scholarly article | Q13442814 |
P50 | author | Samuel C Zeeman | Q37841967 |
Peter Geigenberger | Q51866615 | ||
Alisdair R Fernie | Q62566057 | ||
Nicolas Schauer | Q114294728 | ||
P2093 | author name string | Martine Trevisan | |
Anthony C Davison | |||
Jychian Chen | |||
Gaëlle Messerli | |||
Vahid Partovi Nia | |||
Anna Kolbe | |||
P2860 | cites work | The Arabidopsis sex1 mutant is defective in the R1 protein, a general regulator of starch degradation in plants, and not in the chloroplast hexose transporter | Q24543516 |
Laforin, a dual specificity phosphatase that dephosphorylates complex carbohydrates | Q28116113 | ||
Metabolic profiling allows comprehensive phenotyping of genetically or environmentally modified plant systems | Q28346109 | ||
Metabolite profiling for plant functional genomics | Q28540952 | ||
Computational analysis of microarray data | Q29618377 | ||
Orchestrated transcription of key pathways in Arabidopsis by the circadian clock | Q29622876 | ||
MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes | Q30004199 | ||
Plant metabolomics: towards biological function and mechanism | Q36584025 | ||
The diurnal metabolism of leaf starch | Q36675515 | ||
GIGANTEA: a circadian clock-controlled gene that regulates photoperiodic flowering in Arabidopsis and encodes a protein with several possible membrane-spanning domains. | Q42680045 | ||
An Arabidopsis thaliana knock-out mutant of the chloroplast triose phosphate/phosphate translocator is severely compromised only when starch synthesis, but not starch mobilisation is abolished | Q44242665 | ||
The role of amylomaltase in maltose metabolism in the cytosol of photosynthetic cells | Q44639480 | ||
A previously unknown maltose transporter essential for starch degradation in leaves | Q44712665 | ||
A cytosolic glucosyltransferase is required for conversion of starch to sucrose in Arabidopsis leaves at night | Q44783552 | ||
Application of a high-throughput HPLC-MS/MS assay to Arabidopsis mutant screening; evidence that threonine aldolase plays a role in seed nutritional quality | Q44980142 | ||
Adjustment of diurnal starch turnover to short days: depletion of sugar during the night leads to a temporary inhibition of carbohydrate utilization, accumulation of sugars and post-translational activation of ADP-glucose pyrophosphorylase in the fo | Q45040099 | ||
Daylength and circadian effects on starch degradation and maltose metabolism | Q46628114 | ||
Sugars and circadian regulation make major contributions to the global regulation of diurnal gene expression in Arabidopsis | Q46813402 | ||
Potential of metabolomics as a functional genomics tool. | Q54149875 | ||
Evidence for Distinct Mechanisms of Starch Granule Breakdown in Plants | Q58035362 | ||
Similar Protein Phosphatases Control Starch Metabolism in Plants and Glycogen Metabolism in Mammals | Q58035365 | ||
Diurnal changes in the transcriptome encoding enzymes of starch metabolism provide evidence for both transcriptional and posttranscriptional regulation of starch metabolism in Arabidopsis leaves | Q58035380 | ||
Arabidopsis mutants Atisa1 and Atisa2 have identical phenotypes and lack the same multimeric isoamylase, which influences the branch point distribution of amylopectin during starch synthesis | Q58036618 | ||
A starch-accumulating mutant ofArabidopsis thalianadeficient in a chloroplastic starch-hydrolysing enzyme | Q58036638 | ||
The genetics of plant metabolism | Q58889400 | ||
Simultaneous analysis of metabolites in potato tuber by gas chromatography-mass spectrometry | Q59465259 | ||
Mutants of Arabidopsis lacking a chloroplastic isoamylase accumulate phytoglycogen and an abnormal form of amylopectin | Q62570629 | ||
A genetic and physiological analysis of late flowering mutants in Arabidopsis thaliana | Q67978624 | ||
Monogenic Recessive Mutations Causing Both Late Floral Initiation and Excess Starch Accumulation in Arabidopsis | Q74813043 | ||
A mutant of Arabidopsis lacking a chloroplastic isoamylase accumulates both starch and phytoglycogen | Q77374068 | ||
Alterations in Growth, Photosynthesis, and Respiration in a Starchless Mutant of Arabidopsis thaliana (L.) Deficient in Chloroplast Phosphoglucomutase Activity | Q83262289 | ||
Mutants of Arabidopsis with altered regulation of starch degradation | Q83271271 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1484-1492 | |
P577 | publication date | 2007-02-02 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Rapid classification of phenotypic mutants of Arabidopsis via metabolite fingerprinting | |
P478 | volume | 143 |
Q33450752 | A rapid, simple method for the genetic discrimination of intact Arabidopsis thaliana mutant seeds using metabolic profiling by direct analysis in real-time mass spectrometry |
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Q38000324 | Application of NMR metabolomics to search for human disease biomarkers |
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Q43141805 | Carbon partitioning in Arabidopsis thaliana is a dynamic process controlled by the plants metabolic status and its circadian clock |
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Q46978029 | Comparative analysis of flavonoids and polar metabolites from hairy roots of Scutellaria baicalensis and Scutellaria lateriflora |
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Q39284219 | Enhancement of plant metabolite fingerprinting by machine learning |
Q37997064 | High-resolution plant metabolomics: from mass spectral features to metabolites and from whole-cell analysis to subcellular metabolite distributions |
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Q50658275 | Mediator subunit 16 functions in the regulation of iron uptake gene expression in Arabidopsis. |
Q37512653 | Medicinal plants: a public resource for metabolomics and hypothesis development. |
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Q38953481 | Multifaceted role of cycling DOF factor 3 (CDF3) in the regulation of flowering time and abiotic stress responses in Arabidopsis. |
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Q46164576 | STARCH-EXCESS4 is a laforin-like Phosphoglucan phosphatase required for starch degradation in Arabidopsis thaliana. |
Q46492751 | Sensitive to freezing6 integrates cellular and environmental inputs to the plant circadian clock |
Q46740795 | Sugars as hydroxyl radical scavengers: proof-of-concept by studying the fate of sucralose in Arabidopsis |
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