Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity
Autor(a) principal: | |
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Data de Publicação: | 2011 |
Outros Autores: | , , |
Tipo de documento: | Artigo |
Idioma: | eng |
Título da fonte: | LOCUS Repositório Institucional da UFV |
Texto Completo: | http://dx.doi.org/10.1111/j.1365-3040.2011.02448.x http://www.locus.ufv.br/handle/123456789/12922 |
Resumo: | As water availability for agriculture decreases, breeding or engineering of crops with improved water use efficiency (WUE) will be necessary. As stomata are responsible for controlling gas exchange across the plant epidermis, meta- bolic processes influencing solute accumulation in guard cells are potential targets for engineering. In addition to its role as an osmoticum, sucrose breakdown may be required for synthesis of other osmotica or generation of the ATP needed for solute uptake. Thus, alterations in partitioning of sucrose between storage and breakdown may affect sto- matal function. In agreement with this hypothesis, potato (Solanum tuberosum) plants expressing an antisense con- struct targeted against sucrose synthase 3 (SuSy3) exhibited decreased stomatal conductance, a slight reduction in CO 2 fixation and increased WUE. Conversely, plants with increased guard cell acid invertase activity caused by the introduction of the SUC2 gene from yeast had in- creased stomatal conductance, increased CO 2 fixation and decreased WUE. 14 CO 2 feeding experiments indicated that these effects cannot be attributed to alterations in photo- synthetic capacity, and most likely reflect alterations in sto- matal function. These results highlight the important role that sucrose breakdown may play in guard cell function and indicate the feasibility of manipulating plant WUE through engineering of guard cell sucrose metabolism. |
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Antunes, Werner C.Provart, Nicholas J.William, Thomas C. R.Loureiro, Marcelo E.2017-11-08T16:49:46Z2017-11-08T16:49:46Z2011-11-231365-3040http://dx.doi.org/10.1111/j.1365-3040.2011.02448.xhttp://www.locus.ufv.br/handle/123456789/12922As water availability for agriculture decreases, breeding or engineering of crops with improved water use efficiency (WUE) will be necessary. As stomata are responsible for controlling gas exchange across the plant epidermis, meta- bolic processes influencing solute accumulation in guard cells are potential targets for engineering. In addition to its role as an osmoticum, sucrose breakdown may be required for synthesis of other osmotica or generation of the ATP needed for solute uptake. Thus, alterations in partitioning of sucrose between storage and breakdown may affect sto- matal function. In agreement with this hypothesis, potato (Solanum tuberosum) plants expressing an antisense con- struct targeted against sucrose synthase 3 (SuSy3) exhibited decreased stomatal conductance, a slight reduction in CO 2 fixation and increased WUE. Conversely, plants with increased guard cell acid invertase activity caused by the introduction of the SUC2 gene from yeast had in- creased stomatal conductance, increased CO 2 fixation and decreased WUE. 14 CO 2 feeding experiments indicated that these effects cannot be attributed to alterations in photo- synthetic capacity, and most likely reflect alterations in sto- matal function. These results highlight the important role that sucrose breakdown may play in guard cell function and indicate the feasibility of manipulating plant WUE through engineering of guard cell sucrose metabolism.engPlant, Cell and Environment35(4), p.747–759, November 2011Guard cellInvertaseSucrose synthaseChanges in stomatal function and water use efficiency in potato plants with altered sucrolytic activityinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleapplication/pdfinfo:eu-repo/semantics/openAccessreponame:LOCUS Repositório Institucional da UFVinstname:Universidade Federal de Viçosa (UFV)instacron:UFVORIGINALANTUNES_et_al-2012-Plant,_Cell_&_Environment.pdfANTUNES_et_al-2012-Plant,_Cell_&_Environment.pdftexto completoapplication/pdf389974https://locus.ufv.br//bitstream/123456789/12922/1/ANTUNES_et_al-2012-Plant%2c_Cell_%26_Environment.pdfcba3d0d70f1a9753689d003f259054feMD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://locus.ufv.br//bitstream/123456789/12922/2/license.txt8a4605be74aa9ea9d79846c1fba20a33MD52THUMBNAILANTUNES_et_al-2012-Plant,_Cell_&_Environment.pdf.jpgANTUNES_et_al-2012-Plant,_Cell_&_Environment.pdf.jpgIM Thumbnailimage/jpeg4761https://locus.ufv.br//bitstream/123456789/12922/3/ANTUNES_et_al-2012-Plant%2c_Cell_%26_Environment.pdf.jpg52ade0ab9bbff98e50af766b2ce3273bMD53123456789/129222017-11-08 22:00:59.342oai:locus.ufv.br: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Repositório InstitucionalPUBhttps://www.locus.ufv.br/oai/requestfabiojreis@ufv.bropendoar:21452017-11-09T01:00:59LOCUS Repositório Institucional da UFV - Universidade Federal de Viçosa (UFV)false |
dc.title.en.fl_str_mv |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
title |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
spellingShingle |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity Antunes, Werner C. Guard cell Invertase Sucrose synthase |
title_short |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
title_full |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
title_fullStr |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
title_full_unstemmed |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
title_sort |
Changes in stomatal function and water use efficiency in potato plants with altered sucrolytic activity |
author |
Antunes, Werner C. |
author_facet |
Antunes, Werner C. Provart, Nicholas J. William, Thomas C. R. Loureiro, Marcelo E. |
author_role |
author |
author2 |
Provart, Nicholas J. William, Thomas C. R. Loureiro, Marcelo E. |
author2_role |
author author author |
dc.contributor.author.fl_str_mv |
Antunes, Werner C. Provart, Nicholas J. William, Thomas C. R. Loureiro, Marcelo E. |
dc.subject.pt-BR.fl_str_mv |
Guard cell Invertase Sucrose synthase |
topic |
Guard cell Invertase Sucrose synthase |
description |
As water availability for agriculture decreases, breeding or engineering of crops with improved water use efficiency (WUE) will be necessary. As stomata are responsible for controlling gas exchange across the plant epidermis, meta- bolic processes influencing solute accumulation in guard cells are potential targets for engineering. In addition to its role as an osmoticum, sucrose breakdown may be required for synthesis of other osmotica or generation of the ATP needed for solute uptake. Thus, alterations in partitioning of sucrose between storage and breakdown may affect sto- matal function. In agreement with this hypothesis, potato (Solanum tuberosum) plants expressing an antisense con- struct targeted against sucrose synthase 3 (SuSy3) exhibited decreased stomatal conductance, a slight reduction in CO 2 fixation and increased WUE. Conversely, plants with increased guard cell acid invertase activity caused by the introduction of the SUC2 gene from yeast had in- creased stomatal conductance, increased CO 2 fixation and decreased WUE. 14 CO 2 feeding experiments indicated that these effects cannot be attributed to alterations in photo- synthetic capacity, and most likely reflect alterations in sto- matal function. These results highlight the important role that sucrose breakdown may play in guard cell function and indicate the feasibility of manipulating plant WUE through engineering of guard cell sucrose metabolism. |
publishDate |
2011 |
dc.date.issued.fl_str_mv |
2011-11-23 |
dc.date.accessioned.fl_str_mv |
2017-11-08T16:49:46Z |
dc.date.available.fl_str_mv |
2017-11-08T16:49:46Z |
dc.type.status.fl_str_mv |
info:eu-repo/semantics/publishedVersion |
dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article |
format |
article |
status_str |
publishedVersion |
dc.identifier.uri.fl_str_mv |
http://dx.doi.org/10.1111/j.1365-3040.2011.02448.x http://www.locus.ufv.br/handle/123456789/12922 |
dc.identifier.issn.none.fl_str_mv |
1365-3040 |
identifier_str_mv |
1365-3040 |
url |
http://dx.doi.org/10.1111/j.1365-3040.2011.02448.x http://www.locus.ufv.br/handle/123456789/12922 |
dc.language.iso.fl_str_mv |
eng |
language |
eng |
dc.relation.ispartofseries.pt-BR.fl_str_mv |
35(4), p.747–759, November 2011 |
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info:eu-repo/semantics/openAccess |
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openAccess |
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application/pdf |
dc.publisher.none.fl_str_mv |
Plant, Cell and Environment |
publisher.none.fl_str_mv |
Plant, Cell and Environment |
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