Birger Lindberg Møller
Birger Lindberg Møller
Department of Plant and Environmental Sciences, University of Copenhagen
Verified email at - Homepage
Cited by
Cited by
β-Glucosidases as detonators of plant chemical defense
AV Morant, K Jørgensen, C Jørgensen, SM Paquette, R Sánchez-Pérez, ...
Phytochemistry 69 (9), 1795-1813, 2008
Metabolon formation and metabolic channeling in the biosynthesis of plant natural products
K Jørgensen, AV Rasmussen, M Morant, AH Nielsen, N Bjarnholt, ...
Current opinion in plant biology 8 (3), 280-291, 2005
Cyanogenic glycosides: synthesis, physiology, and phenotypic plasticity
RM Gleadow, BL Møller
Annual review of plant biology 65 (1), 155-185, 2014
Cyanogenic glucosides and plant–insect interactions
M Zagrobelny, S Bak, AV Rasmussen, B Jørgensen, CM Naumann, ...
Phytochemistry 65 (3), 293-306, 2004
De Novo Biosynthesis of Vanillin in Fission Yeast (Schizosaccharomyces pombe) and Baker's Yeast (Saccharomyces cerevisiae)
EH Hansen, BL Møller, GR Kock, CM Bünner, C Kristensen, OR Jensen, ...
Applied and environmental microbiology 75 (9), 2765-2774, 2009
Plant chemical defense: at what cost?
EH Neilson, JQD Goodger, IE Woodrow, BL Møller
Trends in plant science 18 (5), 250-258, 2013
Plant cytochromes P450: tools for pharmacology, plant protection and phytoremediation
M Morant, S Bak, BL Møller, D Werck-Reichhart
Current opinion in biotechnology 14 (2), 151-162, 2003
CYP703 is an ancient cytochrome P450 in land plants catalyzing in-chain hydroxylation of lauric acid to provide building blocks for sporopollenin synthesis in pollen
M Morant, K Jørgensen, H Schaller, F Pinot, BL Møller, D Werck-Reichhart, ...
The Plant Cell 19 (5), 1473-1487, 2007
On the origin of family 1 plant glycosyltransferases
S Paquette, BL Møller, S Bak
Phytochemistry 62 (3), 399-413, 2003
CYP704B1 Is a Long-Chain Fatty Acid ω-Hydroxylase Essential for Sporopollenin Synthesis in Pollen of Arabidopsis
AA Dobritsa, J Shrestha, M Morant, F Pinot, M Matsuno, R Swanson, ...
Plant physiology 151 (2), 574-589, 2009
Vanillin–bioconversion and bioengineering of the most popular plant flavor and its de novo biosynthesis in the vanilla orchid
NJ Gallage, BL Møller
Molecular plant 8 (1), 40-57, 2015
Resistance to an herbivore through engineered cyanogenic glucoside synthesis
DB Tattersall, S Bak, PR Jones, CE Olsen, JK Nielsen, ML Hansen, ...
Science 293 (5536), 1826-1828, 2001
Cassava plants with a depleted cyanogenic glucoside content in leaves and tubers. Distribution of cyanogenic glucosides, their site of synthesis and transport, and blockage of …
K Jørgensen, S Bak, PK Busk, C Sørensen, CE Olsen, J Puonti-Kaerlas, ...
Plant Physiology 139 (1), 363-374, 2005
Improved vanillin production in baker's yeast through in silico design
AR Brochado, C Matos, BL Møller, J Hansen, UH Mortensen, KR Patil
Microbial cell factories 9, 1-15, 2010
Substrate specificity of plant UDP-dependent glycosyltransferases predicted from crystal structures and homology modeling
SA Osmani, S Bak, BL Møller
Phytochemistry 70 (3), 325-347, 2009
Cyanogenesis in plants and arthropods
M Zagrobelny, S Bak, BL Møller
Phytochemistry 69 (7), 1457-1468, 2008
Cassava genome from a wild ancestor to cultivated varieties
W Wang, B Feng, J Xiao, Z Xia, X Zhou, P Li, W Zhang, Y Wang, BL Møller, ...
Nature communications 5 (1), 5110, 2014
Functional diversifications of cyanogenic glucosides
BL Møller
Current opinion in plant biology 13 (3), 337-346, 2010
Phytocannabinoids: origins and biosynthesis
T Gülck, BL Møller
Trends in plant science 25 (10), 985-1004, 2020
Characterization of a dynamic metabolon producing the defense compound dhurrin in sorghum
T Laursen, J Borch, C Knudsen, K Bavishi, F Torta, HJ Martens, ...
Science 354 (6314), 890-893, 2016
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