| Literature DB >> 22214407 |
Heinz-Georg Wetzstein1, Josef Schneider, Wolfgang Karl.
Abstract
Liquid cultures of the basidiomycetous fungus Gloeophyllum striatum were employed to study the biodegradation ofEntities:
Year: 2012 PMID: 22214407 PMCID: PMC3311597 DOI: 10.1186/2191-0855-2-3
Source DB: PubMed Journal: AMB Express ISSN: 2191-0855 Impact factor: 3.298
Figure 2Co-chromatographic identification of PRA metabolites. Elution profiles of chemically synthesized references are shown in traces (A): 8-OH-PRA, F-6; (B): the 7-amino metabolite of PRA, F-9; and (C): the 3-hydroxy-congener of PRA, F-1. Trace (E) represents the elution profile of concentrated supernatants. In trace (D), concentrated supernatant had been spiked by adding compounds A, B and C to approximately double their concentrations. Note the reversed order of F-6 and F-9 (as compared to Figure 1), due to the shallower gradient applied; retention times are summarized in Table 1. Absorbance was recorded at 270 nm.
Figure 3Metabolic scheme for PRA in . Degradation routes were initiated by oxidative decarboxylation (A), defluorination (B), hydroxylation of position C-8 (C), and decomposition of the amine moiety (D) which, alternatively, could be eliminated intact as F-10. Hypothetical intermediates are marked in grey: twofold oxidation of the pyrogallol-type intermediate is likely to provide a cis,cis-muconic acid-type metabolite, from which F-13 may be formed after two spontaneous decarboxylations.
HPLC retention times, pseudomolecular ions in HPLC-MS, and characteristics of the UV absorption spectra of [14C]PRA and its metabolites
| Characteristic | Values for | |||||||
|---|---|---|---|---|---|---|---|---|
| PRA | F-1 | F-2 | F-5 | F-6 | F-9 | F-10 | F-13 | |
| Retention time (min) | ||||||||
| Method A | 23.8 | 20.2 | 23.3 | 25.3 | 28.1 | 28.6 | ~2.4 | 15.2 |
| Method B | 32.0 | 24.7 | 31.4 | 35.2 | 41.0 | 38.7 | ~2.4 | 16.8 |
| Pseudomolecular ion | ||||||||
| [M+H]+ ( | 397 | 369 | 395 | 411 | 388 | 288 | 127 | 247 |
| UV absorption (nm) | ||||||||
| λmax (major) | 288 | 250 | 288 | 298 | 242 | 272 | - | 280 |
| λmax (minor) | 364 | 278 | 376 | 260 | 298 | 328 | - | 320 |
| Shoulder | 374 | 260 | ||||||
a [M+H]+ was accompanied by [M+2+H]+, resulting from the 14C-label;
b Data obtained in an experiment with [pyrrolidinopiperidine-7-14C]PRA
Figure 1HPLC elution profiles of concentrated supernatants from cultures of . In trace (B), the sensitivity of detection was increased threefold.
1H-NMR characteristics of the aromatic protons of PRA and metabolites produced by G. striatum
| Chemical | Coupling | ||
|---|---|---|---|
| Compound | H assignment | shift δ | constant |
| (ppm) | (Hz) | ||
| PRA | H-2 | 8.92 | |
| H-5 | 7.87 | 14.5 | |
| F-1 | H-2 | 8.41 | |
| H-5 | 7.96 | 14.8 | |
| F-2 | H-2 | 9.06 | |
| H-5 | 7.64 | ||
| F-5 | H-2 | 8.81 | |
| F-13 | H-2 | 8.80 | |
| H-5 | 7.08 | ||
| H-2' | 8.81 |