Rhodococcus jostii: Difference between revisions

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===Background===
===Background===
<em>Rhodococcus jostii</em> RHA1 has been studied for its biotechnological applications due to its ability to catabolise a wide range of organic compounds and produce and accumulate large quantities of triacylglycerols (TAGs). RHA1 is able to catabolise several aromatic compounds including biophenyls, phthalate, benzoate, vanillin and <em>p</em>-hydroxycinnamates as carbon sources. Under nitrogen-limited conditions, RHA1 accumulates TAGs up to 55% of its dry cell weight.


===Growth & Maintenance===
===Growth & Maintenance===

Latest revision as of 18:46, 3 September 2019

Organism Page

Rhodococcus jostii

Background

Rhodococcus jostii RHA1 has been studied for its biotechnological applications due to its ability to catabolise a wide range of organic compounds and produce and accumulate large quantities of triacylglycerols (TAGs). RHA1 is able to catabolise several aromatic compounds including biophenyls, phthalate, benzoate, vanillin and p-hydroxycinnamates as carbon sources. Under nitrogen-limited conditions, RHA1 accumulates TAGs up to 55% of its dry cell weight.

Growth & Maintenance

LB or M9

Sporulation

Nonsporulating

Strains

Rhodococcus jostii RHA1

Links

Genomes
Transcriptomes
Proteomics
Protocols

Availability

Culture Collections