| P50 | author | Matthias Hentze | Q99354 |
| | Niels H Gehring | Q41632975 |
| | Andreas E Kulozik | Q89170845 |
| P2093 | author name string | Nicole Echner | |
| | Stephen Breit | |
| | Gabriele Neu-Yilik | |
| | Clemens Stockklausner | |
| P2860 | cites work | An analysis of 5'-noncoding sequences from 699 vertebrate messenger RNAs | Q22066003 |
| | Y14 and hUpf3b form an NMD-activating complex | Q24300691 |
| | Exon-junction complex components specify distinct routes of nonsense-mediated mRNA decay with differential cofactor requirements | Q24337735 |
| | The spliceosome deposits multiple proteins 20-24 nucleotides upstream of mRNA exon-exon junctions | Q24595096 |
| | Integration of splicing, transport and translation to achieve mRNA quality control by the nonsense-mediated decay pathway | Q24791079 |
| | The RNA binding protein Pub1 modulates the stability of transcripts containing upstream open reading frames | Q27938420 |
| | Translational pathophysiology: a novel molecular mechanism of human disease | Q28145229 |
| | The human intronless melanocortin 4-receptor gene is NMD insensitive | Q28217154 |
| | A rule for termination-codon position within intron-containing genes: when nonsense affects RNA abundance | Q29615731 |
| | A perfect message: RNA surveillance and nonsense-mediated decay | Q29616125 |
| | When the message goes awry: disease-producing mutations that influence mRNA content and performance. | Q30329218 |
| | Thrombopoietin in patients with congenital thrombocytopenia and absent radii: elevated serum levels, normal receptor expression, but defective reactivity to thrombopoietin. | Q33499842 |
| | At least one intron is required for the nonsense-mediated decay of triosephosphate isomerase mRNA: a possible link between nuclear splicing and cytoplasmic translation | Q33778146 |
| | Post-termination ribosome interactions with the 5'UTR modulate yeast mRNA stability | Q33864041 |
| | Identifying the right stop: determining how the surveillance complex recognizes and degrades an aberrant mRNA. | Q33888137 |
| | Abnormally spliced beta-globin mRNAs: a single point mutation generates transcripts sensitive and insensitive to nonsense-mediated mRNA decay | Q33957567 |
| | cis- and trans-acting suppressors of a translation initiation defect at the cyc1 locus of Saccharomyces cerevisiae | Q33959896 |
| | Upstream open reading frames as regulators of mRNA translation | Q33966388 |
| | Separable roles for rent1/hUpf1 in altered splicing and decay of nonsense transcripts | Q34149373 |
| | Quality control of mRNA function | Q34156109 |
| | Nonsense surveillance regulates expression of diverse classes of mammalian transcripts and mutes genomic noise | Q34353133 |
| | Thrombopoietin: the novel hepatic hormone. | Q34513015 |
| | SC35 autoregulates its expression by promoting splicing events that destabilize its mRNAs | Q34583829 |
| | Utilizing the GCN4 leader region to investigate the role of the sequence determinants in nonsense-mediated mRNA decay. | Q35851318 |
| | A splicing-dependent regulatory mechanism that detects translation signals | Q35913215 |
| | Genome-wide analysis of mRNAs regulated by the nonsense-mediated and 5' to 3' mRNA decay pathways in yeast | Q38346636 |
| | Splicing and 3' end formation in the definition of nonsense-mediated decay-competent human beta-globin mRNPs | Q39673514 |
| | The yeast transcription factor genes YAP1 and YAP2 are subject to differential control at the levels of both translation and mRNA stability. | Q39723071 |
| | Nonsense mutations in close proximity to the initiation codon fail to trigger full nonsense-mediated mRNA decay. | Q40552071 |
| | A regulatory mechanism that detects premature nonsense codons in T-cell receptor transcripts in vivo is reversed by protein synthesis inhibitors in vitro | Q41267481 |
| | Binary specification of nonsense codons by splicing and cytoplasmic translation | Q42647080 |
| | The relationship between eukaryotic translation and mRNA stability. A short upstream open reading frame strongly inhibits translational initiation and greatly accelerates mRNA degradation in the yeast Saccharomyces cerevisiae | Q50113260 |
| | An activating splice donor mutation in the thrombopoietin gene causes hereditary thrombocythaemia. | Q55067329 |
| | Characterization of a General Stabilizer Element That Blocks Deadenylation-dependent mRNA Decay | Q61735643 |
| | Hereditary thrombocythaemia in a Japanese family is caused by a novel point mutation in the thrombopoietin gene | Q73231030 |
| | Translation is required to remove Y14 from mRNAs in the cytoplasm | Q74471693 |
| | Thrombopoietin | Q77218573 |
| | A single-base deletion in the thrombopoietin (TPO) gene causes familial essential thrombocythemia through a mechanism of more efficient translation of TPO mRNA | Q78253579 |
| | The nonsense-mediated mRNA decay pathway triggers degradation of most BRCA1 mRNAs bearing premature termination codons | Q78410743 |
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 2355-2363 | |
| P577 | publication date | 2006-05-05 | |
| P1433 | published in | Nucleic Acids Research | Q135122 |
| P1476 | title | The uORF-containing thrombopoietin mRNA escapes nonsense-mediated decay (NMD). | |
| P478 | volume | 34 | |