5 Must Know Facts For Your Next Test

1. Terpenes can be classified based on their molecular structure into several categories including monoterpenes, sesquiterpenes, and diterpenes.
2. These compounds are involved in plant defense strategies against herbivores and pathogens by attracting predators or parasitoids that attack these threats.
3. Terpenes have significant applications in the food, cosmetic, and pharmaceutical industries due to their aromatic properties and potential health benefits.
4. The biosynthesis of terpenes occurs through the mevalonate pathway or the non-mevalonate pathway, where isoprene units are assembled into more complex structures.
5. Some terpenes have been studied for their therapeutic properties, such as anti-inflammatory and antimicrobial effects, making them important in natural product research.

Review Questions

• How do terpenes contribute to plant defense mechanisms against herbivores?
  • Terpenes play a crucial role in plant defense by producing volatile compounds that can deter herbivores directly through taste or smell. Additionally, certain terpenes can attract natural predators or parasitoids of herbivores, creating a chemical signaling system that enhances the plant's survival. This interaction illustrates how terpenes not only protect the plant but also impact ecological relationships within its environment.
• Discuss the significance of terpenes in industrial applications and their potential health benefits.
  • Terpenes are significant in various industrial applications due to their aromatic properties, being key ingredients in perfumes, flavorings, and essential oils used in aromatherapy. Beyond their sensory contributions, terpenes also show potential health benefits, including anti-inflammatory and antimicrobial properties. This has led to increased interest in their use in pharmaceutical products and natural remedies, highlighting their versatile role in both nature and human industry.
• Evaluate the biosynthetic pathways involved in terpene production and their implications for metabolomics research.
  • The biosynthesis of terpenes involves two main pathways: the mevalonate pathway and the non-mevalonate pathway. These pathways illustrate how plants generate diverse terpene structures from basic isoprene units through enzymatic reactions. Understanding these pathways is essential for metabolomics research as it provides insights into how metabolic networks function within organisms, revealing how environmental factors influence metabolite production. This knowledge can facilitate biotechnological applications such as enhancing terpene yield for therapeutic uses or improving crop resistance.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.