S. A. Emory scite author profile

The 5'-untranslated region of the long-lived Escherichia coli ompA transcript functions as an mRNA stabilizer capable of prolonging the lifetime in E. coli of a number of heterologous messages to which it is fused. To elucidate the structural basis of differential mRNA stability in bacteria, the domains of the ompA 5'-untranslated region that allow it to protect mRNA from degradation have been identified by mutational analysis. The presence of a stem-loop no more than 2-4 nucleotides from the extreme 5' terminus of this RNA segment is crucial to its stabilizing influence, whereas the sequence of the stem-loop is relatively unimportant. The potential to form a hairpin very close to the 5' end is a feature common to a number of stable prokaryotic messages. Moreover, the lifetime of a normally labile message {bla mRNA) can be prolonged in £. coli by adding a simple hairpin structure at its 5' terminus. Accelerated degradation of ompA mRNA in the absence of a 5'-terminal stem-loop appears to start downstream of the 5' end. We propose that E. coli messages beginning with a single-stranded RNA segment of significant length are preferentially targeted by a degradative tibonuclease that interacts with the mRNA 5' terminus before cleaving internally at one or more distal sites.

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The ompA 5' untranslated RNA segment functions in Escherichia coli as a growth-rate-regulated mRNA stabilizer whose activity is unrelated to translational efficiency

Emory

1990

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The 5' untranslated region (UTR) of the long-lived Escherichia coli ompA message can function in vivo as an mRNA stabilizer. Substitution of this ompA mRNA segment for the corresponding segment of the labile bla gene transcripts prolongs their lifetime by a factor of 6. We show here that the function of this ompA mRNA stabilizer requires the presence of a 115-nucleotide ompA RNA segment that lies upstream of the ribosomebinding site. Although deletion of this segment reduced the half-life of the ompA transcript by a factor of 5, its absence had almost no effect on the translational efficiency of ompA mRNA. Like the ompA ranscript, but unlike bla mRNA, hybrid ompA-bla messages containing the complete ompA 5' UTR were significantly less stable under conditions of slow bacterial growth. We conclude that the stabilizing activity of the ompA 5' UTR is growth rate regulated and that the mechanism of mRNA stabilization by this RNA segment is not related to the spacing between translating ribosomes.

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Structure and function of a bacterial mRNA stabilizer: analysis of the 5' untranslated region of ompA mRNA

et al. 1991

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The 5' untranslated region (UTR) of the Escherichia coli ompA transcript functions in vivo as a growth rate-regulated mRNA stabilizer. The secondary structure of this mRNA segment has been determined by a combination of three methods: phylogenetic analysis, in vitro probing with a structure-specific RNase, and methylation by dimethylsulfate in vivo and in vitro. These studies reveal that despite extensive sequence differences, the 5' UTRs of the ompA transcripts of E. coli, Serraia marcescens, and Enterobacter aerogenes can fold in a remarkably similar fashion. Furthermore, the Serratia and Enterobacter ompA 5' UTRs function as effective mRNA stabilizers in E. coli. Stabilization of mRNA by the Serratia ompA 5' UTR is growth rate dependent. These findings indicate that the features of the ompA 5' UTR responsible for its ability to stabilize mRNA in a growth rate-regulated manner are to be found among the structural similarities shared by these diverse evolutionary variants.

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Porphyromonas gingivalis genes isolated by screening for epithelial cell attachment

1996

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Porphyromonas gingivalis is associated with chronic and severe periodontitis in adults. P. gingivalis and the other periodontal pathogens colonize and interact with gingival epithelial cells, but the genes and molecular mechanisms involved are unknown. To dissect the first steps in these interactions, a P. gingivalis expression library was screened for clones which bound human oral epithelial cells. Insert DNA from the recombinant clones did not contain homology to the P. gingivalis fimA gene, encoding fimbrillin, the subunit protein of fimbriae, but showed various degrees of homology to certain cysteine protease-hemagglutinin genes. The DNA sequence of one insert revealed three putative open reading frames which appeared to be in an operon. The relationship between P. gingivalis attachment to epithelial cells and the activities identified by the screen is discussed.

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S. A. Emory

A 5'-terminal stem-loop structure can stabilize mRNA in Escherichia coli.

The ompA 5' untranslated RNA segment functions in Escherichia coli as a growth-rate-regulated mRNA stabilizer whose activity is unrelated to translational efficiency

Structure and function of a bacterial mRNA stabilizer: analysis of the 5' untranslated region of ompA mRNA

Porphyromonas gingivalis genes isolated by screening for epithelial cell attachment

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