Evolution of pyrrolizidine alkaloid biosynthesis in Apocynaceae: revisiting the defence de‐escalation hypothesis

著录项

• 来源
  《The New Phytologist》 |2018年第2期|共12页
• 作者

  Livshultz Tatyana; Kaltenegger Elisabeth; Straub Shannon C. K.; Weitemier Kevin; Hirsch Elliot; Koval Khrystyna; Mema Lumi; Liston Aaron;

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• 作者单位

  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;

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• 收录信息
• 原文格式 PDF
• 正文语种 eng
• 中图分类 植物学;
• 关键词

  alkaloids; biosynthetic pathway; coevolution; gene duplication; plant–herbivore interactions; secondary metabolism;

  机译：生物碱;生物合成途径;参数;基因复制;植物 - 食草动物相互作用;二次新陈代谢;