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Publication DatePlanta, ISSN 0032-0935, 2/2014, Volume 239, Issue 2, pp. 421 - 435
Warming, watering and elevated atmospheric COâ‚‚-concentration effects have been extensively studied separately; however, their combined impact on plants is not...
Climate change | Plant growth | Plants | Grasses | High temperature | Biomass | Drought | Leaf area | Water temperature | Species | Grassland | Climatic change | Ecology | Multiple factor analysis | Plant growth traits | Photosynthetic capacity | Life Sciences | Forestry | C 3 and C 4 species | Agriculture | Plant functional type | Plant Sciences | Elevated CO 2 | and C | C | Elevated CO | species | Elevated CO2 | HIGH-TEMPERATURE | DROUGHT | PLANT SCIENCES | HEAT-STRESS | RESPONSES | ATMOSPHERIC CO2 | PERENNIAL GRASS | WATER-STRESS | PRODUCTIVITY | ECOSYSTEM | C-3 and C-4 species | CARBON-DIOXIDE | Plant Shoots - physiology | Plant Shoots - growth & development | Plant Transpiration - physiology | Temperature | Caragana - physiology | Species Specificity | Caragana - growth & development | Poaceae - drug effects | Malondialdehyde - analysis | Plant Shoots - anatomy & histology | Rain | Droughts | China | Ecosystem | Photosynthesis - physiology | Plant Shoots - drug effects | Caragana - drug effects | Nitrogen - pharmacology | Plant Stomata - drug effects | Plant Leaves - drug effects | Caragana - anatomy & histology | Oxidation-Reduction | Poaceae - physiology | Plant Stomata - growth & development | Plant Stomata - anatomy & histology | Phenotype | Climate Change | Plant Leaves - growth & development | Plant Leaves - anatomy & histology | Carbon Dioxide - pharmacology | Plant Stomata - physiology | Plant Leaves - physiology | Poaceae - growth & development | Poaceae - anatomy & histology
Climate change | Plant growth | Plants | Grasses | High temperature | Biomass | Drought | Leaf area | Water temperature | Species | Grassland | Climatic change | Ecology | Multiple factor analysis | Plant growth traits | Photosynthetic capacity | Life Sciences | Forestry | C 3 and C 4 species | Agriculture | Plant functional type | Plant Sciences | Elevated CO 2 | and C | C | Elevated CO | species | Elevated CO2 | HIGH-TEMPERATURE | DROUGHT | PLANT SCIENCES | HEAT-STRESS | RESPONSES | ATMOSPHERIC CO2 | PERENNIAL GRASS | WATER-STRESS | PRODUCTIVITY | ECOSYSTEM | C-3 and C-4 species | CARBON-DIOXIDE | Plant Shoots - physiology | Plant Shoots - growth & development | Plant Transpiration - physiology | Temperature | Caragana - physiology | Species Specificity | Caragana - growth & development | Poaceae - drug effects | Malondialdehyde - analysis | Plant Shoots - anatomy & histology | Rain | Droughts | China | Ecosystem | Photosynthesis - physiology | Plant Shoots - drug effects | Caragana - drug effects | Nitrogen - pharmacology | Plant Stomata - drug effects | Plant Leaves - drug effects | Caragana - anatomy & histology | Oxidation-Reduction | Poaceae - physiology | Plant Stomata - growth & development | Plant Stomata - anatomy & histology | Phenotype | Climate Change | Plant Leaves - growth & development | Plant Leaves - anatomy & histology | Carbon Dioxide - pharmacology | Plant Stomata - physiology | Plant Leaves - physiology | Poaceae - growth & development | Poaceae - anatomy & histology
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Loading RightsPhotosynthesis Research, ISSN 0166-8595, 11/2013, Volume 117, Issue 1, pp. 45 - 59
A key objective for sustainable agriculture and forestry is to breed plants with both high carbon gain and water-use efficiency (WUE). At the level of leaf...
Life Sciences | Biochemistry, general | Stomatal conductance | Plant Physiology | Mesophyll conductance | Photosynthesis | Plant Sciences | Water-use efficiency | Plant Genetics & Genomics | Meta-analysis | ARABIDOPSIS-THALIANA | CARBON-ISOTOPE DISCRIMINATION | C-3 PLANTS | DROUGHT TOLERANCE | PLANT SCIENCES | DECREASES INTERNAL CONDUCTANCE | GRAIN-YIELD | GAS-EXCHANGE | ABSCISIC-ACID | Arabidopsis - physiology | Arabidopsis - drug effects | Carbon Dioxide - metabolism | Species Specificity | Water - metabolism | Vitis - physiology | Genotype | Vitis - drug effects | Plants - drug effects | Diffusion - drug effects | Arabidopsis - genetics | Abscisic Acid - pharmacology | Plants - metabolism | Plants - genetics | Photosynthesis - drug effects | Plants, Genetically Modified | Mesophyll Cells - physiology | Plant Stomata - drug effects | Mesophyll Cells - drug effects | Plant Stomata - physiology | Water | Plant biology | Leaves
Life Sciences | Biochemistry, general | Stomatal conductance | Plant Physiology | Mesophyll conductance | Photosynthesis | Plant Sciences | Water-use efficiency | Plant Genetics & Genomics | Meta-analysis | ARABIDOPSIS-THALIANA | CARBON-ISOTOPE DISCRIMINATION | C-3 PLANTS | DROUGHT TOLERANCE | PLANT SCIENCES | DECREASES INTERNAL CONDUCTANCE | GRAIN-YIELD | GAS-EXCHANGE | ABSCISIC-ACID | Arabidopsis - physiology | Arabidopsis - drug effects | Carbon Dioxide - metabolism | Species Specificity | Water - metabolism | Vitis - physiology | Genotype | Vitis - drug effects | Plants - drug effects | Diffusion - drug effects | Arabidopsis - genetics | Abscisic Acid - pharmacology | Plants - metabolism | Plants - genetics | Photosynthesis - drug effects | Plants, Genetically Modified | Mesophyll Cells - physiology | Plant Stomata - drug effects | Mesophyll Cells - drug effects | Plant Stomata - physiology | Water | Plant biology | Leaves
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Loading RightsJournal of Experimental Botany, ISSN 0022-0957, 11/2004, Volume 55, Issue 407, pp. 2365 - 2384
Drought is one of the greatest limitations to crop expansion outside the present-day agricultural areas. It will become increasingly important in regions of...
Physiology of Plants Exposed to Drought Stress | Plant physiology | Genes | Guard cells | Gene expression regulation | Plants | Drought | Dehydration | Photosynthesis | Transgenic plants | Plant cells | Diffusional and metabolic limitations | Water deficits | Water-saving irrigation | Genetic engineering | SIGNAL-TRANSDUCTION PATHWAYS | STOMATAL GUARD-CELLS | DROUGHT STRESS | TRANSGENIC PLANTS | diffusional and metabolic limitations | C-3 PLANTS | genetic engineering | PLANT SCIENCES | water-saving irrigation | photosynthesis | NITRIC-OXIDE | HYDROGEN-PEROXIDE | water deficits | RESPONSIVE GENE-EXPRESSION | ABSCISIC-ACID | STRESS TOLERANCE | Adaptation, Physiological | Carbon - metabolism | Oxidation-Reduction | Signal Transduction | Water - metabolism | Agriculture - methods | Chloroplasts - metabolism | Plant Proteins - genetics | Plants - metabolism | Plants, Genetically Modified | Conservation of Natural Resources | Plant Proteins - metabolism
Physiology of Plants Exposed to Drought Stress | Plant physiology | Genes | Guard cells | Gene expression regulation | Plants | Drought | Dehydration | Photosynthesis | Transgenic plants | Plant cells | Diffusional and metabolic limitations | Water deficits | Water-saving irrigation | Genetic engineering | SIGNAL-TRANSDUCTION PATHWAYS | STOMATAL GUARD-CELLS | DROUGHT STRESS | TRANSGENIC PLANTS | diffusional and metabolic limitations | C-3 PLANTS | genetic engineering | PLANT SCIENCES | water-saving irrigation | photosynthesis | NITRIC-OXIDE | HYDROGEN-PEROXIDE | water deficits | RESPONSIVE GENE-EXPRESSION | ABSCISIC-ACID | STRESS TOLERANCE | Adaptation, Physiological | Carbon - metabolism | Oxidation-Reduction | Signal Transduction | Water - metabolism | Agriculture - methods | Chloroplasts - metabolism | Plant Proteins - genetics | Plants - metabolism | Plants, Genetically Modified | Conservation of Natural Resources | Plant Proteins - metabolism
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Loading RightsAnnals of Applied Biology, ISSN 0003-4746, 09/2013, Volume 163, Issue 2, pp. 174 - 199
The literature on nitrogen (N) form effects on plants at different stages of their development has been critically reviewed, assessing the possible mechanisms...
ABA | root architecture | auxin | nitrogen use efficiency | low temperature tolerance | mobilisation of seed reserves | ammonium | atmospheric CO2 | dry matter partitioning | leaf expansion | C3 plants | seed dormancy | nitrate assimilation | osmoticum | ammonium toxicity | C | plants | atmospheric CO | ARABIDOPSIS-THALIANA | AFFINITY UREA TRANSPORT | AMINO-ACIDS | MADS-BOX GENE | AGRICULTURE, MULTIDISCIPLINARY | NITRIC-OXIDE | ABSCISIC-ACID | C-3 plants | GLUTAMINE-SYNTHETASE | ROOT-SYSTEM ARCHITECTURE | PHASEOLUS-VULGARIS | Architecture | Plants
ABA | root architecture | auxin | nitrogen use efficiency | low temperature tolerance | mobilisation of seed reserves | ammonium | atmospheric CO2 | dry matter partitioning | leaf expansion | C3 plants | seed dormancy | nitrate assimilation | osmoticum | ammonium toxicity | C | plants | atmospheric CO | ARABIDOPSIS-THALIANA | AFFINITY UREA TRANSPORT | AMINO-ACIDS | MADS-BOX GENE | AGRICULTURE, MULTIDISCIPLINARY | NITRIC-OXIDE | ABSCISIC-ACID | C-3 plants | GLUTAMINE-SYNTHETASE | ROOT-SYSTEM ARCHITECTURE | PHASEOLUS-VULGARIS | Architecture | Plants
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Loading RightsPHOTOSYNTHESIS RESEARCH, ISSN 0166-8595, 02/2014, Volume 119, Issue 1-2, pp. 101 - 117
Most plants show considerable capacity to adjust their photosynthetic characteristics to their growth temperatures (temperature acclimation). The most typical...
CRASSULACEAN ACID METABOLISM | RUBISCO ACTIVASE | THERMAL-ACCLIMATION | C-3 photosynthesis | CAM photosynthesis | C-4 photosynthesis | Phenotypic plasticity | SPINACH LEAVES | PLANT SCIENCES | Temperature adaptation | HEAT-SHOCK PROTEINS | Temperature acclimation | PHOTOSYSTEM-II | CO2 ASSIMILATION RATE | SUCROSE-PHOSPHATE SYNTHASE | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE ACTIVASE | ELECTRON-TRANSPORT
CRASSULACEAN ACID METABOLISM | RUBISCO ACTIVASE | THERMAL-ACCLIMATION | C-3 photosynthesis | CAM photosynthesis | C-4 photosynthesis | Phenotypic plasticity | SPINACH LEAVES | PLANT SCIENCES | Temperature adaptation | HEAT-SHOCK PROTEINS | Temperature acclimation | PHOTOSYSTEM-II | CO2 ASSIMILATION RATE | SUCROSE-PHOSPHATE SYNTHASE | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE ACTIVASE | ELECTRON-TRANSPORT
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Loading RightsPHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, ISSN 0962-8436, 02/2012, Volume 367, Issue 1588, pp. 583 - 600
C-4 photosynthesis has evolved more than 60 times as a carbon-concentrating mechanism to augment the ancestral C-3 photosynthetic pathway. The rate and the...
C-3 photosynthesis | C-4 photosynthesis | atmospheric CO2 | CARBON METABOLISM | plant evolution | STOMATAL CONTROL | hydraulics | C-3-C-4 INTERMEDIATE | drought | QUANTUM YIELD | ECOLOGICAL DISTRIBUTION | BIOLOGY | XYLEM STRUCTURE | KRANZ ANATOMY | ABSCISIC-ACID | PHOTOSYNTHESIS
C-3 photosynthesis | C-4 photosynthesis | atmospheric CO2 | CARBON METABOLISM | plant evolution | STOMATAL CONTROL | hydraulics | C-3-C-4 INTERMEDIATE | drought | QUANTUM YIELD | ECOLOGICAL DISTRIBUTION | BIOLOGY | XYLEM STRUCTURE | KRANZ ANATOMY | ABSCISIC-ACID | PHOTOSYNTHESIS
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Loading RightsPlant and Cell Physiology, ISSN 0032-0781, 06/2012, Volume 53, Issue 6, pp. 976 - 986
The effects of overexpression of Rubisco activase on photosynthesis were studied in transgenic rice expressing barley or maize Rubisco activase. Immunoblot and...
Rice (Oryza sativa L.) | Rubisco | Rubisco activase | Overexpression | Photosynthesis | ARABIDOPSIS-THALIANA | LOW IRRADIANCE | RIBULOSE 1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE | LEAF DEVELOPMENT | TRANSGENIC TOBACCO PLANTS | PLANT SCIENCES | CELL BIOLOGY | C-3 PLANT | ANTISENSE RNA | IMPAIRS PHOTOSYNTHESIS | Rice (Oryza sativa L | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE ACTIVASE | POTATO PLANTS | Up-Regulation | Nitrogen - metabolism | Carbon Dioxide - metabolism | Plants, Genetically Modified - genetics | Genes, Plant | Electrophoresis, Polyacrylamide Gel | Plants, Genetically Modified - enzymology | Ribulose-Bisphosphate Carboxylase - genetics | Plant Leaves - radiation effects | Chlorophyll - metabolism | Oryza - enzymology | Oryza - radiation effects | Plant Proteins - genetics | Ribulose-Bisphosphate Carboxylase - metabolism | Oryza - genetics | Plant Leaves - genetics | Light | Gene Expression Regulation, Plant | Transcription, Genetic | Plant Proteins - metabolism | Enzyme Activation | Plant Leaves - enzymology
Rice (Oryza sativa L.) | Rubisco | Rubisco activase | Overexpression | Photosynthesis | ARABIDOPSIS-THALIANA | LOW IRRADIANCE | RIBULOSE 1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE | LEAF DEVELOPMENT | TRANSGENIC TOBACCO PLANTS | PLANT SCIENCES | CELL BIOLOGY | C-3 PLANT | ANTISENSE RNA | IMPAIRS PHOTOSYNTHESIS | Rice (Oryza sativa L | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE/OXYGENASE ACTIVASE | POTATO PLANTS | Up-Regulation | Nitrogen - metabolism | Carbon Dioxide - metabolism | Plants, Genetically Modified - genetics | Genes, Plant | Electrophoresis, Polyacrylamide Gel | Plants, Genetically Modified - enzymology | Ribulose-Bisphosphate Carboxylase - genetics | Plant Leaves - radiation effects | Chlorophyll - metabolism | Oryza - enzymology | Oryza - radiation effects | Plant Proteins - genetics | Ribulose-Bisphosphate Carboxylase - metabolism | Oryza - genetics | Plant Leaves - genetics | Light | Gene Expression Regulation, Plant | Transcription, Genetic | Plant Proteins - metabolism | Enzyme Activation | Plant Leaves - enzymology
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Loading RightsPlant Cell Reports, ISSN 0721-7714, 07/2012, Volume 31, Issue 7, pp. 1189 - 1198
Cleome spinosa is widely used as a garden ornamental in many countries. Here we determined the optimal conditions for plant regeneration from different tissue...
Cleome spinosa | Floricultural plant | plant | Agrobacterium transformation | Transgenic plant | Chalcone synthase | Medicinal plant | C-3 plant | MODEL | AGROBACTERIUM-MEDIATED TRANSFORMATION | PLANT SCIENCES | TUMEFACIENS | GENETIC-TRANSFORMATION | RICE
Cleome spinosa | Floricultural plant | plant | Agrobacterium transformation | Transgenic plant | Chalcone synthase | Medicinal plant | C-3 plant | MODEL | AGROBACTERIUM-MEDIATED TRANSFORMATION | PLANT SCIENCES | TUMEFACIENS | GENETIC-TRANSFORMATION | RICE
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Loading RightsTrends in Plant Science, ISSN 1360-1385, 05/2014, Volume 19, Issue 5, pp. 327 - 338
Climatic extremes threaten agricultural sustainability worldwide. One approach to increase plant water-use efficiency (WUE) is to introduce crassulacean acid...
crassulacean acid metabolism | bioenergy | biodesign | engineering CAM into C3 plants | water-use efficiency | Crassulacean acid metabolism | Bioenergy | Biodesign | Water-use efficiency | MESEMBRYANTHEMUM-CRYSTALLINUM L | CARBON FIXATION PATHWAYS | STOMATAL RESPONSES | C-4 PHOTOSYNTHESIS | engineering CAM into C-3 plants | PLANT SCIENCES | MEDIATED CHROMOSOMAL TRUNCATION | PHOSPHOENOLPYRUVATE CARBOXYLASE KINASE | COMMON ICE PLANT | PROTEIN-PROTEIN INTERACTIONS | GUARD-CELLS | ANION CHANNELS | Genetic Engineering - methods | Carbon Dioxide - metabolism | Water - metabolism | Phylogeny | Plant Stomata - metabolism | Circadian Rhythm | Gene Regulatory Networks | Systems Biology | Plants - metabolism | Plants - genetics | Photosynthesis - physiology | Crops, Agricultural | Plant Physiological Phenomena | Plant Stomata - genetics | Plant Stomata - physiology | Water use | Physiological aspects | Analysis | Genomics | water-use efficiency (WUE)
crassulacean acid metabolism | bioenergy | biodesign | engineering CAM into C3 plants | water-use efficiency | Crassulacean acid metabolism | Bioenergy | Biodesign | Water-use efficiency | MESEMBRYANTHEMUM-CRYSTALLINUM L | CARBON FIXATION PATHWAYS | STOMATAL RESPONSES | C-4 PHOTOSYNTHESIS | engineering CAM into C-3 plants | PLANT SCIENCES | MEDIATED CHROMOSOMAL TRUNCATION | PHOSPHOENOLPYRUVATE CARBOXYLASE KINASE | COMMON ICE PLANT | PROTEIN-PROTEIN INTERACTIONS | GUARD-CELLS | ANION CHANNELS | Genetic Engineering - methods | Carbon Dioxide - metabolism | Water - metabolism | Phylogeny | Plant Stomata - metabolism | Circadian Rhythm | Gene Regulatory Networks | Systems Biology | Plants - metabolism | Plants - genetics | Photosynthesis - physiology | Crops, Agricultural | Plant Physiological Phenomena | Plant Stomata - genetics | Plant Stomata - physiology | Water use | Physiological aspects | Analysis | Genomics | water-use efficiency (WUE)
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Loading RightsECOLOGY, ISSN 0012-9658, 02/2012, Volume 93, Issue 2, pp. 355 - 367
The CO2 concentration in Earth's atmosphere may double during this century. Plant responses to such an increase depend strongly on their nitrogen status, but...
CO2 acclimation | nitrogen | C-3 | C-4 | ACER-SACCHARUM | Crassulacean acid metabolism (CAM) | WHEAT | SUGAR MAPLE | RESPONSES | ATMOSPHERIC CO2 | ELEVATED CARBON-DIOXIDE | METABOLISM | REDUCTION | ECOLOGY | GAS-EXCHANGE | plant distributions | PHOTOSYNTHESIS | climate change
CO2 acclimation | nitrogen | C-3 | C-4 | ACER-SACCHARUM | Crassulacean acid metabolism (CAM) | WHEAT | SUGAR MAPLE | RESPONSES | ATMOSPHERIC CO2 | ELEVATED CARBON-DIOXIDE | METABOLISM | REDUCTION | ECOLOGY | GAS-EXCHANGE | plant distributions | PHOTOSYNTHESIS | climate change
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Loading RightsBBA - Bioenergetics, ISSN 0005-2728, 2011, Volume 1807, Issue 3, pp. 384 - 389
Having long been debated, it is only in the last few years that a concensus has emerged that the cyclic flow of electrons around Photosystem I plays an...
High light | Heat | Chilling | Redox regulation | Photosynthesis | Drought | Stress | CYTOCHROME BF COMPLEX | C3 PLANTS | BIOCHEMISTRY & MOLECULAR BIOLOGY | C-3 PLANTS | QUANTUM EFFICIENCIES | SPINACH-CHLOROPLASTS | DEHYDROGENASE COMPLEX | BIOPHYSICS | ABSORBENCY CHANGES | FAR-RED LIGHT | FERREDOXIN NADP(+) OXIDOREDUCTASE | PHOTOSYSTEM-I
High light | Heat | Chilling | Redox regulation | Photosynthesis | Drought | Stress | CYTOCHROME BF COMPLEX | C3 PLANTS | BIOCHEMISTRY & MOLECULAR BIOLOGY | C-3 PLANTS | QUANTUM EFFICIENCIES | SPINACH-CHLOROPLASTS | DEHYDROGENASE COMPLEX | BIOPHYSICS | ABSORBENCY CHANGES | FAR-RED LIGHT | FERREDOXIN NADP(+) OXIDOREDUCTASE | PHOTOSYSTEM-I
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Loading RightsPlant Physiology and Biochemistry, ISSN 0981-9428, 09/2016, Volume 106, pp. 73 - 81
Roots play important roles in regulating whole-plant carbon and water relations in response to extreme soil temperature. Three foxtail millet ( L.) lines...
Tolerance | Gas exchange | Root dynamics | Stress-related metabolites | Carbon and nitrogen | CARBON | LEAVES | C-3 | PLANT SCIENCES | HEAT-STRESS | RESPONSES | VITIS-VINIFERA L | PLANTS | ARABIDOPSIS | Darkness | Plant Shoots - growth & development | Adaptation, Physiological - drug effects | Fluorescence | Plant Roots - drug effects | Amino Acids - metabolism | Cell Respiration - drug effects | Plant Shoots - drug effects | Nitrogen - pharmacology | Plant Leaves - drug effects | Stress, Physiological - drug effects | Setaria Plant - metabolism | Plant Roots - growth & development | Principal Component Analysis | Setaria Plant - drug effects | Carbon - pharmacology | Plant Roots - metabolism | Chlorophyll - metabolism | Hot Temperature | Setaria Plant - growth & development | Metabolome - drug effects | Plant Leaves - metabolism | Photosynthesis - drug effects | Plant Shoots - metabolism | Plant Roots - anatomy & histology | Soil | Chlorophyll | Metabolites | Agricultural biotechnology | Growth | Phytochemistry | Physiological aspects | Amino acids | Glutamate | Photosynthesis
Tolerance | Gas exchange | Root dynamics | Stress-related metabolites | Carbon and nitrogen | CARBON | LEAVES | C-3 | PLANT SCIENCES | HEAT-STRESS | RESPONSES | VITIS-VINIFERA L | PLANTS | ARABIDOPSIS | Darkness | Plant Shoots - growth & development | Adaptation, Physiological - drug effects | Fluorescence | Plant Roots - drug effects | Amino Acids - metabolism | Cell Respiration - drug effects | Plant Shoots - drug effects | Nitrogen - pharmacology | Plant Leaves - drug effects | Stress, Physiological - drug effects | Setaria Plant - metabolism | Plant Roots - growth & development | Principal Component Analysis | Setaria Plant - drug effects | Carbon - pharmacology | Plant Roots - metabolism | Chlorophyll - metabolism | Hot Temperature | Setaria Plant - growth & development | Metabolome - drug effects | Plant Leaves - metabolism | Photosynthesis - drug effects | Plant Shoots - metabolism | Plant Roots - anatomy & histology | Soil | Chlorophyll | Metabolites | Agricultural biotechnology | Growth | Phytochemistry | Physiological aspects | Amino acids | Glutamate | Photosynthesis
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Loading RightsPhotosynthesis Research, ISSN 0166-8595, 2/2015, Volume 123, Issue 2, pp. 117 - 128
C3 carbon fixation has a bad reputation, primarily because it is associated with photorespiration, a biochemical pathway thought to waste a substantial amount...
Life Sciences | Biochemistry, general | Nitrate assimilation | Nitrogen sources | Photorespiration | Plant Physiology | C 3 carbon fixation | Plant evolution | Photosynthesis | Plant Sciences | Plant Genetics & Genomics | carbon fixation | ELEVATED CO2 | RIBULOSEBISPHOSPHATE CARBOXYLASE | DIOXIDE ENRICHMENT | C-4 PLANTS | RIBULOSE 1,5-BISPHOSPHATE CARBOXYLASE | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE | PLANT SCIENCES | SPINACH-CHLOROPLASTS | FOREST PRODUCTIVITY | ATMOSPHERIC CO2 | C-3 carbon fixation | BISPHOSPHATE CARBOXYLASE-OXYGENASE | Carbon - metabolism | Nitrates - metabolism | Ribulose-Bisphosphate Carboxylase - metabolism | Nitrogen - metabolism | Plants - metabolism | Temperature | Carbon Dioxide - metabolism | Manganese - metabolism | Metabolic Networks and Pathways | Atmosphere - chemistry | Plant Proteins - metabolism | Evolution | Usage | Plants | Plant biology | Nitrates | Nitrogen | Carbon
Life Sciences | Biochemistry, general | Nitrate assimilation | Nitrogen sources | Photorespiration | Plant Physiology | C 3 carbon fixation | Plant evolution | Photosynthesis | Plant Sciences | Plant Genetics & Genomics | carbon fixation | ELEVATED CO2 | RIBULOSEBISPHOSPHATE CARBOXYLASE | DIOXIDE ENRICHMENT | C-4 PLANTS | RIBULOSE 1,5-BISPHOSPHATE CARBOXYLASE | RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE | PLANT SCIENCES | SPINACH-CHLOROPLASTS | FOREST PRODUCTIVITY | ATMOSPHERIC CO2 | C-3 carbon fixation | BISPHOSPHATE CARBOXYLASE-OXYGENASE | Carbon - metabolism | Nitrates - metabolism | Ribulose-Bisphosphate Carboxylase - metabolism | Nitrogen - metabolism | Plants - metabolism | Temperature | Carbon Dioxide - metabolism | Manganese - metabolism | Metabolic Networks and Pathways | Atmosphere - chemistry | Plant Proteins - metabolism | Evolution | Usage | Plants | Plant biology | Nitrates | Nitrogen | Carbon
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