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Edward N Smith

Explore the profile of Edward N Smith including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 11
Citations 75
Followers 0
Related Specialties
Biology
Cell Biology
Molecular Biology
Top 10 Co-Authors
R George Ratcliffe
Nicholas J Kruger
Markus Schwarzlander
Dimitri Tolleter
James S O McCullagh
Johanna B Kroll
Gilles Curien
Matthias Heinemann
Giovanni Finazzi
Elias Feitosa-Araujo
Published In
Trends Plant Sci
Metabolites
RSC Chem Biol
Nat Metab
Anal Sci Adv
Affiliations
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Recent Articles
1.
Isolation, separation, identification, and quantification of bioactive methylated flavone regioisomers by UHPLC-MS/MS
Noreen H, Smith E, Farman M, Claridge T, McCullagh J
Anal Sci Adv . 2024 May; 2(7-8):364-372. PMID: 38715961
Methylated flavones, commonly found in many plants of the Brassicaceae family, have potent antioxidant and anticancer activity with diverse therapeutic potential. However, the specific regioisomers of methylated flavones can have...
2.
The Arabidopsis leaf quantitative atlas: a cellular and subcellular mapping through unified data integration
Tolleter D, Smith E, Dupont-Thibert C, Uwizeye C, Vile D, Gloaguen P, et al.
Quant Plant Biol . 2024 Apr; 5:e2. PMID: 38572078
Quantitative analyses and models are required to connect a plant's cellular organisation with its metabolism. However, quantitative data are often scattered over multiple studies, and finding such data and converting...
3.
Improving photosynthetic efficiency toward food security: Strategies, advances, and perspectives
Smith E, van Aalst M, Tosens T, Niinemets U, Stich B, Morosinotto T, et al.
Mol Plant . 2023 Sep; 16(10):1547-1563. PMID: 37660255
Photosynthesis in crops and natural vegetation allows light energy to be converted into chemical energy and thus forms the foundation for almost all terrestrial trophic networks on Earth. The efficiency...
4.
Temporal segregation of biosynthetic processes is responsible for metabolic oscillations during the budding yeast cell cycle
Takhaveev V, Ozsezen S, Smith E, Zylstra A, Chaillet M, Chen H, et al.
Nat Metab . 2023 Feb; 5(2):294-313. PMID: 36849832
Many cell biological and biochemical mechanisms controlling the fundamental process of eukaryotic cell division have been identified; however, the temporal dynamics of biosynthetic processes during the cell division cycle are...
5.
Isotopically non-stationary metabolic flux analysis of heterotrophic cell cultures
Smith E, Ratcliffe R, Kruger N
Front Plant Sci . 2023 Jan; 13:1049559. PMID: 36699846
Fluxes are the ultimate phenotype of metabolism and their accurate quantification is fundamental to any understanding of metabolic networks. Steady state metabolic flux analysis has been the method of choice...
6.
Tryptophan Levels as a Marker of Auxins and Nitric Oxide Signaling
Lopez-Gomez P, Smith E, Bota P, Cornejo A, Urra M, Buezo J, et al.
Plants (Basel) . 2022 May; 11(10). PMID: 35631729
The aromatic amino acid tryptophan is the main precursor for indole-3-acetic acid (IAA), which involves various parallel routes in plants, with indole-3-acetaldoxime (IAOx) being one of the most common intermediates....
7.
Measuring ROS and redox markers in plant cells
Akter S, Khan M, Smith E, Flashman E
RSC Chem Biol . 2021 Oct; 2(5):1384-1401. PMID: 34704044
Reactive oxygen species (ROS) are produced throughout plant cells as a by-product of electron transfer processes. While highly oxidative and potentially damaging to a range of biomolecules, there exists a...
8.
NAD redox monitoring with the genetically encoded fluorescent biosensor Peredox-mCherry
Kroll J, Schwarzlander M, Smith E
Trends Plant Sci . 2021 Aug; 26(10):1087-1088. PMID: 34340932
No abstract available.
9.
Shining a light on NAD- and NADP-based metabolism in plants
Smith E, Schwarzlander M, Ratcliffe R, Kruger N
Trends Plant Sci . 2021 Jul; 26(10):1072-1086. PMID: 34281784
The pyridine nucleotides nicotinamide adenine dinucleotide [NAD(H)] and nicotinamide adenine dinucleotide phosphate [NADP(H)] simultaneously act as energy transducers, signalling molecules, and redox couples. Recent research into photosynthetic optimisation, photorespiration, immunity,...
10.
In Vivo NADH/NAD Biosensing Reveals the Dynamics of Cytosolic Redox Metabolism in Plants
Steinbeck J, Fuchs P, Negroni Y, Elsasser M, Lichtenauer S, Stockdreher Y, et al.
Plant Cell . 2020 Aug; 32(10):3324-3345. PMID: 32796121
NADH and NAD are a ubiquitous cellular redox couple. Although the central role of NAD in plant metabolism and its regulatory role have been investigated extensively at the biochemical level,...