Plant aquaporins: Roles in plant physiology
Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms. Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with...
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| Published in | Biochimica et biophysica acta Vol. 1840; no. 5; pp. 1574 - 1582 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Netherlands
Elsevier B.V
01.05.2014
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0304-4165 0006-3002 1872-8006 |
| DOI | 10.1016/j.bbagen.2013.11.004 |
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| Abstract | Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.
Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts.
In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots.
Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins.
•The multiplicity of aquaporins in plants reflects a high diversity of cellular localizations and substrates.•Aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves.•Aquaporins mediate regulation of water transport in response to multiple environmental and hormonal stimuli. |
|---|---|
| AbstractList | BACKGROUND: Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms. SCOPE OF REVIEW: Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts. MAJOR CONCLUSIONS: In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots. GENERAL SIGNIFICANCE: Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.BACKGROUNDAquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts.SCOPE OF REVIEWHere, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts.In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots.MAJOR CONCLUSIONSIn plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots.Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins.GENERAL SIGNIFICANCEPlants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts.In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots.Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms. Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts. In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots. Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms. Here, we present comprehensive insights made on plant aquaporins in recent years, pointing to their molecular and physiological specificities with respect to animal or microbial counterparts. In plants, aquaporins occur as multiple isoforms reflecting a high diversity of cellular localizations and various physiological substrates in addition to water. Of particular relevance for plants is the transport by aquaporins of dissolved gases such as carbon dioxide or metalloids such as boric or silicic acid. The mechanisms that determine the gating and subcellular localization of plant aquaporins are extensively studied. They allow aquaporin regulation in response to multiple environmental and hormonal stimuli. Thus, aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves. They contribute to several plant growth and developmental processes such as seed germination or emergence of lateral roots. Plants with genetically altered aquaporin functions are now tested for their ability to improve plant resistance to stresses. This article is part of a Special Issue entitled Aquaporins. •The multiplicity of aquaporins in plants reflects a high diversity of cellular localizations and substrates.•Aquaporins play key roles in hydraulic regulation and nutrient transport in roots and leaves.•Aquaporins mediate regulation of water transport in response to multiple environmental and hormonal stimuli. |
| Author | Li, Guowei Maurel, Christophe Santoni, Véronique |
| Author_xml | – sequence: 1 givenname: Guowei surname: Li fullname: Li, Guowei – sequence: 2 givenname: Véronique surname: Santoni fullname: Santoni, Véronique – sequence: 3 givenname: Christophe surname: Maurel fullname: Maurel, Christophe email: maurel@supagro.inra.fr |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24246957$$D View this record in MEDLINE/PubMed https://hal.science/hal-00962141$$DView record in HAL |
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| Keywords | Plant signaling Root Hydraulics Water transport Genetic diversity Nutrient acquisition Aquaporin Stress |
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| Snippet | Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.
Here,... Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living... Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living organisms.Here,... BACKGROUND: Aquaporins are membrane channels that facilitate the transport of water and small neutral molecules across biological membranes of most living... |
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| SubjectTerms | animals Aquaporin aquaporins Aquaporins - physiology Biological Transport carbon dioxide dissolved gases Genetic diversity Hydraulics leaves Life Sciences metalloids Nutrient acquisition nutrient transport plant growth Plant Physiological Phenomena Plant signaling Plants - metabolism Root roots seed germination silicic acid Stress Vegetal Biology Water - metabolism Water transport |
| Title | Plant aquaporins: Roles in plant physiology |
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