Overexpression of plastidial thioredoxin f leads to enhanced starch accumulation in tobacco leaves

Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first‐generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynt...

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Published inPlant biotechnology journal Vol. 11; no. 5; pp. 618 - 627
Main Authors Sanz‐Barrio, Ruth, Corral‐Martinez, Patricia, Ancin, Maria, Segui‐Simarro, Jose M., Farran, Inmaculada
Format Journal Article
LanguageEnglish
Published England John Wiley & Sons, Inc 01.06.2013
Subjects
Accumulation
bioethanol feedstock
Biofuels
Biosynthesis
Carbohydrate Metabolism - radiation effects
Carbohydrates
Chloroplast Thioredoxins - metabolism
chloroplast transformation
Chloroplasts
Crops
Energy crops
Enzymes
Ethanol - metabolism
Fermentation - radiation effects
Gene Expression Regulation, Plant - radiation effects
Genes, Plant - genetics
Glucose
Glucose-1-Phosphate Adenylyltransferase - metabolism
Hydrolysis - radiation effects
Leaves
Light
Metabolism
Metabolites
Nicotiana - genetics
Nicotiana - metabolism
Nicotiana - radiation effects
Oxidation-Reduction - radiation effects
Phenotype
Phosphatase
Photosynthesis
Plant Leaves - enzymology
Plant Leaves - metabolism
Plant Leaves - radiation effects
Plant Leaves - ultrastructure
Plants
Plants (botany)
Plants, Genetically Modified
Plastids - metabolism
Plastids - radiation effects
Plastids - ultrastructure
Potatoes
Proteins
Starch
Starch - metabolism
Sucrose
Sugar
Thioredoxin
Tobacco
United States > US
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Abstract Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first‐generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynthetic metabolism. Redox regulation has been associated with the coordination of the enzymes involved in starch metabolism, but neither the signals nor mechanisms that regulate this metabolism are entirely clear. In this work, the thioredoxin (Trx) f and m genes, which code for key enzymes in plastid redox regulation, were overexpressed from the plastid genome. Tobacco plants overexpressing Trx f, but not Trx m, showed an increase of up to 700% in leaf starch accumulation, accompanied by an increase in leaf sugars, specific leaf weight (SLW), and leaf biomass yield. To test the potential of these plants as a nonfood energy crop, tobacco leaves overexpressing Trx f were subjected to enzymatic hydrolysis, and around a 500% increase in the release of fermentable sugars was recorded. The results show that Trx f is a more effective regulator of photosynthetic carbon metabolism in planta than Trx m. The overexpression of Trx f might therefore provide a means of increasing the carbohydrate content of plants destined for use in biofuel production. It might also provide a means of improving the nutritional properties of staple food crops.
AbstractList Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first-generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynthetic metabolism. Redox regulation has been associated with the coordination of the enzymes involved in starch metabolism, but neither the signals nor mechanisms that regulate this metabolism are entirely clear. In this work, the thioredoxin (Trx) f and m genes, which code for key enzymes in plastid redox regulation, were overexpressed from the plastid genome. Tobacco plants overexpressing Trx f, but not Trx m, showed an increase of up to 700% in leaf starch accumulation, accompanied by an increase in leaf sugars, specific leaf weight (SLW), and leaf biomass yield. To test the potential of these plants as a nonfood energy crop, tobacco leaves overexpressing Trx f were subjected to enzymatic hydrolysis, and around a 500% increase in the release of fermentable sugars was recorded. The results show that Trx f is a more effective regulator of photosynthetic carbon metabolism in planta than Trx m. The overexpression of Trx f might therefore provide a means of increasing the carbohydrate content of plants destined for use in biofuel production. It might also provide a means of improving the nutritional properties of staple food crops.
Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first-generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynthetic metabolism. Redox regulation has been associated with the coordination of the enzymes involved in starch metabolism, but neither the signals nor mechanisms that regulate this metabolism are entirely clear. In this work, the thioredoxin ( T rx) f and m genes, which code for key enzymes in plastid redox regulation, were overexpressed from the plastid genome. Tobacco plants overexpressing T rx f, but not T rx m, showed an increase of up to 700% in leaf starch accumulation, accompanied by an increase in leaf sugars, specific leaf weight ( SLW ), and leaf biomass yield. To test the potential of these plants as a nonfood energy crop, tobacco leaves overexpressing T rx f were subjected to enzymatic hydrolysis, and around a 500% increase in the release of fermentable sugars was recorded. The results show that T rx f is a more effective regulator of photosynthetic carbon metabolism in planta than T rx m. The overexpression of T rx f might therefore provide a means of increasing the carbohydrate content of plants destined for use in biofuel production. It might also provide a means of improving the nutritional properties of staple food crops.
Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first‐generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynthetic metabolism. Redox regulation has been associated with the coordination of the enzymes involved in starch metabolism, but neither the signals nor mechanisms that regulate this metabolism are entirely clear. In this work, the thioredoxin ( T rx) f and m genes , which code for key enzymes in plastid redox regulation, were overexpressed from the plastid genome. Tobacco plants overexpressing T rx f, but not T rx m , showed an increase of up to 700% in leaf starch accumulation, accompanied by an increase in leaf sugars, specific leaf weight ( SLW ), and leaf biomass yield. To test the potential of these plants as a nonfood energy crop, tobacco leaves overexpressing T rx f were subjected to enzymatic hydrolysis, and around a 500% increase in the release of fermentable sugars was recorded. The results show that T rx f is a more effective regulator of photosynthetic carbon metabolism in planta than T rx m. The overexpression of T rx f might therefore provide a means of increasing the carbohydrate content of plants destined for use in biofuel production. It might also provide a means of improving the nutritional properties of staple food crops.
Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first‐generation biofuels. Growing fuel demands require, however, that the starch yields of energy crops be improved. Leaf starch is synthesised during the day and degraded at night to power nonphotosynthetic metabolism. Redox regulation has been associated with the coordination of the enzymes involved in starch metabolism, but neither the signals nor mechanisms that regulate this metabolism are entirely clear. In this work, the thioredoxin (Trx) f and m genes, which code for key enzymes in plastid redox regulation, were overexpressed from the plastid genome. Tobacco plants overexpressing Trx f, but not Trx m, showed an increase of up to 700% in leaf starch accumulation, accompanied by an increase in leaf sugars, specific leaf weight (SLW), and leaf biomass yield. To test the potential of these plants as a nonfood energy crop, tobacco leaves overexpressing Trx f were subjected to enzymatic hydrolysis, and around a 500% increase in the release of fermentable sugars was recorded. The results show that Trx f is a more effective regulator of photosynthetic carbon metabolism in planta than Trx m. The overexpression of Trx f might therefore provide a means of increasing the carbohydrate content of plants destined for use in biofuel production. It might also provide a means of improving the nutritional properties of staple food crops.
Author Corral‐Martinez, Patricia
Farran, Inmaculada
Sanz‐Barrio, Ruth
Ancin, Maria
Segui‐Simarro, Jose M.
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Snippet Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first‐generation biofuels. Growing fuel demands require,...
Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first-generation biofuels. Growing fuel demands require, however, that...
Summary Starch, the most abundant storage carbohydrate in plants, has been a major feedstock for first-generation biofuels. Growing fuel demands require,...
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SubjectTerms Accumulation
bioethanol feedstock
Biofuels
Biosynthesis
Carbohydrate Metabolism - radiation effects
Carbohydrates
Chloroplast Thioredoxins - metabolism
chloroplast transformation
Chloroplasts
Crops
Energy crops
Enzymes
Ethanol - metabolism
Fermentation - radiation effects
Gene Expression Regulation, Plant - radiation effects
Genes, Plant - genetics
Glucose
Glucose-1-Phosphate Adenylyltransferase - metabolism
Hydrolysis - radiation effects
Leaves
Light
Metabolism
Metabolites
Nicotiana - genetics
Nicotiana - metabolism
Nicotiana - radiation effects
Oxidation-Reduction - radiation effects
Phenotype
Phosphatase
Photosynthesis
Plant Leaves - enzymology
Plant Leaves - metabolism
Plant Leaves - radiation effects
Plant Leaves - ultrastructure
Plants
Plants (botany)
Plants, Genetically Modified
Plastids - metabolism
Plastids - radiation effects
Plastids - ultrastructure
Potatoes
Proteins
Starch
Starch - metabolism
Sucrose
Sugar
Thioredoxin
Tobacco
Title Overexpression of plastidial thioredoxin f leads to enhanced starch accumulation in tobacco leaves
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fpbi.12052
https://www.ncbi.nlm.nih.gov/pubmed/23398733
https://www.proquest.com/docview/3067677664
https://search.proquest.com/docview/1353045156
https://search.proquest.com/docview/1434018592
Volume 11
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