 |
| | Regulation of axon guidance by compartmentalized nonsense-mediated mRNA decay | Q42161897 |
| | A faux 3'-UTR promotes aberrant termination and triggers nonsense-mediated mRNA decay | Q45138843 |
| P433 | issue | 1 | |
| P304 | page(s) | 8485 | |
| P577 | publication date | 2020-05-22 | |
| P1433 | published in | Scientific Reports | Q2261792 |
| P1476 | title | Premature termination codon readthrough in Drosophila varies in a developmental and tissue-specific manner | |
| P478 | volume | 10 | |