Your search keyword '"Hraiky, Chadi"' showing total 2 results

1. RNase HI overproduction is required for efficient full-length RNA synthesis in the absence of topoisomerase I inEscherichia coli.

Author

Baaklini, Imad, Hraiky, Chadi, Rallu, Fabien, Tse-Dinh, Yuk-Ching, and Drolet, Marc

Subjects

*ESCHERICHIA coli, *RNA, *DNA topoisomerase I, *GENETIC mutation, *ENZYMES, *NUCLEIC acids

Abstract

It has long been known thatEscherichia colicells deprived of topoisomerase I (topAnull mutants) do not grow. Because mutations reducing DNA gyrase activity and, as a consequence, negative supercoiling, occur to compensate for the loss oftopAfunction, it has been assumed that excessive negative supercoiling is somehow involved in the growth inhibition oftopAnull mutants. However, how excess negative supercoiling inhibits growth is still unknown. We have previously shown that the overproduction of RNase HI, an enzyme that degrades the RNA portion of an R-loop, can partially compensate for the growth defects because of the absence of topoisomerase I. In this article, we have studied the effects of gyrase reactivation on the physiology of actively growingtopAnull cells. We found that growth immediately and almost completely ceases upon gyrase reactivation, unless RNase HI is overproduced. Northern blot analysis shows that the cells have a significantly reduced ability to accumulate full-length mRNAs when RNase HI is not overproduced. Interestingly, similar phenotypes, although less severe, are also seen when bacterial cells lacking RNase HI activity are grown and treated in the same way. All together, our results suggest that excess negative supercoiling promotes the formation of R-loops, which, in turn, inhibit RNA synthesis. [ABSTRACT FROM AUTHOR]

Published

2004

2. Hypernegative Supercoiling Inhibits Growth by Causing RNA Degradation.

Author

Baaklini, Imad, Usongo, Valentine, Nolent, Flora, Sanscartier, Patrick, Hraiky, Chadi, Drlica, Karl, and Drolet, Marc

Subjects

*ESCHERICHIA coli, *COLIFORMS, *ENTEROBACTERIACEAE, *MESSENGER RNA, *PROTEIN synthesis, *RNA

Abstract

Transcription-induced hypernegative supercoiling is a hallmark of Escherichia coli topoisomerase I (topA) mutants. However, its physiological significance has remained unclear. Temperature downshift of a mutant yielded transient growth arrest and a parallel increase in hypernegative supercoiling that was more severe with lower temperature. Both properties were alleviated by overexpression of RNase HI. While ribosomes in extracts showed normal activity when obtained during growth arrest, mRNA on ribosomes was reduced for fis and shorter for crp, polysomes were much less abundant relative to monosomes, and protein synthesis rate dropped, as did the ratio of large to small proteins. Altered processing and degradation of lacA and fis mRNA was also observed. These data are consistent with truncation of mRNA during growth arrest. These effects were not affected by a mutation in the gene encoding RNase E, indicating that this endonuclease is not involved in the abnormal mRNA processing. They were also unaffected by spectinomycin, an inhibitor of protein synthesis, which argued against induction of RNase activity. In vitro transcription revealed that R-loop formation is more extensive on hypernegatively supercoiled templates. These results allow us, for the first time, to present a model by which hypernegative supercoiling inhibits growth. In this model, the introduction of hypernegative supercoiling by gyrase facilitates degradation of nascent RNA; overproduction of RNase HI limits the accumulation of hypernegative supercoiling, thereby preventing extensive RNA degradation. [ABSTRACT FROM AUTHOR]

Published

2008