PykF is one of two pyruvate kinases in Escherichia coli K-12. λPL was convergently integrated into the chromosome of the MG1655 strain, downstream of pykF, face-to-face with its native promoter. In the presence of λcIts857, efficient pykF ts-silencing was achieved when the 5′-terminus of the PL-originated antisense RNA (asRNA), consisting of the rrnG-AT sequence, converted elongation complexes of RNA polymerase to a form resistant to Rho-dependent transcription termination. pykF silencing was detected by the following features: (a) impaired growth of the strain when pykA was also disrupted and when using ribose as a non-phosphotransferase system-transporting carbon source; (b) a pattern of reduced synthesis of the full-sized pykF mRNA, mediated by reverse transcription PCR, and (c) a significant decrease in PykF activity. The advantages of anti-terminated convergent transcription were clearly manifested in the strains where the rho_a-terminator was inserted specifically to interrupt asRNA synthesis. Most likely, the target gene was silenced by transcriptional interference due to collisions between converging RNA polymerases, although, strictly, the role of cis-asRNA effects could not be excluded. While details of the mechanisms have yet to be determined, anti-terminated convergent transcription is a promising new technique for silencing other target genes.
DAHP synthase (EC 4.1.2.15) is one of the key enzymes involved in aromatic amino acid biosynthesis in Escherichia coli. An approximately twofold decrease in DAHP synthase activity level was detected in the late growth phase of the L-phenylalanine (Phe)-producing E. coli strain, in which this enzyme encoded by aroG4 is resistant to feedback inhibition. An additional copy of aroG4 that is controlled by promoters of E. coli phoA or pstS genes was integrated into the chromosome of the Phe producer. The choice of promoter was based on the detected activation of the Pho regulon that occurs in response to the depletion of soluble inorganic orthophosphate (P(i)) in the medium, provided that the optical density of the Phe-producing culture did not exceed 70% of its maximum value. Pho-mediated aroG4 transcription increased both the accumulation of Phe and the level of DAHP synthase activity in the late stage of batch cultivation on glucose in P(i)-limited conditions. Disruption of rpoS led to the improved performance of a P(phoA)-aroG4 strain. The pstS promoter that is recognized by the σ(70)/σ(S)-associated core RNA polymerase resulted in the stable maintenance of DAHP synthase activity during long-drawn fed-batch cultivation of the RpoS(+) strain carrying the P(pstS)-aroG4.
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