Hatcher H J, Schmidt E L
Appl Microbiol. 1971 Feb;21(2):181-6. doi: 10.1128/am.21.2.181-186.1971.
Heterotrophic conversion of l-aspartic acid to nitrification products by Aspergillus flavus was studied in a replacement incubation system. Numerous amino acids supported nitrification; aspartate and glutamate were about equivalent as the best sources of nitrate. Addition of sodium bicarbonate to the incubation system substantially enhanced nitrate formation for all nitrifiable amino acids except aspartic acid, but the basis for the bicarbonate effect is obscure. The yield of nitrate from l-aspartate was not approached by forms of aspartic acid resulting from substitution on the beta carbon, the amino nitrogen, or the gamma carboxyl group or by aspartate presented as the d-configuration. There was no relationship between nitrate formation and the occurrence of such possible intermediates as nitrite, bound hydroxylamine, ammonia, aspergillic acid, and beta-nitropropionic acid. Uniformly labeled (14)C-l-aspartate that was nitrified in replacement incubation led to no accumulation of label in possible nitrification products in the culture filtrate. Label was found in components of the mycelium after acid hydrolysis, with heaviest accumulation in what appeared to be glucosamine and an unidentified compound, possibly acetylglucosamine. Detectable label was redistributed into serine, glycine, and threonine.
在置换培养系统中研究了黄曲霉将L-天冬氨酸异养转化为硝化产物的过程。许多氨基酸都能支持硝化作用;天冬氨酸和谷氨酸作为硝酸盐的最佳来源大致相当。向培养系统中添加碳酸氢钠能显著提高除天冬氨酸外所有可硝化氨基酸的硝酸盐生成量,但碳酸氢钠作用的基础尚不清楚。β-碳、氨基氮或γ-羧基取代产生的天冬氨酸形式,或呈D-构型的天冬氨酸,其硝酸盐产量均未达到L-天冬氨酸的水平。硝酸盐生成与亚硝酸盐、结合羟胺、氨、曲酸和β-硝基丙酸等可能的中间体的出现之间没有关系。在置换培养中被硝化的均匀标记的(14)C-L-天冬氨酸,在培养滤液的可能硝化产物中没有导致标记物的积累。酸水解后在菌丝体成分中发现了标记物,在似乎是氨基葡萄糖和一种未鉴定的化合物(可能是乙酰氨基葡萄糖)中积累最多。可检测到的标记物重新分布到丝氨酸、甘氨酸和苏氨酸中。
