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Rapid wound responses ofSaprolegnia ferax hyphae depend upon actin and Ca2+-involving deposition of callose plugs (2000)

Levina, N. N. ; Heath, I. B. ; Lew, R. R.

Springer

Protoplasma 214 (2000), S. 199-209

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ISSN: 1615-6102

Keywords: Actin ; Callose ; Coenocyte ; Hypha ; Membrane potential ; Oomycetes ; Wound response

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Growing hyphae of the oomyceteSaprolegnia ferax wounded by impalement with a ca. 0.2 μm diameter glass microelectrode normally respond within seconds with an apically directed cytoplasmic contraction followed by production of a plug which encases the electrode and occludes its recording of transmembrane potentials. This plug contains callose and Ca2+-associated membranes. To characterize the rapid wounding response, we disrupted specific filamentous (F) actin populations and Ca2+ regulation. Plug formation is inhibited by disruption of F-actin populations and low exogenous Ca2+ but not by inhibition of stretch-activated Ca2+ channels with Gd3+. Therefore, stretch-activated channels are not the immediate sensor. Instead, sensing may involve strain on the actin cytoskeleton which triggers the occlusion response. This wound response is qualitatively similar to the production of septa which isolate developing sporangia and seal severed hyphae, indicating the use of a normal basic cellular developmental system as a protective mechanism against environmental damage. The wound response is essential, since an inability to seal sites of mechanical damage is potentially catastrophic in acellular coenocytic organisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279064

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UV microirradiation implicates F-actin in reinforcing growing hyphal tips (1993)

Jackson, Sandra L. ; Heath, I. B.

Springer

Protoplasma 175 (1993), S. 67-74

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ISSN: 1615-6102

Keywords: Tip growth ; Actin ; UV microirradiation ; Apical bursting ; Saprolegnia ferax

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The cell walls of plants and fungi are thought to provide the strength required to resist turgor and thus maintain the integrity and morphology of these cells. However, during growth, walls must undergo rapid expansion which requires them to be plastic and therefore weak. In most tip-growing cells there is an apical concentration of F-actin associated with the rapidly expanding cell wall. Disruption of F-actin in the growing tips of hyphae ofSaprolegnia ferax by a localized irradiation, beginning 2–6 μm behind the apex, with actin-selective 270 nm uv light caused the hyphae to burst, suggesting that actin supports the weak apical wall against turgor pressure. Bursting was pH dependent and Ca2+ independent at neutral pH. Hyphae burst in the very tip, where the cell wall is expected to be weakest and actin is most concentrated, as opposed to the lower part of the apical taper where osmotic shock induces bursting when actin is intact. When hyphae were irradiated with a wavelength of light that is less effective at disrupting actin, growth was slowed but they failed to burst, demonstrating that bursting was most likely due to F-actin damage. We conclude that F-actin reinforces the expanding apical wall in growing hyphae and may be the prime stress bearing structure resisting turgor pressure in tip growing cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01403285

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