Johann Schaffer scite author profile

Johann Schaffer

2Publications

48Citation Statements Received

135Citation Statements Given

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129

Affiliations

Austrian Agency for Health and Food Safety

Publications

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A Rapid and Sensitive Method for Direct Detection of Erwinia amylovora in Symptomatic and Asymptomatic Plant Tissues by Polymerase Chain Reaction

Stöger¹,

Schaffer²,

Ruppitsch³

2006

Journal of Phytopathology

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Fire blight is a destructive disease of apple and pear trees and other rosaceous plants caused by the Gram-negative bacterium Erwinia amylovora. Several molecular detection procedures described for this plant pathogen are either too time consuming, too insensitive or impractical when handling a large number of samples routinely. Here, we describe a modified protocol of the REDExtract-N-Amp TM Plant polymerase chain reaction kit for the detection of E. amylovora in planta and demonstrate that it provides simplicity, high sensitivity, speed and high throughput potential. A total of 951 samples collected in Austria were tested with the modified protocol and the standard protocol of our laboratory to validate the accuracy of this detection method.

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Erwinia amylovora Expresses Fast and Simultaneously hrp/dsp Virulence Genes during Flower Infection on Apple Trees

et al. 2012

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BackgroundPathogen entry through host blossoms is the predominant infection pathway of the Gram-negative bacterium Erwinia amylovora leading to manifestation of the disease fire blight. Like in other economically important plant pathogens, E. amylovora pathogenicity depends on a type III secretion system encoded by hrp genes. However, timing and transcriptional order of hrp gene expression during flower infections are unknown.Methodology/Principal FindingsUsing quantitative real-time PCR analyses, we addressed the questions of how fast, strong and uniform key hrp virulence genes and the effector dspA/E are expressed when bacteria enter flowers provided with the full defense mechanism of the apple plant. In non-invasive bacterial inoculations of apple flowers still attached to the tree, E. amylovora activated expression of key type III secretion genes in a narrow time window, mounting in a single expression peak of all investigated hrp/dspA/E genes around 24–48 h post inoculation (hpi). This single expression peak coincided with a single depression in the plant PR-1 expression at 24 hpi indicating transient manipulation of the salicylic acid pathway as one target of E. amylovora type III effectors. Expression of hrp/dspA/E genes was highly correlated to expression of the regulator hrpL and relative transcript abundances followed the ratio: hrpA>hrpN>hrpL>dspA/E. Acidic conditions (pH 4) in flower infections led to reduced virulence/effector gene expression without the typical expression peak observed under natural conditions (pH 7).Conclusion/SignificanceThe simultaneous expression of hrpL, hrpA, hrpN, and the effector dspA/E during early floral infection indicates that speed and immediate effector transmission is important for successful plant invasion. When this delicate balance is disturbed, e.g., by acidic pH during infection, virulence gene expression is reduced, thus partly explaining the efficacy of acidification in fire blight control on a molecular level.

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Johann Schaffer

A Rapid and Sensitive Method for Direct Detection of Erwinia amylovora in Symptomatic and Asymptomatic Plant Tissues by Polymerase Chain Reaction

Erwinia amylovora Expresses Fast and Simultaneously hrp/dsp Virulence Genes during Flower Infection on Apple Trees

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