A large increase in IAA during development of rice grains correlates with the expression of tryptophan aminotransferase OsTAR1 and a grain‐specific YUCCA YM Abu‐Zaitoon, K Bennett, J Normanly, HM Nonhebel Physiologia plantarum 146 (4), 487-499, 2012 | 127 | 2012 |
Biosynthesis of indole-3-acetic acid in tomato shoots: Measurement, mass-spectral identification and incorporation of− 2 H from− 2 H 2 O into indole-3-acetic acid, d-and l … TP Cooney, HM Nonhebel Planta 184, 368-376, 1991 | 113 | 1991 |
Auxins RS Bandurski, HM Nonhebel Advanced plant physiology, 1-20, 1984 | 76 | 1984 |
Tryptophan-independent indole-3-acetic acid synthesis: critical evaluation of the evidence HM Nonhebel Plant physiology 169 (2), 1001-1005, 2015 | 69 | 2015 |
The route, control and compartmentation of auxin synthesis HM Nonhebel, TP Cooney, R Simpson Functional Plant Biology 20 (5), 527-539, 1993 | 53 | 1993 |
Indole-3-acetic acid catabolism in Zea mays seedlings. Metabolic conversion of oxindole-3-acetic acid to 7-hydroxy-2-oxindole-3-acetic acid 7'-O-beta-D-glucopyranoside. HM Nonhebel, LI Kruse, RS Bandurski Journal of Biological Chemistry 260 (23), 12685-12689, 1985 | 52 | 1985 |
Induced tolerance of Sclerotinia sclerotiorum to isothiocyanates and toxic volatiles from Brassica species S Rahmanpour, D Backhouse, HM Nonhebel Plant Pathology 58 (3), 479-486, 2009 | 49 | 2009 |
Oxidation of Indole-3-acetic Acid and Oxindole-3-acetic Acid to 2, 3-Dihydro-7-hydroxy-2-oxo-1 H Indole-3-acetic Acid-7′-O-β-d-Glucopyranoside in Zea mays Seedlings HM Nonhebel, RS Bandurski Plant physiology 76 (4), 979-983, 1984 | 49 | 1984 |
A p53-like transcription factor similar to Ndt80 controls the response to nutrient stress in the filamentous fungus, Aspergillus nidulans ME Katz, K Braunberger, G Yi, S Cooper, HM Nonhebel, C Gondro F1000Research 2, 2013 | 45 | 2013 |
Hormonal regulation of cereal endosperm development with a focus on rice (Oryza sativa) MA Basunia, HM Nonhebel Functional Plant Biology 46 (6), 493-506, 2019 | 42 | 2019 |
Auxin and cell wall invertase related signaling during rice grain development S Russell French, Y Abu-Zaitoon, MM Uddin, K Bennett, HM Nonhebel Plants 3 (1), 95-112, 2014 | 39 | 2014 |
Analysis of [14C] indole‐3‐acetic acid metabolites from the primary roots of Zea mays seedlings using reverse‐phase high‐performance liquid chromatography HM Nonhebel, A Crozier, JR Hillman Physiologia plantarum 57 (1), 129-134, 1983 | 37 | 1983 |
Redirection of tryptophan metabolism in tobacco by ectopic expression of an Arabidopsis indolic glucosinolate biosynthetic gene H Nonhebel, Y Yuan, H Al-Amier, M Pieck, E Akor, A Ahamed, JD Cohen, ... Phytochemistry 72 (1), 37-48, 2011 | 32 | 2011 |
The measurement and mass spectral identification of indole-3-pyruvate from tomato shoots TP Cooney, HM Nonhebel Biochemical and biophysical research communications 162 (2), 761-766, 1989 | 30 | 1989 |
Contrasting Incorporation of 2H from 2H2O into ABA, Xanthoxin and Carotenoids in Tomato Shoots HM Nonhebel, BV ILBORROW Journal of experimental botany 38 (6), 980-991, 1987 | 25 | 1987 |
Reaction of glucosinolate-myrosinase defence system in Brassica plants to pathogenicity factor of Sclerotinia sclerotiorum S Rahmanpour, D Backhouse, HM Nonhebel European journal of plant pathology 128, 429-433, 2010 | 22 | 2010 |
Metabolism of [14C]Indole-3-Acetic Acid by Coleoptiles of Zea mays L. HM Nonhebel, JR Hillman, A Crozier, MB Wilkins Journal of experimental botany 36 (1), 99-109, 1985 | 21 | 1985 |
Measurement of the Rates of Oxindole-3-Acetic Acid Turnover, and Indole-3-Acetic Acid Oxidation in Zea mays Seedlings HM Nonhebel Journal of experimental botany 37 (11), 1691-1697, 1986 | 18 | 1986 |
Advanced plant physiology RS Bandurski, HM Nonhebel, MB Wilkins Pitman Publishing, London, 1-20, 1984 | 18 | 1984 |
Localised expression of OsIAA29 suggests a key role for auxin in regulating development of the dorsal aleurone of early rice grains MA Basunia, HM Nonhebel, D Backhouse, M McMillan Planta 254, 1-15, 2021 | 17 | 2021 |