4.5 Article

Regulation of Erwinia carotovora hrpLEcc (sigma-LEcc), which encodes an extracytoplasmic function subfamily of sigma factor required for expression of the HRP regulon

Journal

MOLECULAR PLANT-MICROBE INTERACTIONS
Volume 15, Issue 9, Pages 971-980

Publisher

AMER PHYTOPATHOLOGICAL SOC
DOI: 10.1094/MPMI.2002.15.9.971

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In Erwinia carotovora subsp. carotovora (Ecc) strain 71 (Ecc71), HrpL(Ecc), an alternate sigma factor of the extracy-toplasmic function subfamily, plays a central role in the expression of the hrp (hypersensitive reaction and pathogenicity) regulon. We document here that sigma-54 (RpoN) is required for full expression of hrpL(Ecc) and that HrpS, in conjunction with sigma-54, activates hrpL(Ecc) transcription. We also made the novel observation that integration host factor is required for the activation of the hrpL(Ecc), promoter. Our findings reveal that the RsmA/rsmB RNA-mediated post-transcriptional system, known to control extracellular enzyme and harpin production, affects hrpL(Ecc) expression as well. For example, hrpL(Ecc) RNA levels are barely detected in an RsmB(-) strain. Conversely, hrpL(Ecc) mRNA levels are much higher in RsmA(-) bacteria than in the RsmA(+) parent. This effect is due to RsmA-promoted decay of hrpL(Ecc) RNA. Moreover, the following regulators known to control the production of either RsmA, rsmB RNA, or both also affect hrpL(Ecc) expression: GacA (response regulator of a two-component system), KdgR (an 101 type repressor), HexA (a LysR type repressor), RsmC (a putative transcriptional adapter). Based upon the data now available for Ecc and extrapolating from the evidence in other systems, we propose a tentative model that depicts the Hrp regulatory system of Ecc and explains the basis for coregulation of extracellular enzyme production and expression of the Hrp regulon.

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