Per-Johan Meijer scite author profile

Recognition of an avirulent pathogen stimulates an oxidative burst generating O2- and H2O2, and these reactive oxygen intermediates (ROIs) cue the induction of defense genes and cell death in the development of a restricted lesion. This localized hypersensitive response (HR) is accompanied by the development of systemic acquired resistance to virulent pathogens. Here we show that inoculation of Arabidopsis leaves with avirulent Pseudomonas syringae induces secondary oxidative bursts in discrete cells in distant tissues, leading to low-frequency systemic micro-HRs. The primary oxidative burst induces these systemic responses, and both the primary burst and the secondary microbursts are required for systemic immunity. Hence, ROIs mediate a reiterative signal network underlying systemic as well as local resistance responses.

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A programmed cell death pathway activated in carrot cells cultured at low cell density

McCabe

et al. 1997

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Programmed cell death (PCD) occurs in plants during development and defense, but the processes and mechanisms are not yet defined. Culture of carrot single cells at a cell density of <104 cells ml−1 activates a cell death process involving condensation and shrinkage of the cytoplasm and nucleus and fragmentation of the DNA. Modest abiotic stress treatments also cause cell condensation and shrinkage and the formation of DNA fragments, but the same abiotic stresses at high levels cause rapid necrosis with cell swelling and lysis. The common morphological features of cells dying at low cell density and following modest abiotic stress treatments suggest that these features reveal a PCD pathway in carrot. The addition of a cell‐conditioned growth medium allows cells at low cell density to remain alive, demonstrating that cell‐derived signal molecules suppress a pathway that is otherwise induced by default. Differences in the morphology of the dead cells suggest that proteolysis during PCD differs in detail in plants and animals; however, these findings show that plants, like animals, can control PCD by social signaling, and imply that the mechanism of PCD in plants and animals may be similar. Consistent with this, manipulation of signal pathway intermediates that regulate PCD in animals shows that Ca2+ and protein phosphorylation events are PCD pathway intermediates in carrot.

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Isolation of Human Antibody Repertoires with Preservation of the Natural Heavy and Light Chain Pairing

Meijer

Andersen

Hansen

et al. 2006

Journal of Molecular Biology

122

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Rational identification of an optimal antibody mixture for targeting the epidermal growth factor receptor

Koefoed¹,

Steinaa²,

Søderberg³

et al. 2011

mAbs

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Per-Johan Meijer

Reactive Oxygen Intermediates Mediate a Systemic Signal Network in the Establishment of Plant Immunity

A programmed cell death pathway activated in carrot cells cultured at low cell density

Isolation of Human Antibody Repertoires with Preservation of the Natural Heavy and Light Chain Pairing

Rational identification of an optimal antibody mixture for targeting the epidermal growth factor receptor

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