Calcium-Dependent and -Independent Stomatal Signaling Network and Compensatory Feedback Control of Stomatal Opening via Ca2+ Sensitivity Priming | Zendy

Kristiina Laanemets | Zendy; Benjamin Brandt | Zendy; Junlin Li | Zendy; Ebe Merilo | Zendy; YongFei Wang | Zendy; Malik M. Keshwani | Zendy; Susan S. Taylor | Zendy; Hannes Kollist | Zendy; Julian I. Schroeder | Zendy

Open Access

Calcium-Dependent and -Independent Stomatal Signaling Network and Compensatory Feedback Control of Stomatal Opening via Ca2+ Sensitivity Priming

Author(s) -

Kristiina Laanemets,

Benjamin Brandt,

Junlin Li,

Ebe Merilo,

YongFei Wang,

Malik M. Keshwani,

Susan S. Taylor,

Hannes Kollist,

Julian I. Schroeder

Publication year - 2013

Publication title -

plant physiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.554

H-Index - 312

eISSN - 1532-2548

pISSN - 0032-0889

DOI - 10.1104/pp.113.220343

Subject(s) - guard cell , feedback control , calcium , sensitivity (control systems) , guard (computer science) , priming (agriculture) , biology , control theory (sociology) , neuroscience , biophysics , botany , chemistry , control (management) , computer science , germination , artificial intelligence , engineering , organic chemistry , control engineering , electronic engineering , programming language

Guard cells use compensatory feedback controls to adapt to conditions that produce excessively open stomata.

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