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机译:Apocynaceae中吡咯唑类生物碱生物合成的演变:重新审视防御脱升假设
Department of Biodiversity Earth and Environmental SciencesAcademy of Natural Sciences of Drexel University1900 Benjamin Franklin Parkway Philadelphia PA 19103 USA;
Biochemical Ecology and Molecular EvolutionChristian‐Albrechts University KielOlshausenstrasse 40 24098 Kiel Germany;
Department of BiologyHobart and William Smith CollegesGeneva NY 14456 USA;
Department of Botany &
Plant PathologyOregon State University2082 Cordley Hall Corvallis OR 97331 USA;
Department of Biodiversity Earth and Environmental SciencesAcademy of Natural Sciences of Drexel University1900 Benjamin Franklin Parkway Philadelphia PA 19103 USA;
Department of Biodiversity Earth and Environmental SciencesAcademy of Natural Sciences of Drexel University1900 Benjamin Franklin Parkway Philadelphia PA 19103 USA;
Department of Biodiversity Earth and Environmental SciencesAcademy of Natural Sciences of Drexel University1900 Benjamin Franklin Parkway Philadelphia PA 19103 USA;
Department of Botany &
Plant PathologyOregon State University2082 Cordley Hall Corvallis OR 97331 USA;
alkaloids; biosynthetic pathway; coevolution; gene duplication; plant–herbivore interactions; secondary metabolism;
机译:Apocynaceae中吡咯唑类生物碱生物合成的演变:重新审视防御脱升假设
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机译:夹竹桃科吡咯烷核生物碱生物合成的演变:重新审视防御降级假说
机译:Apocynaceae中吡咯醇生物碱生物合成的演变:重新审视防御脱升假设