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1 in harnesses RNA-binding activity to promote transcription attenuation.
2 , suggesting that the Cgi system operates by transcription attenuation.
3 concentration higher than that required for transcription attenuation.
4 of the Bacillus subtilis trpEDCFBA operon by transcription attenuation.
5 function in snRNA 3'-end processing and mRNA transcription attenuation.
6 pressed genes and 5' UTR regions involved in transcription attenuation.
7 rplJL operon of B. subtilis is regulated by transcription attenuation and antitermination mechanisms
8 TRAP regulates expression of these genes by transcription attenuation and translation control mechan
9 of the Bacillus subtilis trpEDCFBA operon by transcription attenuation and translation control mechan
10 operon of Bacillus subtilis is regulated by transcription attenuation and translation control mechan
11 of the Bacillus subtilis trpEDCFBA operon by transcription attenuation and translation control mechan
12 s that use short-range mechanisms to control transcription attenuation and translation initiation and
13 EDCFBA operon is regulated by TRAP-dependent transcription attenuation and translation repression mec
14 Pausing at U107 and U144 participates in the transcription attenuation and translational control mech
15 of the Bacillus subtilis trpEDCFBA operon by transcription attenuation and translational control mech
16 se two regulatory pause sites participate in transcription attenuation and translational control mech
17 Pausing at U107 and U144 participates in transcription attenuation and trpE translation control m
18 the tryptophan biosynthetic genes includes a transcription attenuation and two distinct translation c
20 operon by promoting premature termination of transcription (attenuation) at a specific site within th
21 e 5' ends of pyrG transcripts act to prevent transcription attenuation by base pairing with the seque
22 sm of binding is important for TRAP-mediated transcription attenuation control of the trp operon.
24 ogical role for intragenic enhancer-mediated transcription attenuation in cell fate determination.
25 ic AMP receptor protein, riboswitch-mediated transcription attenuation in response to cyclic di-AMP,
26 usly shown to be mediated by a novel form of transcription attenuation in which low levels of intrace
27 These studies demonstrate that release of transcription attenuation is a mechanism used to induce
28 subtilis trpEDCFBA operon is regulated by a transcription attenuation mechanism controlled by the tr
29 lJL expression is regulated by an autogenous transcription attenuation mechanism in which L10(L12)4 b
30 further show that nusA is autoregulated by a transcription attenuation mechanism that does not rely o
31 of pyrimidine biosynthetic (pyr) genes by a transcription attenuation mechanism that is mediated by
40 roles in noncoding RNA 3'-end processing and transcription attenuation of a broad collection of mRNAs
42 anking sequences and supports a mechanism of transcription attenuation that is regulated in part by a
43 some evidence suggests that it operates via transcription attenuation, the components of this pathwa
44 as shown previously to occur at the level of transcription attenuation via structural rearrangements
46 metazoan gene repression, akin to bacterial transcription attenuation, wherein promoter-proximal Pol