Role of the terminator hairpin in the biogenesis of functional Hfq-binding sRNAs

Rho-independent transcription terminators of the genes encoding bacterial Hfq-binding sRNAs possess a set of seven or more T residues at the 3' end, as noted in previous studies. Here, we have studied the role of the terminator hairpin in the biogenesis of sRNAs focusing on SgrS and RyhB in We...

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Bibliographic Details
Published in:RNA (Cambridge) 2017-09, Vol.23 (9), p.1419-1431
Main Authors: Morita, Teppei, Nishino, Ryo, Aiba, Hiroji
Format: Article
Language:English
Subjects:
3' Untranslated Regions
Base Sequence
Biosynthesis
DNA-directed RNA polymerase
Escherichia coli - genetics
Escherichia coli - metabolism
Glucose - metabolism
Host Factor 1 Protein - metabolism
Inverted repeat
Inverted Repeat Sequences
Phosphates - metabolism
Poly U
Polyuridine
Protein Binding
RNA - chemistry
RNA - genetics
RNA - metabolism
RNA polymerase
RNA Stability
RNA, Bacterial
RNA, Messenger - chemistry
RNA, Messenger - genetics
RNA, Messenger - metabolism
Stress, Physiological
Terminator Regions, Genetic
Transcription termination
Transcription, Genetic
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Summary:Rho-independent transcription terminators of the genes encoding bacterial Hfq-binding sRNAs possess a set of seven or more T residues at the 3' end, as noted in previous studies. Here, we have studied the role of the terminator hairpin in the biogenesis of sRNAs focusing on SgrS and RyhB in We constructed variant sRNA genes in which the GC-rich inverted repeat sequences are extended to stabilize the terminator hairpins. We demonstrate that the extension of the hairpin stem leads to generation of heterogeneous transcripts in which the poly(U) tail is shortened. The transcripts with shortened poly(U) tails no longer bind to Hfq and lose the ability to repress the target mRNAs. The shortened transcripts are generated in an in vitro transcription system with purified RNA polymerase, indicating that the generation of shortened transcripts is caused by premature transcription termination. We conclude that the terminator structure of sRNA genes is optimized to generate functional sRNAs. Thus, the Rho-independent terminators of sRNA genes possess two common features: a long T residue stretch that is a prerequisite for generation of functional sRNAs and a moderate strength of hairpin structure that ensures the termination at the seventh or longer position within the consecutive T stretch. The modulation of the termination position at the Rho-independent terminators is critical for biosynthesis of functional sRNAs.
ISSN:1355-8382
1469-9001
DOI:10.1261/rna.060756.117