%0 Journal Article %1 ISI:000252803600006 %A Felle, Hubert H. %A Herrmann, Almut %A Schaefer, Patrick %A Hueckelhoven, Ralph %A Kogel, Karl-Heinz %D 2008 %J JOURNAL OF PLANT PHYSIOLOGY %K IFZ apoplastic_pH barley compatibility resistance surface_pH %N 1 %P 52-59 %T Interactive signal transfer between host and pathogen during successful infection of barley leaves by Blumeria graminis and Bipolaris sorokiniana %V 165 %X Using ion-selective microprobes, interactive signalling between barley and Blumeria graminis or Bipolaris sorokiniana has been investigated. The question was raised whether a biotrophically growing fungus manipulates the electrical driving forces (membrane potential., transmembrane pH), required for H+ cotransport of energy-rich compounds. Electrodes were positioned in the substomatal cavity of open stomata or on the leaf surface, and pH was measured continuously up to several days during fungal development. We demonstrate that surface and apoplastic fluids are electrically coupled and respond in a similar manner to stimuli. Apoplastic pH, monitored from the moment of inoculation with conidia, reveals several phases: 2-4 h after inoculation of the barley leaf with either fungus, the host displays rapid transient responses after its first contact with the fungal cell wall; apoplastic pH and pCa increases, cytoplasmic pH and pCa decreases. About 1 day after inoculation, the apoplastic pH increases by up to 2 pH units, which is thought to reflect a resistance response against the intruder. Whereas barley leaf cells possess a membrane potential of -152 +/- 5 mV, hyphae of B. graminis yield -251 +/- 8 mV, indicative of a substantial driving force advantage for the fungus. Although the resting membrane potential of barley remains constant during the first days after inoculation, leaves infected with B. sorokiniona get confronted with an energy problem, indicated by a retarded repolarization following a ��light-off" stimulus. Five days

@article{ISI:000252803600006, abstract = {Using ion-selective microprobes, interactive signalling between barley and Blumeria graminis or Bipolaris sorokiniana has been investigated. The question was raised whether a biotrophically growing fungus manipulates the electrical driving forces (membrane potential., transmembrane pH), required for H+ cotransport of energy-rich compounds. Electrodes were positioned in the substomatal cavity of open stomata or on the leaf surface, and pH was measured continuously up to several days during fungal development. We demonstrate that surface and apoplastic fluids are electrically coupled and respond in a similar manner to stimuli. Apoplastic pH, monitored from the moment of inoculation with conidia, reveals several phases: 2-4 h after inoculation of the barley leaf with either fungus, the host displays rapid transient responses after its first contact with the fungal cell wall; apoplastic pH and pCa increases, cytoplasmic pH and pCa decreases. About 1 day after inoculation, the apoplastic pH increases by up to 2 pH units, which is thought to reflect a resistance response against the intruder. Whereas barley leaf cells possess a membrane potential of -152 +/- 5 mV, hyphae of B. graminis yield -251 +/- 8 mV, indicative of a substantial driving force advantage for the fungus. Although the resting membrane potential of barley remains constant during the first days after inoculation, leaves infected with B. sorokiniona get confronted with an energy problem, indicated by a retarded repolarization following a ��light-off" stimulus. Five days}, added-at = {2008-05-14T10:24:29.000+0200}, author = {Felle, Hubert H. and Herrmann, Almut and Schaefer, Patrick and Hueckelhoven, Ralph and Kogel, Karl-Heinz}, biburl = {https://www.bibsonomy.org/bibtex/20f83480e26828e1c62126220c907388d/ipazphyto}, interhash = {9e8dbe4b9179b4b3dcd092843ba90471}, intrahash = {0f83480e26828e1c62126220c907388d}, issn = {0176-1617}, journal = {JOURNAL OF PLANT PHYSIOLOGY}, keywords = {IFZ apoplastic_pH barley compatibility resistance surface_pH}, number = 1, pages = {52-59}, timestamp = {2008-07-18T14:08:24.000+0200}, title = {Interactive signal transfer between host and pathogen during successful infection of barley leaves by Blumeria graminis and Bipolaris sorokiniana}, volume = 165, year = 2008 }