|1.||Wower, Jacek: 4 articles (01/2014 - 09/2009)|
|2.||Zwieb, Christian: 3 articles (01/2014 - 09/2009)|
|3.||Frank, Joachim: 3 articles (07/2011 - 10/2006)|
|4.||Karzai, A Wali: 2 articles (01/2014 - 10/2013)|
|5.||Hashem, Yaser: 2 articles (07/2011 - 11/2010)|
|6.||Fu, Jie: 2 articles (07/2011 - 11/2010)|
|7.||Christensen, Susanne K: 2 articles (07/2004 - 06/2003)|
|8.||Gerdes, Kenn: 2 articles (07/2004 - 06/2003)|
|9.||Krasich, Rachel: 1 article (04/2015)|
|10.||Kuo, H Kenny: 1 article (04/2015)|
|1.||Contagious Ecthyma (Orf)
01/01/2014 - "Our observations demonstrate the existence of functionally important but as yet uncharacterized structural constraints in the segment of tmRNA that connects its TLD to the ORF used for resuming translation. "
03/01/2010 - "Translation of tmRNA ORF results in the tagging of faulty protein for degradation and its release from the ribosome. "
11/17/2010 - "We show that tmRNA maintains a stable 'arc and fork' structure on the ribosome when its TLD moves to the ribosomal P site and translation resumes on its ORF. "
10/18/2013 - "Taken together, these data suggest that the engagement of the tmRNA ORF and the selection of the correct translation resumption point are distinct activities that are influenced by independent tmRNA and SmpB determinants. "
10/18/2013 - "Our data suggest that the highly conserved glycine 132 acts as a flexible hinge that enables movement of the C-terminal tail, thus permitting proper positioning and establishment of the tmRNA open reading frame (ORF) as the surrogate template. "
04/01/2008 - "Cleavage of mRNAs and role of tmRNA system under amino acid starvation in Escherichia coli."
07/01/2004 - "Hyperactivation of RelE during amino acid starvation was shown directly by measurement of RelE-mediated cleavage of tmRNA. "
04/01/2008 - "The ribosome-mediated mRNA cleavage along with the tmRNA system is an important mechanism that enables cells to adapt to amino acid starvation conditions."
04/01/2008 - "A mild serine starvation caused a significant growth inhibition in cells lacking tmRNA but not in wild-type cells. "
04/01/2008 - "Here we demonstrate that mRNA cleavage is induced by amino acid starvation, resulting in accumulation of truncated mRNAs in cells lacking tmRNA. "
11/01/2003 - "Cold shock induction of RNase R and its role in the maturation of the quality control mediator SsrA/tmRNA."
11/01/2014 - "Additional factors have been identified that rescue ribosomes stalled due to stress-induced mRNA truncation (tmRNA, ArfA, ArfB), translation of unfavorable protein sequences (EF-P), heat shock-induced subunit dissociation (Hsp15), or antibiotic inhibition (TetM, FusB). "
06/01/2007 - "longum cells to heat shock was suggested by the induction of the gene encoding the tmRNA-associated small protein B (SmpB) with concomitant high constitutive expression of the tmRNA gene."
09/01/2009 - "Bacteriophages, plasmids and genomic islands can carry tmRNA genes; we describe a native bacterial ssrA disrupted by insertion of a genomic island that carries its own ssrA, a genome encoding both one- and two-piece tmRNA, and a phage encoding a tmRNA variant lacking the mRNA-like function, which may counteract host tmRNA during infection."
12/04/2003 - "coli null mutations in either the periplasmic "tail-specific protease" tsp, or the 10Sa RNA ssrA, completely blocked the establishment of LIN following T4 infections. "
|1.||Messenger RNA (mRNA)
|2.||ribonuclease R (RNase R)
|3.||Transfer RNA (tRNA)
|4.||small protein B
|6.||Staphylococcal Protein A (A, Protein)
|8.||Molecular Chaperones (Chaperone, Molecular)