Betlach M R, Tiedje J M, Firestone R B
Arch Microbiol. 1981 Apr;129(2):135-40. doi: 10.1007/BF00455349.
The mechanism of nitrate uptake for assimilation in procaryotes is not known. We used the radioactive isotope, 13N as NO3-, to study this process in a prevalent soil bacterium, Pseudomonas fluorescens. Cultures grown on ammonium sulfate or ammonium nitrate failed to take up labeled nitrate, indicating ammonium repressed synthesis of the assimilatory enzymes. Cultures grown on nitrite or under ammonium limitation had measurable nitrate reductase activity, indicating that the assimilatory enzymes need not be induced by nitrate. In cultures with an active nitrate reductase, the form of 13N internally was ammonium and amino acids; the amino acid labeling pattern indicated that 13NO3- was assimilated via glutamine synthetase and glutamate synthase. Cultures grown on tungstate to inactivate the reductase concentrated NO3- at least sixfold. Chlorate had no effect on nitrate transport or assimilation, nor on reduction in cell-free extracts. Ammonium inhibited nitrate uptake in cells with and without active nitrate reductases, but had no effect on cell-free nitrate reduction, indicating the site of inhibition was nitrate transport into the cytoplasm. Nitrate assimilation in cells grown on nitrate and nitrate uptake into cells grown with tungstate on nitrite both followed Michaelis-Menten kinetics with similar Km values, 7 muM. Both azide and cyanide inhibited nitrate assimilation. Our findings suggest that Pseudomonas fluorescens can take up nitrate via active transport and that nitrate assimilation is both inhibited and repressed by ammonium.
原核生物中硝酸盐吸收用于同化的机制尚不清楚。我们使用放射性同位素(^{13}N)作为(NO_3^-),来研究一种常见土壤细菌荧光假单胞菌中的这一过程。在硫酸铵或硝酸铵上生长的培养物无法吸收标记的硝酸盐,这表明铵抑制了同化酶的合成。在亚硝酸盐上生长或在铵限制条件下的培养物具有可测量的硝酸还原酶活性,这表明同化酶不需要由硝酸盐诱导。在具有活性硝酸还原酶的培养物中,内部的(^{13}N)形式是铵和氨基酸;氨基酸标记模式表明(^{13}NO_3^-)是通过谷氨酰胺合成酶和谷氨酸合酶同化的。在钨酸盐上生长以使还原酶失活的培养物将(NO_3^-)浓缩了至少六倍。氯酸盐对硝酸盐转运或同化没有影响,对无细胞提取物中的还原也没有影响。铵抑制有和没有活性硝酸还原酶的细胞中的硝酸盐吸收,但对无细胞硝酸盐还原没有影响,这表明抑制位点是硝酸盐转运到细胞质中。在硝酸盐上生长的细胞中的硝酸盐同化以及在亚硝酸盐上用钨酸盐生长的细胞中硝酸盐的吸收均遵循米氏动力学,(Km)值相似,为(7)微摩尔。叠氮化物和氰化物均抑制硝酸盐同化。我们的研究结果表明,荧光假单胞菌可以通过主动运输吸收硝酸盐,并且铵既抑制又阻遏硝酸盐同化。
