Abstract
Abstract
Background
The increase in atmospheric CO2 is causing a number of changes in plant growth such as increases in leaf area and number, branching, plant size and biomass, and growth rate. Despite the importance of stomatal responses to CO2, little is known about the genetic and molecular mechanisms that mediate stomatal development and movement in response to CO2 levels. Deciphering the mechanisms that sense changes in CO2 and/or HCO3− concentration is critical for unraveling the role of CO2 in stomatal development movement. In Arabidopsis, CO2-induced stomatal closure is strongly Ca2+-dependent. To further dissect this signaling pathway and identify new components in the CO2 response pathway, we recorded [Ca2+]cyt changes in mutagenized Arabidopsis leaves and screened for mutants with abnormal guard cell behavior in response to CO2/HCO3−.
Results
We observed that 1 mM HCO3− induces [Ca2+]cys transient changes in guard cells and stomatal closure both in light and darkness. The changes in [Ca2+]cys induced by HCO3− could be detected by an aequorin-based calcium imaging system. Using this system, we identified a number of Arabidopsis mutants defective in both [Ca2+]cyt changes and the stomatal response to CO2/HCO3−.
Conclusions
We provide a sensitive method for isolating stomatal CO2/HCO3− response genes that function early in stomatal closure and that have a role in regulating [Ca2+]cyt. This method will be helpful in elucidating the Ca2+-dependent regulation of guard cell behavior in response to CO2/HCO3−.
Funder
National Natural Science Foundation of China
Education Department of Henan Province
Publisher
Springer Science and Business Media LLC
Subject
Plant Science,Genetics,Biotechnology
Cited by
9 articles.
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