Gaudriault S, Malandrin L, Paulin J P, Barny M A
Laboratoire de pathologie végétale INA-PG/INRA, Paris, France.
Mol Microbiol. 1997 Dec;26(5):1057-69. doi: 10.1046/j.1365-2958.1997.6442015.x.
In Erwinia amylovora, the dsp region, required for pathogenicity on the host plant but not for hypersensitive elicitation on tobacco, is separated from the hrp region by 4 kb. The genetic analysis reported in this paper showed that this 4kb region is not required for pathogenicity on pear seedlings. The environmental conditions allowing expression of a dsp::lacZ fusion were examined: expression was barely detected in rich medium at 30 degrees C, and the highest expression was observed in M9 galactose minimal medium at 25 degrees C. A dsp::uidA fusion appeared to be expressed only in a HrpL-proficient strain, indicating that the dsp region, like the hrp region, is positively controlled via the alternative a factor HrpL. Sequence analysis revealed that the dsp cluster encodes two genes, dspA (5517 bp) and dspB (420 bp), and that the insertions leading to the dsp::lacZ and the dsp::uidA fusions were within dspA. A HrpL-dependent promoter sequence (GGAACC-N15-CAACA) was identified upstream of dspA, and primer extension analysis detected four transcriptional starts 7, 8, 9 and 10 bp downstream of this sequence. A sigma70 promoter sequence (TTGCCC-N16-GATAAT) was observed upstream of dspB. The functionality of this second promoter was confirmed by complementation analysis. This promoter allowed constitutive expression of dspB, as measured by the expression of a dspB::uidA fusion in rich medium. In M9 galactose medium, however, HrpL was shown to activate dspB, as expression of the dspB::uidA fusion was twofold higher in a HrpL+ background than in a HrpL- background. Transposon insertions in either dspA or dspB led to a non-pathogenic phenotype. Thus, both DspA and DspB were required for E. amylovora pathogenicity, as dspB could be expressed independently of dspA. DspA and DspB were visualized as polypeptides with apparent sizes of 190 kDa and 15.5 kDa, respectively, when encoded in the T7 polymerase/promoter system. DspA, which showed homology with the protein predicted from the partial sequence of Pseudomonas syringae pv. tomato avrE transcriptional unit III, was shown to be secreted into the external medium via the Hrp secretion pathway. DspB was predicted to be acidic, like the Syc chaperone of Yersinia. A chaperone role for DspB was suggested further by the fact that DspA secretion required a functional DspB protein.
在梨火疫病菌中,致病所需的dsp区域(对寄主植物致病是必需的,但对烟草过敏激发不是必需的)与hrp区域被4 kb的片段隔开。本文报道的遗传分析表明,这4 kb区域对梨树苗致病并非必需。研究了允许dsp::lacZ融合表达的环境条件:在30℃的丰富培养基中几乎检测不到表达,而在25℃的M9半乳糖基本培养基中观察到最高表达。dsp::uidA融合似乎仅在HrpL功能正常的菌株中表达,表明dsp区域与hrp区域一样,通过替代σ因子HrpL受到正向调控。序列分析表明,dsp基因簇编码两个基因,dspA(5517 bp)和dspB(420 bp),导致dsp::lacZ和dsp::uidA融合的插入位于dspA内。在dspA上游鉴定到一个依赖HrpL的启动子序列(GGAACC - N15 - CAACA),引物延伸分析在该序列下游7、8、9和10 bp处检测到四个转录起始位点。在dspB上游观察到一个σ70启动子序列(TTGCCC - N16 - GATAAT)。通过互补分析证实了第二个启动子的功能。如通过在丰富培养基中dspB::uidA融合的表达所测定的,该启动子允许dspB组成型表达。然而,在M9半乳糖培养基中,HrpL被证明可激活dspB,因为dspB::uidA融合在HrpL + 背景中的表达比在HrpL - 背景中高两倍。dspA或dspB中的转座子插入导致非致病表型。因此,DspA和DspB对梨火疫病菌的致病性都是必需的,因为dspB可以独立于dspA表达。当在T7聚合酶/启动子系统中编码时,DspA和DspB分别被可视化为表观大小为190 kDa和15.5 kDa的多肽。DspA与丁香假单胞菌番茄致病变种avrE转录单元III的部分序列预测的蛋白质具有同源性,被证明通过Hrp分泌途径分泌到外部培养基中。DspB预计像耶尔森菌的Syc伴侣蛋白一样呈酸性。DspA分泌需要功能性DspB蛋白这一事实进一步表明DspB具有伴侣蛋白的作用。
