Electron impact and chemical ionization mass spectral analyses of methyl esters species of free mycolic acid fraction from Rhodococcus lentifragmentus

The free mycolic acid fraction from Rhodococcus lentifragmentus was derivatized to methyl esters and further fractionated into saturated (F-0), monounsaturated (F-1) and diunsaturated (F-2) species using argentation-TLC. Methyl esters fractions F-0, F-1 and F-2, accounting for approximately 7.4%, 53.1% and 39.5%, respectively, were analyzed by electron impact (EI) and chemical ionization (CI) mass spectrometries. According to EI-MS, peaks observed for M(+)-18, that were prominent compared to those representing M(+)-32 and M(+)-(18 + 32), indicated that the carbon chain size ranged from C-36 to C-48. The pyrolytic cleavage of methyl mycolates (R(2)-CHOH-CH(R(1))-COOCH3), following the McLafferty rearrangement released fragment ions corresponding to, (a) the alpha-subunit, representing the fatty acid methyl ester (R(1)-CH2-COOCH3), methyl hexadecanoate, methyl tetradecanoate and methyl dodecanoate in decreasing order of relative intensity of peaks, and (b) the beta-subunit, representing the meroaldehyde moiety (R(2)-CHO). The saturated meroaldehyde species exhibited peaks representing meroaldehyde minus 18 mass units in which R(2) ranged from C19H39 to C31H63. The monunsaturated species exhibited peaks representing the meroaldehyde in which R(2) ranged from C19H37 to C31H61; peaks corresponding to meroaldehyde minus 18 mass units appeared only in the most abundant components, C29H57CHO, C27H53CHO, C25H49CHO and C31H61CHO, in a decreasing order of relative abundance. The diunsaturated species exhibited peaks essentially corresponding to meroaldehyde in which R(2) corresponded to C31H59 and C29H55; the latter displayed a relative intensity that was about one-half compared to that of the former. Fractions F-0, F-1 and F-2 showed a more intense pyrolytic fragmentation under CI-MS in contrast to results found under EI-MS. Therefore, peaks representing the alpha-subunit and the beta-subunit were more prominent than the ones representing the fragmentation of the hydrocarbon chain. Moreover, the beta-subunit of saturated species exhibited peaks corresponding to meroaldehyde plus hydrogen, and no dehydration of the beta-subunit occurred in this case. In turn, the beta-subunit of monounsaturated and diunsaturated species showed peaks representing both the meroaldehyde plus hydrogen and its dehydration product plus hydrogen. Thus, the presence of unsaturation in the meroaldehyde subunit of methyl mycolate facilitates appearance of dehydration fragment ions under chemical ionization procedure

Effect of growth stage on mycolic acid structure in cell walls of Nocardia asteroides GUH-2.

Mycolic acids were extracted from the cell walls of Nocardia asteroides GUH-2 during different phases of growth at 37 degrees C. These were subjected to structural analysis by combining thin-layer chromatography and gas-liquid chromatography with UV and infrared spectrophotometry and mass spectroscopy of both methyl esters and trimethyl silyl derivatives. By analyzing the fragmentation patterns of these derivatives by three different methods of mass spectroscopy combined with gas-liquid chromatographic separation, the different structural subclasses of mycolic acids were quantitated. Significant qualitative and quantitative modifications of specific mycolic acid subclasses occurred in the cell walls of N. asteroides GUH-2 that were growth stage dependent. The mycolic acids that were predominant in the log phase were polyunsaturated (greater than 2 double bonds per molecule), with long chain lengths and even carbon atom numbers (i.e., C54, C56). In contrast, those that were prominent in the stationary phase were more saturated (few or no double bonds) and of shorter overall carbon chain length (less than or equal to C52). Furthermore, stationary-phase cells had significantly increased amounts of mycolic acids with odd-numbered carbon chain lengths (i.e., C49, C51, C53)