Open AccessBook
Lipid Metabolism In Plants
Katherine M. Schmid,John B. Ohlrogge +1 more
- 01 Jan 2020
TL;DR: Since plants are not mobile, and since photosynthesis provides fixed carbon on a regular basis, plant requirements for lipid storage as an efficient, light weight energy reserve are less acute than those of animals.
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Abstract: Publisher Summary Plants produce the majority of the world's lipids, and most animals, including humans, depend on these lipids as a major source of calories and essential fatty acids. Like other eukaryotes, plants require lipids for membrane biogenesis, as signal molecules, and as a form of stored carbon and energy. In addition, leaves and other aerial surfaces, bark, herbaceous shoots, and roots each have distinctive protective lipids that help prevent desiccation and infection. The presence of chloroplasts and related organelles in plants has a profound effect on both gross lipid composition and the flow of lipid within the cell. Fatty acid synthesis occurs not in the cytosol as in animals and fungi, but in the chloroplast and other plastids. On a whole organism basis, plants store more carbon as carbohydrate than as lipid. Since plants are not mobile, and since photosynthesis provides fixed carbon on a regular basis, plant requirements for lipid storage as an efficient, light weight energy reserve are less acute than those of animals. Plant lipids have a substantial impact on the world economy and human nutrition. More than three-quarters of the edible and industrial oils marketed annually are derived from seed and fruit triacylglycerols.
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Molecular cloning and expression of Chimonanthus praecox farnesyl pyrophosphate synthase gene and its possible involvement in the biosynthesis of floral volatile sesquiterpenoids.
TL;DR: Tissue-specific and developmental analyses of the mRNA levels of CpFPPS and volatile sesquiterpenoids levels in C. praecox flowers revealed that the FPPS may play a regulatory role in floral volatile sESquiter penoids of wintersweet.
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Lipases associated with plant defense against pathogens.
Hye Jung Lee,Ohkmae K. Park +1 more
TL;DR: In this review, several types of plant defense-associated lipases are described, including their molecular aspects, enzymatic actions, cellular functions, and possible functional relevance in plant defense.
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Visible light-induced oxidation of lipid components of purple sulfur bacteria: a significant process in microbial mats
TL;DR: The presence of photoproducts of cis-vaccenic acid showed that under natural conditions photochemical reactions act extensively on senescent phototrophic bacteria, establishing the importance of photodegradation processes in this particular ecosystem.
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Chemotaxonomic Classification Applied to the Identification of Two Closely-Related Citrus TCMs Using UPLC-Q-TOF-MS-Based Metabolomics
Siyu Zhao,Zhenli Liu,Yisong Shu,Yisong Shu,Menglei Wang,Menglei Wang,Dan He,Dan He,Zhiqian Song,Honglian Zeng,Honglian Zeng,Zhangchi Ning,Cheng Lu,Aiping Lu,Aiping Lu,Yuanyan Liu +15 more
TL;DR: UPLC-Q-TOF-MS-based metabolomics was applied to depict the variable chemotaxonomic markers and elucidate the metabolic mechanism of Citrus TCMs from different species and at different ripening stages to provide a better understanding of their different medicinal uses.
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Enzymes of sphingolipid metabolism in plants.
TL;DR: Sphingolipid metabolism in plants was investigated only recently and focused on demonstrating and characterizing the in vitro activities of the major enzymatic steps, which are discussed in this chapter.
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