The end products of the metabolism of phenylalanine, tyrosine and tryptophan by growing cultures of clostridia have been identified. The species used were Clostridium aminovalericum; C. bifermentans; C. botulinum proteolytic type A; C. botulinum proteolytic type B; C. cochlearium; C. difficile; C. ghoni; C. histolyticum; C. lentoputrescens; C. limosum; C. lituseburense; C. malenomenatum; C. mangenoti; C. propionicum; C. putrefaciens; C. sordellii; C. sporogenes; C. sporosphaeroides; C. sticklandii; C. subterminale; C. tetani; C. tetanomorphum. The mixture of aromatic compounds formed, which depended upon the species, included phenyl acetic acid, phenyl propionic acid, phenyl lactic acid, phenol, p-cresol, p-hydroxy phenyl acetic acid, p-hydroxy phenyl propionic acid, indole, indole acetic acid and indole propionic acid.
The growth and hyoscyamine production of transformed roots of Datura stramonium have been examined in a modified 14-1 stirred tank reactor in both batch and continuous fermentations on media containing half or full strength Gamborg's B5 salts and at three different temperatures. Under a range of conditions, roots grown on half strength B5 salts with 3% w/v sucrose had a higher dry matter content (up to 8.3% w/w) and a higher hyoscyamine content (up to 0.52 mg.g-1 wet weight) than roots grown on full strength B5 salts with the same level of sucrose (up to 4.6% w/w dry matter and up to 0.33 mg hyoscyamine g-1 wet weight). Growth at 30 degrees C was initially faster than at either 25 degrees C or 35 degrees C and by day 12, the drained weight of roots in the fermentor at 30 degrees C was about fourfold greater than at 25 degrees C and twice that at 35 degrees C. The ultimate hyoscyamine levels attained (approximately 0.5 mg.g-1 wet weight) were similar at both 25 degrees C and 30 degrees C but some 40% lower at 35 degrees C. Final packing densities of 70% w/v were achieved for roots after 37 days growth at 25 degrees C and the highest production rate of 8.2 mg hyoscyamine 1(-1) per day was obtained for roots grown at 30 degrees C. In continuous fermentation at 25 degrees C, the release of hyoscyamine into the culture medium was low (less than 0.5% w/w of the total) but was up to sevenfold higher in fermentors operated at 30 degrees C or 35 degrees C.
The polyamide layer technique for the chromatographic separation of dimethylaminonaphthalene sulphonyl amino acids has been adapted to the qualitative analysis of amino acids in media before and after the growth of micro-organisms. The method has been used to study the amino acids metabolized by cultures of proteolytic clostridia growing in a medium consisting of an acid hydrolysate of casein as a source of amino acids and small amounts of yeast extract and trypticase as sources of growth factors. The chromatograms of the media after growth showed which amino acids were used and which new amino acids were produced. Clostridium botulinum type F (proteolytic), C. ghoni, C. mangenoti and C. putrificum were found to reduce proline to 5-aminovaleric acid and to produce 2-aminobutyric acid, properties they shared with C. sporogenes and C. sticklandii. C. botulinum type G and C. subterminale used glycine, lysine, serine, and arginine but in contrast to C. sticklandii they neither reduced proline to 5-aminovaleric acid nor produced 2-aminobutyric acid. Both organisms oxidized phenylalanine, tyrosine and tryptophan to phenylacetic acid, p-hydroxyphenyl acetic acid and indole acetic acid respectively. C. lituseburense and C. scatologenes used serine, threonine and arginine and produced 2-amino butyric acid and ornithine. C. lentoputrescens, C. limosum and C. malenomenatum resembled C. tetanomorphum by using glutamic acid and tyrosine. The chromatograms always showed the physiological group to which an organism belonged and in some cases were characteristic of the species.
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