RNase E: still a wonderfully mysterious enzyme

Cohen, Stanley N.; McDowall, Kenneth J.

doi:10.1111/j.1365-2958.1997.tb02593.x

Cited by 130 publications

(110 citation statements)

References 71 publications

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“…approximately 70 kDa), smaller bands likely to represent products of proteolytic degradation were also observed in our preparations of RNase ES. E. coli RNase E is highly susceptible to proteolysis during purification (Carpousis et al, 1994), and this property led to continuing uncertainty about this enzyme's true size until the gene encoding it was eventually isolated and characterized (for reviews, see Ehretsmann et al, 1992;Melefors et al, 1993;Cohen and McDowall, 1997). Thus, we cannot be certain that the 70 kDa peptide is not itself a degradation product of a larger protein.…”

Section: Discussionmentioning

confidence: 99%

“…RNase E is an E. coli endoribonuclease that has been shown to have a key role in the processing of ribosomal RNA and the degradation of a variety of messenger RNAs; additionally, by its cleavage of RNA I, the antisense repressor of replication of ColE1-type plasmids, RNase E can regulate DNA replication (for reviews, see Ehretsmann et al, 1992;Melefors et al, 1993;Cohen and McDowall, 1997). This enzyme is a 118 kDa, 1061 amino acid protein that cleaves single-stranded regions of RNA site specifically in segments rich in A þ U nucleotides; in E. coli cells, RNase E can form macromolecular complexes with other proteins that assist in, or otherwise affect, RNA decay (for a recent review, see Cohen and McDowall, 1997).…”

Section: Introductionmentioning

confidence: 99%

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A developmentally regulated Streptomyces endoribonuclease resembles ribonuclease E of Escherichia coli

Hagège

Cohen

1997

Molecular Microbiology

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SummaryWe report that the Streptomyces species S. lividans and S. coelicolor, morphologically complex Grampositive soil bacteria, contain a developmentally regulated endoribonuclease activity (here named RNase ES) that functionally and immunologically resembles Escherichia coli RNase E. In Streptomyces cells, RNA I -the antisense repressor of replication of ColE1-type plasmids -is cleaved at sites attacked by RNase E. A Mg 2þ -dependent endonuclease that produces RNase E-like cleavages in RNA I and 9S ribosomal RNA was identified in S. lividans cell extracts. A Streptomyces peptide migrating at 70 kDa in SDS/polyacrylamide gels binds to RNase E substrates and reacts with three separate anti-RNase E monoclonal antibodies; the endonucleolytic cleavage activity co-purified with the immunoreactive 70 kDa peptide. We show that RNase ES activity is regulated during the Streptomyces life cycle: activity increased as cells progressed from exponential growth to stationary phase in liquid culture, or from mycelial growth to sporulation on solid media. While mutations that interfere with S. coelicolor development late in its life cycle did not prevent this developmentally associated increase in RNase ES activity, the increase was blocked by a mutation (bldA) that interferes early with both morphological and physiological differentiation.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A developmentally regulated Streptomyces endoribonuclease resembles ribonuclease E of Escherichia coli

Hagège

Cohen

1997

Molecular Microbiology

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“…1. Panel A, two sets of ribonuclease protection assays were analyzed using the internal 32 P-labeled riboprobes corresponding to rne coordinates 2031-1231 (probe a, lanes [1][2][3][4][5] and 2031-1480 (probe b, lanes 6 -10), respectively (The coordinates, T7 promoter, and direction of RNA synthesis are indicated in the schematic drawing.) The RNase protection assay was performed as described under "Materials and Methods" with 10 g of yeast total RNA without ribonuclease digestion (lanes 1 and 6) or with ribonuclease digestion (lanes 2 and 7), with 5 g of in vitro T3 RNA polymerase-synthesized RNA corresponding to 1537-2168 of rne (lanes 3 and 8) or with 2 g of RNA isolated from N3431 at 33°C (lanes 4 and 9) or at 43°C (lanes 5 and 10).…”

Section: Fig 5 Analysis Of the 5 Termini Of The Decay Intermediatementioning

confidence: 99%

“…While RNase E is essential for cell growth, conditional (temperature-sensitive) rne mutants, such as rne-3071 (6, 7) and ams-1 (8,9) have been isolated, and the sites of mutation have been mapped to the N-terminal half of the polypeptide (10), which contains the catalytic domain of the enzyme (11,12). Inactivation of RNase E activity in these temperature-sensitive mutants by culture at nonpermissive temperature prolongs the decay of bulk mRNA and of specific transcripts (4,5).…”

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confidence: 99%

“…RNase E is encoded by the rne (1-3), also known as ams or hmp, gene (for reviews see Refs. 4 and 5) and is a key enzyme in the processing and decay of mRNA, ribosomal RNA, and regulatory RNAs in Escherichia coli (4,5). While RNase E is essential for cell growth, conditional (temperature-sensitive) rne mutants, such as rne-3071 (6, 7) and ams-1 (8,9) have been isolated, and the sites of mutation have been mapped to the N-terminal half of the polypeptide (10), which contains the catalytic domain of the enzyme (11,12).…”

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Processing of the rne Transcript by an RNase E-independent Amino Acid-dependent Mechanism

Woo¹,

Lin‐Chao²

1997

Journal of Biological Chemistry

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RNase E is encoded by the rne (also known as ams or hmp) gene and is the principal enzyme that controls the chemical decay of bulk mRNA in Escherichia coli. Earlier work has shown that RNase E degrades its own mRNA, autoregulating production of the RNase E protein. Here we show that in cells lacking RNase E activity, the 3.6-kilobase rne gene transcript is cleaved site specifically at two locations near its center by a novel endonuclease whose activity is modulated by the presence or absence of amino acids in the culture medium. These cleavages produce a 2-kilobase RNase E-sensitive RNA fragment corresponding to the 3 half of the transcript. Using primer extension and RNase protection analysis, we mapped RNase E-independent cleavages to sites 1558 and 1576 nucleotides from the 5 end of the rne transcript (coordinates 1738 and 1747 of the rne gene). Our results indicate the existence of a previously unknown RNase E-independent mechanism for degradation of rne transcripts and further demonstrate that this mechanism responds to changes in cell growth conditions. RNase E is encoded by the rne (1-3), also known as ams or hmp, gene (for reviews see Refs. 4 and 5) and is a key enzyme in the processing and decay of mRNA, ribosomal RNA, and regulatory RNAs in Escherichia coli (4, 5). While RNase E is essential for cell growth, conditional (temperature-sensitive) rne mutants, such as rne-3071 (6, 7) and ams-1 (8, 9) have been isolated, and the sites of mutation have been mapped to the N-terminal half of the polypeptide (10), which contains the catalytic domain of the enzyme (11, 12). Inactivation of RNase E activity in these temperature-sensitive mutants by culture at nonpermissive temperature prolongs the decay of bulk mRNA and of specific transcripts (4, 5).Overexpression of the rne gene by high copy number plasmids slows cell growth and can result in plasmid loss or the acquisition of rne mutations (13). Moreover, raising the rne gene copy number 21-fold in E. coli fails to produce a corresponding increase in production of the RNase E protein, suggesting that RNase E concentration is tightly controlled in vivo (14). This appears to occur by RNase E autoregulation of the stability of its own mRNA by cleavage of rne mRNA in the 5Ј-untranslated region; inactivation of RNase E prolongs the half-life of the rne transcript (14, 15). However, despite evidence for RNase E cleavage of rne transcripts by primer extension analysis and in vitro cleavage assay, no rne-dependent decay intermediate was observed by Northern blotting (14, 15), suggesting that the RNase E-generated products are rapidly degraded.During the course of investigation of the effect of cell growth rate on the stability of rne mRNA, we observed a 2-kb 1 RNA species corresponding to the 3Ј half of the rne mRNA in the E. coli rne-3071 ts mutant strain grown in minimal medium containing casamino acids. However, accumulation of this rne transcript fragment at a nonpermissive temperature indicated that it was not produced by RNase E cleavage of full-length rne mRNA....

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