Down‐regulation of CBP80 gene expression as a strategy to engineer a drought‐tolerant potato

Summary Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down‐regulation of nuclear cap‐binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs....

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Published in	Plant biotechnology journal Vol. 11; no. 4; pp. 459 - 469
Main Authors	Pieczynski, Marcin, Marczewski, Waldemar, Hennig, Jacek, Dolata, Jakub, Bielewicz, Dawid, Piontek, Paulina, Wyrzykowska, Anna, Krusiewicz, Dominika, Strzelczyk‐Zyta, Danuta, Konopka‐Postupolska, Dorota, Krzeslowska, Magdalena, Jarmolowski, Artur, Szweykowska‐Kulinska, Zofia
Format	Journal Article
Language	English
Published	England John Wiley & Sons, Inc 01.05.2013
Subjects	ABA Arabidopsis Arabidopsis thaliana artificial microRNA CBP80 gene Cultivars Down-regulation Drought Drought resistance drought stress Droughts Evolutionary conservation Gene expression Gene Expression Regulation, Plant - genetics Gene Expression Regulation, Plant - physiology Localization Microchannels MicroRNAs miRNA Physiology Plant breeding Plant Proteins - genetics Plant Proteins - metabolism Plants (botany) Potatoes Proteins Signal transduction Solanum tuberosum (potato) Solanum tuberosum - genetics Solanum tuberosum - metabolism Stomata Transcription factors Transgenic plants Water stress United States > US
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Abstract	Summary Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down‐regulation of nuclear cap‐binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs. Transgenic plants displayed a higher tolerance to drought, ABA‐hypersensitive stomatal closing, an increase in leaf stomata and trichome density, and compact cuticle structures with a lower number of microchannels. These findings were correlated with a higher tolerance to water stress. The level of miR159 was decreased, and the levels of its target mRNAs MYB33 and MYB101 increased in the transgenic plants subjected to drought. Similar trends were observed in an Arabidopsis cbp80 mutant. The evolutionary conservation of CBP80, a gene that plays a role in the response to drought, suggests that it is a candidate for genetic manipulations that aim to obtain improved water‐deficit tolerance of crop plants.
AbstractList	Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down-regulation of nuclear cap-binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs. Transgenic plants displayed a higher tolerance to drought, ABA-hypersensitive stomatal closing, an increase in leaf stomata and trichome density, and compact cuticle structures with a lower number of microchannels. These findings were correlated with a higher tolerance to water stress. The level of miR159 was decreased, and the levels of its target mRNAs MYB33 and MYB101 increased in the transgenic plants subjected to drought. Similar trends were observed in an Arabidopsis cbp80 mutant. The evolutionary conservation of CBP80, a gene that plays a role in the response to drought, suggests that it is a candidate for genetic manipulations that aim to obtain improved water-deficit tolerance of crop plants. Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down-regulation of nuclear cap-binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs. Transgenic plants displayed a higher tolerance to drought, ABA-hypersensitive stomatal closing, an increase in leaf stomata and trichome density, and compact cuticle structures with a lower number of microchannels. These findings were correlated with a higher tolerance to water stress. The level of miR159 was decreased, and the levels of its target mRNAs MYB33 and MYB101 increased in the transgenic plants subjected to drought. Similar trends were observed in an Arabidopsis cbp80 mutant. The evolutionary conservation of CBP80, a gene that plays a role in the response to drought, suggests that it is a candidate for genetic manipulations that aim to obtain improved water-deficit tolerance of crop plants.Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down-regulation of nuclear cap-binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs. Transgenic plants displayed a higher tolerance to drought, ABA-hypersensitive stomatal closing, an increase in leaf stomata and trichome density, and compact cuticle structures with a lower number of microchannels. These findings were correlated with a higher tolerance to water stress. The level of miR159 was decreased, and the levels of its target mRNAs MYB33 and MYB101 increased in the transgenic plants subjected to drought. Similar trends were observed in an Arabidopsis cbp80 mutant. The evolutionary conservation of CBP80, a gene that plays a role in the response to drought, suggests that it is a candidate for genetic manipulations that aim to obtain improved water-deficit tolerance of crop plants. Summary Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down‐regulation of nuclear cap‐binding proteins in Arabidopsis renders plants drought tolerant. The CBP80 gene in the potato cultivar Desiree was silenced using artificial microRNAs. Transgenic plants displayed a higher tolerance to drought, ABA‐hypersensitive stomatal closing, an increase in leaf stomata and trichome density, and compact cuticle structures with a lower number of microchannels. These findings were correlated with a higher tolerance to water stress. The level of miR159 was decreased, and the levels of its target mRNAs MYB33 and MYB101 increased in the transgenic plants subjected to drought. Similar trends were observed in an Arabidopsis cbp80 mutant. The evolutionary conservation of CBP80, a gene that plays a role in the response to drought, suggests that it is a candidate for genetic manipulations that aim to obtain improved water‐deficit tolerance of crop plants.
Author	Konopka‐Postupolska, Dorota Bielewicz, Dawid Dolata, Jakub Piontek, Paulina Wyrzykowska, Anna Jarmolowski, Artur Krusiewicz, Dominika Szweykowska‐Kulinska, Zofia Krzeslowska, Magdalena Strzelczyk‐Zyta, Danuta Hennig, Jacek Pieczynski, Marcin Marczewski, Waldemar
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Snippet	Summary Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down‐regulation of nuclear cap‐binding... Developing new strategies for crop plants to respond to drought is crucial for their innovative breeding. The down-regulation of nuclear cap-binding proteins...
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SubjectTerms	ABA Arabidopsis Arabidopsis thaliana artificial microRNA CBP80 gene Cultivars Down-regulation Drought Drought resistance drought stress Droughts Evolutionary conservation Gene expression Gene Expression Regulation, Plant - genetics Gene Expression Regulation, Plant - physiology Localization Microchannels MicroRNAs miRNA Physiology Plant breeding Plant Proteins - genetics Plant Proteins - metabolism Plants (botany) Potatoes Proteins Signal transduction Solanum tuberosum (potato) Solanum tuberosum - genetics Solanum tuberosum - metabolism Stomata Transcription factors Transgenic plants Water stress
Title	Down‐regulation of CBP80 gene expression as a strategy to engineer a drought‐tolerant potato
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