2019
DOI: 10.1093/jxb/erz521
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The role of P-type IIA and P-type IIB Ca2+-ATPases in plant development and growth

Abstract: As sessile organisms, plants have evolved mechanisms to adapt to variable and rapidly fluctuating environmental conditions. Calcium (Ca2+) in plant cells is a versatile intracellular second messenger that is essential for stimulating short- and long-term responses to environmental stresses through changes in its concentration in the cytosol ([Ca2+]cyt). Increases in [Ca2+]cyt direct the strength and length of these stimuli. In order to terminate them, the cells must then remove the cytosolic Ca2+ against a con… Show more

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Cited by 49 publications
(25 citation statements)
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“…Ca 2+ -permeable channels are grouped in five families: cyclic nucleotide-gated channels (CNGCs), glutamate receptors-like channels (GLRs), two-pore channels (TPCs), mechanosensitive channels (MCAs), hyperosmolality gated channels (OSCAs) (Demidchik et al, 2018). Ca 2+ transport off the cytosol to restore the resting [Ca 2+ ] cyt is mediated by energydriven pumps/transporters belonging to the P-type ATPases, such as P1B-type calcium/heavy metal cation-transporting ATPase (AtHMA1), P2A-type calcium cation-transporting ATPase (ECAs) and P2B-type calcium cation-transporting ATPase (ACAs) (García Bossi et al, 2020). Other Ca 2+ transporters are grouped in the CaCA family (CAX-type proton:calcium cation exchanger, CCX-type cation:calcium cation exchanger, MHX-type proton:magnesium cation exchanger, NCL/EF-CAX-type cation exchanger, EF-CAXtype cation exchanger) (Pittman and Hirschi, 2016) and CaCA2 family (PAM71-type manganese/calcium cation transporter).…”
Section: Current Knowledge Of the Molecular Players Involved In Ca 2+mentioning
confidence: 99%
“…Ca 2+ -permeable channels are grouped in five families: cyclic nucleotide-gated channels (CNGCs), glutamate receptors-like channels (GLRs), two-pore channels (TPCs), mechanosensitive channels (MCAs), hyperosmolality gated channels (OSCAs) (Demidchik et al, 2018). Ca 2+ transport off the cytosol to restore the resting [Ca 2+ ] cyt is mediated by energydriven pumps/transporters belonging to the P-type ATPases, such as P1B-type calcium/heavy metal cation-transporting ATPase (AtHMA1), P2A-type calcium cation-transporting ATPase (ECAs) and P2B-type calcium cation-transporting ATPase (ACAs) (García Bossi et al, 2020). Other Ca 2+ transporters are grouped in the CaCA family (CAX-type proton:calcium cation exchanger, CCX-type cation:calcium cation exchanger, MHX-type proton:magnesium cation exchanger, NCL/EF-CAX-type cation exchanger, EF-CAXtype cation exchanger) (Pittman and Hirschi, 2016) and CaCA2 family (PAM71-type manganese/calcium cation transporter).…”
Section: Current Knowledge Of the Molecular Players Involved In Ca 2+mentioning
confidence: 99%
“…ACA-type (plasma membrane-based) Ca 2+ -ATPases are essential component of the polarized cell growth. Four ACAs (ACA2, 7, 9, 11) are highly expressed during most of the pollen developmental stages (García Bossi et al, 2020), and insertional mutants of ACA9 show reduced pollen tube growth (Schiøtt et al, 2004). Ca 2+ -ATPases are also essential for a root hair growth.…”
Section: Discussionmentioning
confidence: 99%
“…In plants, as in animals, Ca 2+ -ATPases are also crucial in maintaining Ca 2+ homeostasis within the different intracellular compartments, by controlling Ca 2+ efflux from the cytosol to organelles and/or to the extracellular space. Plants contain P-type ATPases, grouped as P-IIA ER-type Ca 2+ -ATPases (ECAs), mainly localized in the ER and Golgi apparatus, and P-IIB autoinhibited Ca 2+ -ATPases (ACAs), found mainly in the plasma membrane but also in the ER, vacuoles, and chloroplast membranes ( García Bossi et al , 2020 ). Three homologues of Arabidopsis ACAs and two for ECAs were found in C. reinhardtii , having a possible role in the reuptake of cytosolic Ca 2+ against its concentration gradient.…”
Section: The Candidate Algal Calcium Stores: Contractive Vacuoles Acidocalcisomes and The Endoplasmic Reticulummentioning
confidence: 99%
“…Three homologues of Arabidopsis ACAs and two for ECAs were found in C. reinhardtii , having a possible role in the reuptake of cytosolic Ca 2+ against its concentration gradient. ACA- and/or ECA-mediated Ca 2+ active transport could have a signalling function, removing this secondary messenger from the cell or storing it in organelles, such as the ER, vacuoles, chloroplast, or mitochondria ( García Bossi et al , 2020 ). The subcellular localization and characterization of these Ca 2+ -ATPases in C. reinhardtii needs to be elucidated, possibly clarifying their role in organellar Ca 2+ signalling and homeostasis.…”
Section: The Candidate Algal Calcium Stores: Contractive Vacuoles Acidocalcisomes and The Endoplasmic Reticulummentioning
confidence: 99%