|1.||Lee, Tae-Hee: 2 articles (05/2011 - 03/2007)|
|2.||Liu, Chen-Yu: 1 article (05/2011)|
|3.||Qureshi, Mohd Tanvir: 1 article (05/2011)|
|4.||Kim, Harold D: 1 article (03/2007)|
|5.||Chu, Steven: 1 article (03/2007)|
|6.||Puglisi, Joseph D: 1 article (03/2007)|
|7.||Uemura, Sotaro: 1 article (03/2007)|
|8.||Dorywalska, Magdalena: 1 article (03/2007)|
|9.||Buckingham, R H: 1 article (06/2000)|
|10.||Heurgué-Hamard, V: 1 article (06/2000)|
03/08/1996 - "It strongly suggests instead that starvation-promoted frameshifting occurs primarily by slippage of peptidyl-tRNA just upstream of the stall site, followed by decoding of the triplet overlapping the stall site from the left or 5' side. "
11/05/1979 - "Tests of the ribosomal editing hypothesis: amino acid starvation differentially enhances the dissociation of peptidyl-tRNA from the ribosome."
07/01/1998 - "lambda bar minigene-mediated inhibition of protein synthesis involves accumulation of peptidyl-tRNA and starvation for tRNA."
12/25/1983 - "Enhanced dissociation of peptidyl-tRNA during starvation, followed rapidly by dissociation of ribosomes from mRNA, led to reductions in mean polysome size, a result that had been interpreted by others as due to some effect of starvation on the initiation of protein synthesis. "
06/01/2000 - "Inhibition occurs because peptidyl-tRNA hydrolase fails to recycle sufficiently rapidly peptidyl-tRNA released from ribosomes at the stop signal in competition with normal termination, causing starvation for essential species of tRNA. "
05/04/2011 - "We measured the rupture forces of aminoacyl tRNA or peptidyl tRNA mimic from the ribosome in a prepeptidyl transfer state, the pretranslocational state, and the posttranslocational state. "
03/22/2007 - "In contrast, the presence of a peptidyl tRNA analogue, N-acetyl-Phe-tRNA(Phe), in the A site, which mimicked the post-peptidyl transfer state, weakened the rupture force as compared to the complex with Phe-tRNA(Phe), and the resultant force was the same for both the SD-containing and SD-deficient mRNAs. "
|3.||Contagious Ecthyma (Orf)
06/01/2000 - "Genetic analysis of these signals supports a working model in which the first (a stem-loop structure at the junction between the first ORF and the coding gap) interferes with decoding in the A-site, and the second (a stretch of amino acids in the nascent peptide encoded by the first ORF) destabilizes peptidyl-tRNA-mRNA pairing."
|1.||Transfer RNA (tRNA)
|2.||Messenger RNA (mRNA)
|3.||Capsid Proteins (Capsid Protein)
|4.||RNA (Ribonucleic Acid)