Insights into the Metabolism of Oleaginous Rhodococcus spp

Some species belonging to the genus, such as , , and , are known to be oleaginous microorganisms, since they are able to accumulate triacylglycerols (TAG) at more than 20% of their weight (dry weight). Oleaginous rhodococci are promising microbial cell factories for the production of lipids to be us...

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Veröffentlicht in:	Applied and environmental microbiology 2019-09, Vol.85 (18)
Hauptverfasser:	Alvarez, Héctor M, Herrero, O Marisa, Silva, Roxana A, Hernández, Martín A, Lanfranconi, Mariana P, Villalba, Maria S
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteria Biosynthesis Industrial engineering Industrial wastes Innovations Lipid metabolism Lipids Manufacturing engineering Metabolism Microorganisms Minireview Oil and gas production Oils & fats Organic chemistry Rhodococcus Rhodococcus - metabolism Strains (organisms) Triglycerides Triglycerides - metabolism Weight
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creator	Alvarez, Héctor M Herrero, O Marisa Silva, Roxana A Hernández, Martín A Lanfranconi, Mariana P Villalba, Maria S
description	Some species belonging to the genus, such as , , and , are known to be oleaginous microorganisms, since they are able to accumulate triacylglycerols (TAG) at more than 20% of their weight (dry weight). Oleaginous rhodococci are promising microbial cell factories for the production of lipids to be used as fuels and chemicals. Cells could be engineered to create strains capable of producing high quantities of oils from industrial wastes and a variety of high-value lipids. The comprehensive understanding of carbon metabolism and its regulation will contribute to the design of a reliable process for bacterial oil production. Bacterial oleagenicity requires an integral configuration of metabolism and regulatory processes rather than the sole existence of an efficient lipid biosynthesis pathway. In recent years, several studies have been focused on basic aspects of TAG biosynthesis and accumulation using PD630 and RHA1 strains as models of oleaginous bacteria. The combination of results obtained in these studies allows us to propose a metabolic landscape for oleaginous rhodococci. In this context, this article provides a comprehensive and integrative view of different metabolic and regulatory attributes and innovations that explain the extraordinary ability of these bacteria to synthesize and accumulate TAG. We hope that the accessibility to such information in an integrated way will help researchers to rationally select new targets for further studies in the field.
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subjects	Bacteria Biosynthesis Industrial engineering Industrial wastes Innovations Lipid metabolism Lipids Manufacturing engineering Metabolism Microorganisms Minireview Oil and gas production Oils & fats Organic chemistry Rhodococcus Rhodococcus - metabolism Strains (organisms) Triglycerides Triglycerides - metabolism Weight
title	Insights into the Metabolism of Oleaginous Rhodococcus spp
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