|1.||Prud'homme-Généreux, Annie: 2 articles (06/2007 - 12/2004)|
|2.||Mackie, George A: 2 articles (06/2007 - 12/2004)|
|3.||Otsuka, Yuichi: 1 article (11/2015)|
|4.||Alawneh, Abdulraheem M: 1 article (11/2015)|
|5.||Qi, Dan: 1 article (11/2015)|
|6.||Yonesaki, Tetsuro: 1 article (11/2015)|
|7.||Lodato, Patricia B: 1 article (12/2012)|
|8.||Kaper, James B: 1 article (12/2012)|
|9.||Hsieh, Ping-Kun: 1 article (12/2012)|
|10.||Belasco, Joel G: 1 article (12/2012)|
06/01/2011 - "We found that extraordinarily long asRNAs of 3.5 and 7 kb protect a set of mRNAs from RNase E degradation that accumulate during phage infection. "
11/01/1988 - "However, after infection of an RNase E-deficient strain, the amount of processed transcript was significantly reduced while the levels of the precursor transcripts remained high. "
11/01/2015 - "Escherichia coli messenger RNAs (mRNAs) are rapidly degraded immediately after bacteriophage T4 infection, and the host RNase E contributes to this process. "
11/01/2001 - "The relationship between the modification of RNase E and RhlB and these mRNA stabilization effects, which may be relevant to the stability of late T7 mRNAs during infection, is discussed."
08/08/1983 - "A precursor molecule of species 1 RNA, p2Sp1, that accumulates when an rne (RNase E-) mutant is infected with a T4 deletion mutant (delta 27) is also found after infection of an rne host mutant by different deletion mutants or wild type bacteriophage T4. "
12/01/2004 - "Here we demonstrate that one member of this family, CsdA, whose expression is induced by cold shock, interacts physically and functionally with RNase E. "
06/01/2007 - "Role of RNA structure and susceptibility to RNase E in regulation of a cold shock mRNA, cspA mRNA."
12/01/2004 - "Physical and functional interactions among RNase E, polynucleotide phosphorylase and the cold-shock protein, CsdA: evidence for a 'cold shock degradosome'."
|3.||Contagious Ecthyma (Orf)
09/01/2005 - "As a consequence, we found that the epd translation initiation region and ORF have been adapted in order to limit epd translation and to create an efficient RNase E entry site. "
12/01/2012 - "These findings suggest that occupancy of SD2 by ribosomes, but not mini-ORF translation, helps to protect espADB mRNA from degradation, likely by hindering RNase E access to the AU-rich leader region."
12/01/2012 - "The ribosome binding site of a mini-ORF protects a T3SS mRNA from degradation by RNase E."
04/01/2007 - "tuberculosis RNase E/G homologue and its E. "
|1.||Messenger RNA (mRNA)
|2.||RNA (Ribonucleic Acid)
|4.||Ribonuclease P (RNase P)
|5.||Ribonuclease III (RNase III)
|6.||Antisense RNA (Anti-Sense RNA)
|8.||Polyribonucleotide Nucleotidyltransferase (Polynucleotide Phosphorylase)
|9.||Phosphopyruvate Hydratase (Enolase)