Degradation of the multiple branched alkane 2,6,10,14-tetramethyl-pentadecane (pristane) in Rhodococcus ruber and Mycobacterium neoaurum

Pristane, a highly branched hydrocarbon that also contains iso-branched termini, was used as a substrate for several alkane-metabolizing bacteria. Rhodococcus ruber and Mycobacterium neoaurum were able to utilize pristane for growth effectively. The intermediates produced by these bacteria during incubation with pristane were analyzed by gas chromatography (GC) and gas chromatography/mass spectra (GC/MS). The products revealed as products of 4-methyl pentanoic acid; methyl butanedioic acid; 2-methyl pentadioic acid; methyl propanedioic acid; 4-methyl heptanedioic acid; and 2,6,10,14-tetramethyl-pentadecan-3-one were detected in M. neoaurum cultures. In R. ruber, methyl butanedioic acid; 2-methyl pentadioic acid; 4,8-dimethylnonanoic acid, 4-methyl heptanedioic acid; 2,6,10-trimethylundecanoic acid; 3,7-dimethyl decanedioic acid; and 2,6,10,14-tetramethyl-pentadecan-3-one were detected. The occurrence of these intermediates showed that pristane could be catabolized not only via mono- but also by a di-terminal oxidation pathway. Furthermore, the presence of 2,6,10,14-tetramethyl-pentadecan-3-one; 3,7-dimethyldecandioate; and 2-methylbutandioate established a third pathway initiated by sub-terminal oxidation at the third carbon atom of pristane. Novel intermediates detected suggest simultaneous sub-terminal and di-terminal oxidation pathways.