2000
DOI: 10.1105/tpc.12.7.1127
|View full text |Cite
|
Sign up to set email alerts
|

Ca2+-Stimulated Exocytosis in Maize Coleoptile Cells

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1

Citation Types

0
22
0

Year Published

2002
2002
2018
2018

Publication Types

Select...
3
2
2

Relationship

0
7

Authors

Journals

citations
Cited by 26 publications
(22 citation statements)
references
References 24 publications
0
22
0
Order By: Relevance
“…For example, if a large number of water-permeable vesicles fused simultaneously and abruptly with the cell membrane, this step-wise increase in P f would result in an appreciable P f i : The suggested abrupt vesicle fusion may resemble-perhaps on a somewhat slower time scale-a synaptic event, in which fusion of hundreds of vesicles can occur over a course of a few milliseconds in response to a signal. In fact, intracellular pressure pulses in guard-cell protoplasts stimulated fast vesicle fusion with the plasma membrane (Bick et al, 2001); similarly, fast increase in cytosolic [Ca 21 ] caused fast exocytosis in maize coleoptile cells (Sutter et al, 2000), and vigorous, fast, and reversible membrane internalization upon shrinking has been visualized very recently in intact guard cells (Shope et al, 2003). Vesicle fusion may alter P f by changing the membrane density of aquaporin proteins (further level of complexity might be added by the nonhomogeneity of vesicle pools; Sutter et al, 2000) and, additionally, P f could also change via the regulation of the activity of aquaporins already embedded in the cell membrane.…”
Section: Models Of Volume Increasementioning
confidence: 99%
See 3 more Smart Citations
“…For example, if a large number of water-permeable vesicles fused simultaneously and abruptly with the cell membrane, this step-wise increase in P f would result in an appreciable P f i : The suggested abrupt vesicle fusion may resemble-perhaps on a somewhat slower time scale-a synaptic event, in which fusion of hundreds of vesicles can occur over a course of a few milliseconds in response to a signal. In fact, intracellular pressure pulses in guard-cell protoplasts stimulated fast vesicle fusion with the plasma membrane (Bick et al, 2001); similarly, fast increase in cytosolic [Ca 21 ] caused fast exocytosis in maize coleoptile cells (Sutter et al, 2000), and vigorous, fast, and reversible membrane internalization upon shrinking has been visualized very recently in intact guard cells (Shope et al, 2003). Vesicle fusion may alter P f by changing the membrane density of aquaporin proteins (further level of complexity might be added by the nonhomogeneity of vesicle pools; Sutter et al, 2000) and, additionally, P f could also change via the regulation of the activity of aquaporins already embedded in the cell membrane.…”
Section: Models Of Volume Increasementioning
confidence: 99%
“…In fact, intracellular pressure pulses in guard-cell protoplasts stimulated fast vesicle fusion with the plasma membrane (Bick et al, 2001); similarly, fast increase in cytosolic [Ca 21 ] caused fast exocytosis in maize coleoptile cells (Sutter et al, 2000), and vigorous, fast, and reversible membrane internalization upon shrinking has been visualized very recently in intact guard cells (Shope et al, 2003). Vesicle fusion may alter P f by changing the membrane density of aquaporin proteins (further level of complexity might be added by the nonhomogeneity of vesicle pools; Sutter et al, 2000) and, additionally, P f could also change via the regulation of the activity of aquaporins already embedded in the cell membrane. Finally, the swelling in response to the hypoosmotic challenge could occur immediately or after a delay during which the initial steps of the response did not reach a certain threshold.…”
Section: Models Of Volume Increasementioning
confidence: 99%
See 2 more Smart Citations
“…Elevation of [Ca 2+ ] cyt induced by auxin is shown to be in the range of about 100 nM (Felle, 1988;Shishova and Lindberg, 2004). This is enough to activate the secretory system within 10-20 s after the increase in Ca 2+ concentration (Sutter, Homann, and Thiel, 2000). The elongation process is accompanied by a fast increase in the cell surface and supported by the building of a new cell wall, which is strongly dependent on vesical secretion from the Golgi apparatus.…”
Section: Plant Sciencementioning
confidence: 92%