Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2003 |
| Outros Autores: | , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | LOCUS Repositório Institucional da UFV |
| Texto Completo: | https://doi.org/10.1104/pp.15.01053 http://www.locus.ufv.br/handle/123456789/12429 |
Resumo: | Stomata control the exchange of CO 2 and water vapor in land plants. Thus, whereas a constant supply of CO 2 is required to maintain adequate rates of photosynthesis, the accompanying water losses must be tightly regulated to prevent dehydration and undesired metabolic changes. Accordingly, the uptake or release of ions and metabolites from guard cells is necessary to achieve normal stomatal function. The AtQUAC1, an R-type anion channel responsible for the release of malate from guard cells, is essential for efficient stomatal closure. Here, we demonstrate that mutant plants lacking AtQUAC1 accumulated higher levels of malate and fumarate. These mutant plants not only display slower stomatal closure in response to increased CO 2 concentration and dark but are also characterized by improved mesophyll conductance. These responses were accompanied by increases in both photosynthesis and respiration rates, without affecting the activity of photosynthetic and respiratory enzymes and the expression of other transporter genes in guard cells, which ultimately led to improved growth. Collectively, our results highlight that the transport of organic acids plays a key role in plant cell metabolism and demonstrate that AtQUAC1 reduce diffusive limitations to photosynthesis, which, at least partially, explain the observed increments in growth under well-watered conditions. |
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Medeiros, David B.Martins, Samuel C.V.Cavalcanti, João Henrique F.Daloso, Danilo M.Martinoia, EnricoNunes-Nesi, AdrianoDaMatta, Fábio M.Fernie, Alisdair R.Araújo, Wagner L.2017-10-26T12:23:33Z2017-10-26T12:23:33Z2003-11-3015322548https://doi.org/10.1104/pp.15.01053http://www.locus.ufv.br/handle/123456789/12429Stomata control the exchange of CO 2 and water vapor in land plants. Thus, whereas a constant supply of CO 2 is required to maintain adequate rates of photosynthesis, the accompanying water losses must be tightly regulated to prevent dehydration and undesired metabolic changes. Accordingly, the uptake or release of ions and metabolites from guard cells is necessary to achieve normal stomatal function. The AtQUAC1, an R-type anion channel responsible for the release of malate from guard cells, is essential for efficient stomatal closure. Here, we demonstrate that mutant plants lacking AtQUAC1 accumulated higher levels of malate and fumarate. These mutant plants not only display slower stomatal closure in response to increased CO 2 concentration and dark but are also characterized by improved mesophyll conductance. These responses were accompanied by increases in both photosynthesis and respiration rates, without affecting the activity of photosynthetic and respiratory enzymes and the expression of other transporter genes in guard cells, which ultimately led to improved growth. Collectively, our results highlight that the transport of organic acids plays a key role in plant cell metabolism and demonstrate that AtQUAC1 reduce diffusive limitations to photosynthesis, which, at least partially, explain the observed increments in growth under well-watered conditions.engPlant PhysiologyV.170, n.1, p.86–101, January 2016Enhanced photosynthesisGrowth in atquac1Altered organic acid accumulationStomatal and mesophyll conductanceKnockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductanceinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleapplication/pdfinfo:eu-repo/semantics/openAccessreponame:LOCUS Repositório Institucional da UFVinstname:Universidade Federal de Viçosa (UFV)instacron:UFVORIGINAL86.full.pdf86.full.pdftexto completoapplication/pdf1416434https://locus.ufv.br//bitstream/123456789/12429/1/86.full.pdf20be136f178d3ce0e0f46e7f75d33033MD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://locus.ufv.br//bitstream/123456789/12429/2/license.txt8a4605be74aa9ea9d79846c1fba20a33MD52THUMBNAIL86.full.pdf.jpg86.full.pdf.jpgIM Thumbnailimage/jpeg5183https://locus.ufv.br//bitstream/123456789/12429/3/86.full.pdf.jpgd09cdf955c5ff562b0d6c18333708523MD53123456789/124292017-10-26 22:00:35.962oai:locus.ufv.br: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Repositório InstitucionalPUBhttps://www.locus.ufv.br/oai/requestfabiojreis@ufv.bropendoar:21452017-10-27T01:00:35LOCUS Repositório Institucional da UFV - Universidade Federal de Viçosa (UFV)false |
| dc.title.en.fl_str_mv |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| title |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| spellingShingle |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance Medeiros, David B. Enhanced photosynthesis Growth in atquac1 Altered organic acid accumulation Stomatal and mesophyll conductance |
| title_short |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| title_full |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| title_fullStr |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| title_full_unstemmed |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| title_sort |
Knockout mutants are due to altered organic acid accumulation and an increase in both stomatal and mesophyll conductance |
| author |
Medeiros, David B. |
| author_facet |
Medeiros, David B. Martins, Samuel C.V. Cavalcanti, João Henrique F. Daloso, Danilo M. Martinoia, Enrico Nunes-Nesi, Adriano DaMatta, Fábio M. Fernie, Alisdair R. Araújo, Wagner L. |
| author_role |
author |
| author2 |
Martins, Samuel C.V. Cavalcanti, João Henrique F. Daloso, Danilo M. Martinoia, Enrico Nunes-Nesi, Adriano DaMatta, Fábio M. Fernie, Alisdair R. Araújo, Wagner L. |
| author2_role |
author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Medeiros, David B. Martins, Samuel C.V. Cavalcanti, João Henrique F. Daloso, Danilo M. Martinoia, Enrico Nunes-Nesi, Adriano DaMatta, Fábio M. Fernie, Alisdair R. Araújo, Wagner L. |
| dc.subject.pt-BR.fl_str_mv |
Enhanced photosynthesis Growth in atquac1 Altered organic acid accumulation Stomatal and mesophyll conductance |
| topic |
Enhanced photosynthesis Growth in atquac1 Altered organic acid accumulation Stomatal and mesophyll conductance |
| description |
Stomata control the exchange of CO 2 and water vapor in land plants. Thus, whereas a constant supply of CO 2 is required to maintain adequate rates of photosynthesis, the accompanying water losses must be tightly regulated to prevent dehydration and undesired metabolic changes. Accordingly, the uptake or release of ions and metabolites from guard cells is necessary to achieve normal stomatal function. The AtQUAC1, an R-type anion channel responsible for the release of malate from guard cells, is essential for efficient stomatal closure. Here, we demonstrate that mutant plants lacking AtQUAC1 accumulated higher levels of malate and fumarate. These mutant plants not only display slower stomatal closure in response to increased CO 2 concentration and dark but are also characterized by improved mesophyll conductance. These responses were accompanied by increases in both photosynthesis and respiration rates, without affecting the activity of photosynthetic and respiratory enzymes and the expression of other transporter genes in guard cells, which ultimately led to improved growth. Collectively, our results highlight that the transport of organic acids plays a key role in plant cell metabolism and demonstrate that AtQUAC1 reduce diffusive limitations to photosynthesis, which, at least partially, explain the observed increments in growth under well-watered conditions. |
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2003 |
| dc.date.issued.fl_str_mv |
2003-11-30 |
| dc.date.accessioned.fl_str_mv |
2017-10-26T12:23:33Z |
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2017-10-26T12:23:33Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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15322548 |
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15322548 |
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https://doi.org/10.1104/pp.15.01053 http://www.locus.ufv.br/handle/123456789/12429 |
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eng |
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V.170, n.1, p.86–101, January 2016 |
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