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• W2113591552 abstract "This PubChem entry has information on chemical properties, biological interactions, and commercial sources for isoprene. This Wikipedia entry covers the biological and commercial sources of isoprene and also discusses briefly some of the details of isoprene biosynthesis. This webpage defines the terpenoid class of compounds and provides lnks to a relatively small number of specific terpenoid compounds. This database page lists important physiological isoprenoids and provides links to pages containing additional information. This page describes technology to produce isoprene by cyanobacteria using the MEP pathway. This interesting paper compares features of the chemical versus biological processes for making isoprene. The general conclusion is that the biological process is still more expensive than the chemical one, but it has good prospects in the long run. Isoprene contributes greatly to atmospheric aerosols. This paper describes modeling to follow isoprene and isoprene-derived chemical species as markers. There are two classes of hydroxymethylglutaryl-CoA reductases, a key enzyme in the synthesis of isoprenoid compounds, and this page describes class II enzymes which include those from bacteria as well as some archaea. This blog deals with some members of a certain class of hopanoids, which are one specific type of polycyclic isoprenoid compounds. This page contains a pathway map, in text and graphical form, for the cyclic isoprenoid compound limonene and information about the compounds and enzymes involved. This page contains a pathway map, in text and graphical form, for the acyclic isoprenoid alcohol geraniol and information about the compounds and enzymes involved. Geosmin is a bicyclic isoprenoid compound that is produced by Actinobacteria and is responsible for the earthy smell that is most noticeable following a rain after a long dry spell. The noticeable odor is due to the volatility of the compound and the sensitivity of the human nose to geosmin. This review describes isoprenoid compounds in general with a particular focus on their biosynthesis by microbial pathogens and the opportunities for new antibiotics by targeting the biosynthetic pathways. There are over 750 different carotenoids known and their estimated market value is approaching one billion dollars. This review deals with these compounds and recent research on their microbial production. This paper deals with an alternative to nucleic acid methods for monitoring microbial populations in which the ubiquitous microbial isoprenoid quinones are identified as markers for certain microbial types. This news article highlights recent findings showing that terpene biosynthesis by bacteria is more pervasive than previously thought. A bioinformatics approach revealed the widespread occurrence and a rich diversity of terpene synthases in prokaryotes. This article highlights how isoprenoid compounds are extremely important for the flavor and fragrance industry. This commercial website contains much useful information on the biosynthesis and properties of terpenoid compounds. This article extends our knowledge of the association between ectomycorrhizal fungi and and plants by showing that facets of the mutualistic association are mediated by isoprenoid compounds. This review discusses a wide variety of fungal sesquiterpenes and the potential significance of those compounds in nature." @default.
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• W2113591552 date "2015-05-11" @default.
• W2113591552 modified "2023-10-14" @default.
• W2113591552 title "Isoprene and isoprenoid compounds" @default.
• W2113591552 doi "https://doi.org/10.1111/1758-2229.12294" @default.
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