2012
DOI: 10.1104/pp.112.205682
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Buffering Capacity Explains Signal Variation in Symbiotic Calcium Oscillations      

Abstract: Legumes form symbioses with rhizobial bacteria and arbuscular mycorrhizal fungi that aid plant nutrition. A critical component in the establishment of these symbioses is nuclear-localized calcium (Ca 2+ ) oscillations. Different components on the nuclear envelope have been identified as being required for the generation of the Ca 2+ oscillations. Among these an ion channel, Doesn't Make Infections1, is preferentially localized on the inner nuclear envelope and a Ca 2+ ATPase is localized on both the inner and … Show more

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Cited by 34 publications
(34 citation statements)
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“…Indeed, pharmacological and yeast expression analyses highlight that DMI1 might be a tight regulator of the yet unidentified symbiotic Ca 2+ channel (Peiter et al, 2007). In agreement with this observation, mathematical modeling reveals that the association of three components (DMI1, a putative voltage/ligand-activated Ca 2+ channel, and a Ca 2+ pump) is sufficient to produce the symbiotic Ca 2+ oscillations (Granqvist et al, 2012). This mathematical modeling suggests that DMI1 functions to regulate the Ca 2+ channel as a counter ion channel and a modulator of membrane potential in two steps (Charpentier et al, 2013).…”
Section: The Nuclear Machinery Required For Symbiotic Ca 2+ Responsesmentioning
confidence: 59%
See 1 more Smart Citation
“…Indeed, pharmacological and yeast expression analyses highlight that DMI1 might be a tight regulator of the yet unidentified symbiotic Ca 2+ channel (Peiter et al, 2007). In agreement with this observation, mathematical modeling reveals that the association of three components (DMI1, a putative voltage/ligand-activated Ca 2+ channel, and a Ca 2+ pump) is sufficient to produce the symbiotic Ca 2+ oscillations (Granqvist et al, 2012). This mathematical modeling suggests that DMI1 functions to regulate the Ca 2+ channel as a counter ion channel and a modulator of membrane potential in two steps (Charpentier et al, 2013).…”
Section: The Nuclear Machinery Required For Symbiotic Ca 2+ Responsesmentioning
confidence: 59%
“…1). Although mathematical modeling suggests that the short burst of oscillations can be generated by a different buffering capacity of the cell (Granqvist et al, 2012), the biological relevance of this initial rapid burst of Ca 2+ spikes remains to be determined. Initial studies of Ca 2+ oscillations induced at early stages of AM-fungal interactions before contact with the epidermal cell indicated differences to the Ca 2+ oscillations activated by Nod factor, providing the basis for hypothesizing that the specificity of symbiosis signaling may be encoded within the structure of the Ca 2+ response (Kosuta et al, 2008;Chabaud et al, 2011).…”
Section: The Nuclear Machinery Required For Symbiotic Ca 2+ Responsesmentioning
confidence: 99%
“…Elegant mathematical models have been developed to explain the mechanism of nuclear Ca 2+ spiking and the primary role of DMI1 (a nuclear envelope-localized cation channel) in its initiation and maintenance (13,18,(20)(21)(22). Downstream decoding of Ca 2+ spiking involves the nuclear Ca…”
mentioning
confidence: 99%
“…As explained in our recent study, we envisage the membrane potential of the nuclear envelope to be negatively charged on the nucleoplasmic side relative to the perinuclear space 3 . In this context our mathematical model reveals that Ca 2+ spiking is only initiated upon the simultaneous activation of both DMI1 and the Ca 2+ channel; we hypothesize that this may be triggered by unidentified symbiotic secondary messengers.…”
Section: Textmentioning
confidence: 63%
“…In a recent study 3 we presented a mathematical model based on three key components involved in the production of the Ca 2+ oscillations in the SYM pathway: a cation channel, 4 , 5 a Ca 2+ pump 2 and an as yet unidentified Ca 2+ channel 1 . The components involved in the model are located on the inner nuclear membrane 2 and therefore the model hypothesizes that the lumen of the nuclear envelope contiguous with the ER is the Ca 2+ store.…”
Section: Textmentioning
confidence: 99%