Publications of A. R. Fernie
All genres
Journal Article (1116)
981.
Journal Article
153 (2), pp. 611 - 621 (2010)
Tricarboxylic Acid Cycle Activity Regulates Tomato Root Growth via Effects on Secondary Cell Wall Production. Plant Physiology 982.
Journal Article
61 (2), pp. 300 - 311 (2010)
SlCCD7 controls strigolactone biosynthesis, shoot branching and mycorrhiza-induced apocarotenoid formation in tomato. The Plant Journal 983.
Journal Article
151 (4), pp. 2058 - 2072 (2009)
Deciphering Transcriptional and Metabolic Networks Associated with Lysine Metabolism during Arabidopsis Seed Development. Plant Physiology 984.
Journal Article
21 (9), pp. 2715 - 2732 (2009)
Dynamic Plastid Redox Signals Integrate Gene Expression and Metabolism to Induce Distinct Metabolic States in Photosynthetic Acclimation in Arabidopsis. The Plant Cell 985.
Journal Article
70 (7), pp. 828 - 832 (2009)
Malate. Jack of all trades or master of a few? Phytochemistry 986.
Journal Article
60 (3), pp. 499 - 508 (2009)
GDP-d-mannose 3,5-epimerase (GME) plays a key role at the intersection of ascorbate and non-cellulosic cell-wall biosynthesis in tomato. The Plant Journal 987.
Journal Article
59 (2), pp. 329 - 343 (2009)
Photosynthesis in cells around veins of the C-3 plant Arabidopsis thaliana is important for both the shikimate pathway and leaf senescence as well as contributing to plant fitness. The Plant Journal 988.
Journal Article
2 (3), pp. 390 - 406 (2009)
The Metabolic Response of Arabidopsis Roots to Oxidative Stress is Distinct from that of Heterotrophic Cells in Culture and Highlights a Complex Relationship between the Levels of Transcripts, Metabolites, and Flux. Molecular Plant 989.
Journal Article
150 (3), pp. 1248 - 1259 (2009)
A Redox-Mediated Modulation of Stem Bolting in Transgenic Nicotiana sylvestris Differentially Expressing the External Mitochondrial NADPH Dehydrogenase. Plant Physiology 990.
Journal Article
5, p. 4 (2009)
Application of GC-MS for the detection of lipophilic compounds in diverse plant tissues. Plant Methods 991.
Journal Article
151 (2), pp. 905 - 924 (2009)
Abnormal Physiological and Molecular Mutant Phenotypes Link Chloroplast Polynucleotide Phosphorylase to the Phosphorus Deprivation Response in Arabidopsis. Plant Physiology 992.
Journal Article
4 (024), pp. 1 - 9 (2009)
Application of metabolomic profiling for identififying valuable traits in tomato. CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources 993.
Journal Article
284 (45), pp. 31249 - 31259 (2009)
Molecular Identification and Functional Characterization of Arabidopsis thaliana Mitochondrial and Chloroplastic NAD(+) Carrier Proteins. The Journal of Biological Chemistry 994.
Journal Article
2 (2), pp. 284 - 297 (2009)
Induction of the AOX1D Isoform of Alternative Oxidase in A-thaliana T-DNA Insertion Lines Lacking Isoform AOX1A Is Insufficient to Optimize Photosynthesis when Treated with Antimycin A. Molecular Plant 995.
Journal Article
106 (25), pp. 10348 - 10353 (2009)
Starch as a major integrator in the regulation of plant growth. Proceedings of the National Academy of Sciences of the United States of America 996.
Journal Article
31, pp. 2 - 6 (2009)
Finding the paths -metabolomics and approaches to metabolic flux analysis for defining metabolic pathways and their regulation. Biochemist 997.
Journal Article
5 (3), pp. 277 - 291 (2009)
Temporally resolved GC-MS-based metabolic profiling of herbicide treated plants treated reveals that changes in polar primary metabolites alone can distinguish herbicides of differing mode of action. Metabolomics 998.
Journal Article
149 (2), pp. 653 - 669 (2009)
Decreased Mitochondrial Activities of Malate Dehydrogenase and Fumarase in Tomato Lead to Altered Root Growth and Architecture via Diverse Mechanisms. Plant Physiology 999.
Journal Article
103 (2), pp. 269 - 280 (2009)
Transcript and metabolite profiling of the adaptive response to mild decreases in oxygen concentration in the roots of arabidopsis plants. Annals of Botany 1000.
Journal Article
21 (5), pp. 1428 - 1452 (2009)
Regulatory Features Underlying Pollination-Dependent and -Independent Tomato Fruit Set Revealed by Transcript and Primary Metabolite Profiling. The Plant Cell