The shikimate pathway and aromatic amino acid biosynthesis in plants H Maeda, N Dudareva Annual review of plant biology 63 (1), 73-105, 2012 | 1425 | 2012 |
Tocopherols Play a Crucial Role in Low-Temperature Adaptation and Phloem Loading in Arabidopsis H Maeda, W Song, TL Sage, D DellaPenna The Plant Cell 18 (10), 2710-2732, 2006 | 279 | 2006 |
Highly divergent methyltransferases catalyze a conserved reaction in tocopherol and plastoquinone synthesis in cyanobacteria and photosynthetic eukaryotes Z Cheng, S Sattler, H Maeda, Y Sakuragi, DA Bryant, D DellaPenna The Plant Cell 15 (10), 2343-2356, 2003 | 256 | 2003 |
An alternative pathway contributes to phenylalanine biosynthesis in plants via a cytosolic tyrosine: phenylpyruvate aminotransferase H Yoo, JR Widhalm, Y Qian, H Maeda, BR Cooper, AS Jannasch, I Gonda, ... Nature communications 4 (1), 2833, 2013 | 236 | 2013 |
Tocopherol functions in photosynthetic organisms H Maeda, D DellaPenna Current opinion in plant biology 10 (3), 260-265, 2007 | 217 | 2007 |
Tocopherols Protect Synechocystis sp. Strain PCC 6803 from Lipid Peroxidation H Maeda, Y Sakuragi, DA Bryant, D DellaPenna Plant Physiology 138 (3), 1422-1435, 2005 | 200 | 2005 |
Tyrosine biosynthesis, metabolism, and catabolism in plants CA Schenck, HA Maeda Phytochemistry 149, 82-102, 2018 | 188 | 2018 |
RNAi Suppression of Arogenate Dehydratase1 Reveals That Phenylalanine Is Synthesized Predominantly via the Arogenate Pathway in Petunia Petals H Maeda, AK Shasany, J Schnepp, I Orlova, G Taguchi, BR Cooper, ... The Plant Cell 22 (3), 832-849, 2010 | 186 | 2010 |
Prephenate aminotransferase directs plant phenylalanine biosynthesis via arogenate H Maeda, H Yoo, N Dudareva Nature chemical biology 7 (1), 19-21, 2011 | 163 | 2011 |
Tocopherols Modulate Extraplastidic Polyunsaturated Fatty Acid Metabolism in Arabidopsis at Low Temperature H Maeda, TL Sage, G Isaac, R Welti, D DellaPenna The Plant Cell 20 (2), 452-470, 2008 | 139 | 2008 |
The small subunit of snapdragon geranyl diphosphate synthase modifies the chain length specificity of tobacco geranylgeranyl diphosphate synthase in planta I Orlova, DA Nagegowda, CM Kish, M Gutensohn, H Maeda, ... The Plant Cell 21 (12), 4002-4017, 2009 | 126 | 2009 |
Relaxation of tyrosine pathway regulation underlies the evolution of betalain pigmentation in Caryophyllales S Lopez‐Nieves, Y Yang, A Timoneda, M Wang, T Feng, SA Smith, ... New Phytologist 217 (2), 896-908, 2018 | 90 | 2018 |
In vitro selection of hematoporphyrin binding DNA aptamers A Okazawa, H Maeda, E Fukusaki, Y Katakura, A Kobayashi Bioorganic & medicinal chemistry letters 10 (23), 2653-2656, 2000 | 87 | 2000 |
Developmental changes in the metabolic network of snapdragon flowers JK Muhlemann, H Maeda, CY Chang, P San Miguel, I Baxter, B Cooper, ... PloS one 7 (7), e40381, 2012 | 85 | 2012 |
α-Tocopherol Plays a Role in Photosynthesis and Macronutrient Homeostasis of the Cyanobacterium Synechocystis sp. PCC 6803 That Is Independent of Its … Y Sakuragi, H Maeda, D DellaPenna, DA Bryant Plant physiology 141 (2), 508-521, 2006 | 82 | 2006 |
The entry reaction of the plant shikimate pathway is subjected to highly complex metabolite-mediated regulation R Yokoyama, MVV de Oliveira, B Kleven, HA Maeda The Plant Cell 33 (3), 671-696, 2021 | 73 | 2021 |
Evolutionary diversification of primary metabolism and its contribution to plant chemical diversity HA Maeda Frontiers in Plant Science 10, 881, 2019 | 71 | 2019 |
DNA aptamers that bind to chitin E Fukusaki, T Kato, H Maeda, N Kawazoe, Y Ito, A Okazawa, S Kajiyama, ... Bioorganic & medicinal chemistry letters 10 (5), 423-425, 2000 | 67 | 2000 |
Evolutionary history of plant metabolism HA Maeda, AR Fernie Annual Review of Plant Biology 72 (1), 185-216, 2021 | 66 | 2021 |
Non-plastidic, tyrosine-insensitive prephenate dehydrogenases from legumes CA Schenck, S Chen, DL Siehl, HA Maeda Nature Chemical Biology 11 (1), 52-57, 2015 | 57 | 2015 |