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1.
A novel process for the microbial production of l-glutamic acid on an industrial scale was successfully established by using a glycerol auxotroph.

The most suitable carbon source for producing L-glutamic acid was n-paraffins (C13–C15). The production of L-glutamic acid was not affected by a large amount of biotin or oleic acid in the absence of penicillin, and occurred maximally at the glycerol concentration of 0.02% at pH 6.6. The most effective temperature was 28°C.

Under optimal conditions in a 200 liter fermentor, the mutant produced 72 g/liter of L-glutamic acid. On the other hand, the parent produced 53 g/liter of L-glutamic acid in the presence of penicillin.

It is believed that the low productivity of L-glutamic acid by the parent strain was mainly due to the occurrence of the marked decrease in the viable cell counts at the later phase of the fermentation caused by the action of penicillin added.  相似文献   

2.
In this study, the mechanism of the extracellular accumulation of l-glutamic acid by the glycerol auxotroph was partially clarified. Whenever Corynebacterium alkanolyticum GL–21 (glycerol auxotroph) accumulated a large amount of l-glutamic acid in the fermentation broth, the content of its cellular phospholipids was not more than 50% of that of C. alkanolyticum No. 314 (prototroph).

Moreover, biotin, oleic acid or thiamine had no influence on the cellular phospholipid content of the auxotroph.

Under limited supply of glycerol, the efflux of l-glutamic acid in the auxotroph was extremely enhanced, but its enzyme activities participating in l-glutamic acid biosynthesis remained at the same level as those of the prototroph.

From the results, it is considered that the regulation of phospholipid content gave rise to the destruction of the permeability barrier to l-glutamic acid in the cell membrane.  相似文献   

3.
Relation between fatty acid composition of cellular phospholipids and the excretion of L-glutamic acid was investigated using Corynebacterium alkanolyticum GL–21 (a glycerol auxotroph).

When grown on n-hexadecane, the proportion of unsaturated fatty acids was higher in L-glutamic acid-accumulating cells than in L-glutamic acid-nonaccumulating cells. When grown on fructose or acetic acid, the reverse relation was observed. Moreover, cells containing no oleic acid produced L-glutamic acid from n-pentadecane.

These results suggest that the membrane permeability to L-glutamic acid is not always controlled by the cellular content of unsaturated fatty acids.  相似文献   

4.
Relation between cellular phospholipids and L-glutamic acid excretion was investigated using Corynebacterium alkanolyticum GL–21 (a glycerol auxotroph).

When strain GL–21 was cultured in glycerol-limited medium which contained n-hexadecane, acetic acid or fructose as carbon source, there occurred the limitation of cellular phospholipid content and the over-accumulation of L-glutamic acid in the broth. Two-dimensional thin-layer chromatograms provided evidence that both the parent and the mutant strains contained the same phospholipids such as cardiolipin, phosphatidylethanolamine, phosphadityl-glycerol, phosphatidylinositol and phosphatidic acid. Limited supply of glycerol to the mutant did not greatly alter the proportions of the individual phospholipids.  相似文献   

5.
Excellent l-proline producers were screened for among sulfaguanidine resistant mutants derived from three typical l-glutamic acid-producing bacteria: Brevibacterium flavum, B. lactofermentum, and C. glutamicum.

The best strain, No. 199, is a sulfaguanidine resistant mutant derived from an isoleucine auxotroph of B. flavum 2247 by nitrosoguanidine. Strain No. 199 produced 35 mg/ml of l-proline after 72 hr of cultivation with 10% glucose as a carbon source. The strain also accumulated purine bases such as adenine, guanine, and hypoxanthine, i.e., degradation products of purine nucleotides. In the mutant, 1.6 ~ 2.0 fold more intracellular ATP was found than that in the parent strain; it is a substrate of glutamate kinase relating to l-proline biosynthesis.

On the contrary, the levels of intracellular glutamic acid, a substrate of glutamate kinase, were similar among these strains.

It was confirmed that the increment of internal ATP, which was important in the l-proline production mechanism, was very effective in the improvement of l-proline producers.  相似文献   

6.
The addition of penicillin to cells of Corynebacterium alkanolyticum No. 314 growing on n-paraffins medium caused the simultaneous excretion of phospholipids, UDP-N-acetylhexosamine derivatives and L-glutamic acid.

Among many antibiotics which inhibit cell wall synthesis, only the inhibitors of peptideglycan transpeptidase such as penicillin G and cephaloridine were effective for inducing the excretion of phospholipids, UDP-N-acetylhexosamine derivatives and L-glutamic acid, while the others promoted only the excretion of UDP-N-acetylhexosamine derivatives.

From the close relationship between the excretion of L-glutamic acid and the excretion of phospholipids, it was suggested that the action of penicillins and cephalosporins on the cell membrane resulted in the excretion of L-glutamic acid.  相似文献   

7.
The effects on the polymorphic crystallization of l-glutamic acid were examined of many substances including amino acids, inorganic salts, surface active agents, and sodium salt or hydrochloride of l-glutamic acid, when contained in the mother liquor.

The co-existence of amino acids, especially of l-aspartic acid, l-phenylalanine, l-tyrosine, l-lcucine and l-cystine contributed to the crystallization of l-glutamic acid in α-form, and these amino acid showed an inhibitory action on the transition of α-crystals as the solid phase in the aqueous solution, to β-crystals.

In the presence of a large amount of l-glutamate or the hydrochloride at the time of nucleation of l-glutamic acid, mostly β-crystals appeared even in the presence of the amino acids named above.  相似文献   

8.
It is well known that biotin has a marked effect on l-glutamic acid fermentation.

The authors have intended to find strains which are independent of the amounts of biotin in the culture medium. As a result, oleic acid-requiring mutants were obtained from a strain of Brevibacterium thiogenitalis which is an auxotroph for biotin. The growth of the mutant was remarkably stimulated by Tween 20, 40, 60, Ca ions and a small amount of corn steep liquor. And also, the mutant was found to have lost its requirement for biotin and showed growth response only to oleic acid or unsaturated fatty acids.

The effect of biotin, oleic acid and other unsaturated fatty acids on the production of l-glutamic acid was investigated by using an oleic acid-requiring mutant of Brevibacterium thiogenitalis No. 653. The results described in the present paper showed that the oleic acid-requiring mutant D-248 produced a large amount of l-glutamic acid in the excess biotin-contaming media, and that oleic acid seemed to be completely replaced by other unsaturated fatty acids such as palmitoleic acid and linoleic acid.  相似文献   

9.
Structure of a sugar lipid produced by an oleic acid-requiring mutant of Brevibacterium thiogenitalis was studied and established as (I).

Relation between biotin and oleic acid was studied using a biotin-requiring organism accumulating l-glutamic acid and its blocked mutants lacking the biosynthetic system of biotin or/and oleic acid. The results support the following considerations. Biotin is not formed from oleic acid and does not substantially affect the growth of l-glutamic acid-accumulating bacteria and their productivity of l-glutamic acid.

Consequently, biotin serves only for the synthesis of fatty acids in the present organisms. The essential factor for their growth and metabolism is an unsaturated fatty acid like oleic acid and not biotin. And also, saturated fatty acids have substantially no relation with their growth and metabolism like accumulation of l-glutamic acid.  相似文献   

10.
An N-acetylglutamate-acetylornithine acetyltransferase-deficient arginine-requiring mutant AA–1, was derived from an l-arginine producer of Corynebacterium glutamicum. It accumulated a large amount (30 mg per ml) of l-glutamic acid and a small amount (1.2 mg per ml) of Nα-acetylornithine, an intermediate of arginine biosynthesis, in the culture medium.

The production of Nα-acetylornithine by AA–1 was not affected by the concentration of l-arginine in the medium, whereas that of l-glutamic acid was inhibited by a high concentration of l-arginine in the medium containing excess biotin.  相似文献   

11.
Investigations were carried out to detect a blocked step in the glycerol biosynthesis of the glycerol auxotroph GL-21 derived from Corynebacterium alkanolyticum No. 314.

The enzyme required for the conversion of dihydroxyacetone phosphate to α-glycerophosphate was assumed to be defective, because some of glycerol derivatives and glycerol analogues substituted for glycerol as a growth factor, in which glycerides, phospholipids, surfactants and intermediary metabolites in the glycolysis pathway were included.

To confirm this assumption, the activities of α-glycerophosphate dehydrogenase of the mutant were compared to those of the parent. From these results, the auxotroph GL-21 was found to be deficient for a specific l-glycerol-3-phosphate: NADP oxidoreductase which is indispensable for the synthesis of glycerol.  相似文献   

12.
The present investigation is concerned with l-glutamic acid production in the presence of pyrrolidone carboxylic acid and glucose in Bacillus megaterium st. 6126. This strain does not grow on dl-pyrrolidone carboxylic acid (dl-PCA)1) as the sole source of carbon and nitrogen. The optimal concentration of yeast extract required for the maximal production of l-glutamic acid was 0.005% under the conditions used. As the yeast extract concentration was increased, growth increased proportionally; but the l-glutamic acid production did not exceed the control’s to which glucose and ammonium chloride had been added. l-Glutamic acid produced by both growing cultures and resting cells was derived from glucose and ammonium salt of dl-PCA. Isotope experiments suggested that the l-glutamic acid produced was partially derived from ammonium salt of dl-PCA in the growing culture which had been supplemented with d-glucose-U-14C or dl-PCA-1-14C and that ammonium salt of dl-PCA was consumed as the source of nitrogen and carbon for l-glutamic acid.  相似文献   

13.
The addition of penicillin (50 u/ml) to the cells of Corynebacterium alkanolyticum No. 314 growing on n-paraffins medium at the logarithmic growth phase was the most suitable for the extracellular accumulation of L-glutamic acid and the excretion of phospholipids.

The relation between the extracellular accumulation L-glutamic acid and the excretion of phospholipids in the presence of penicillin was very close and specific. The kinds of phospholipids excreted and their fatty acid components were the same as those of intracellular phospholipids.  相似文献   

14.
1. Some of 5-methyltrypotophan (5MT)-resistant mutants derived from glutamate-producing bacteria such as Brevibacterium flavum, Corynebacterium acetoglutamicum and Micrococcus glutamicus produced a small amount of l-tryptophan, while tyrosine and phenylalanine auxotrophs of B. flavum did not.

2. 5-MT-resistant mutant derived from the auxotroph for tyrosine and phenylalanine produced 390 mg/liter of l-tryptophan at most. A mutant resistant to a higher concentration of 5MT, which was derived from a tyrosine and phenylalanine auxotrophic mutant which was resistant to a low concentration of 5MT, produced 660 mg/liter of l-tryptophan. Using this mutant, the effects of the concentrations of components of the culture medium on the l-tryptophan production were examined. The high concentration of l-tyrosine, but not l-phenylalanine, inhibited the l-tryptophan production. Using the improved culture medium, this strain produced 1.9 g/liter of l-tryptophan.  相似文献   

15.
Comparative studies were made of the polymerization of l-aspartic and l-glutamic acid dialkyl esters using polyethylene glycol–modified papain as a catalyst in phosphate buffer (pH 7.5) and in benzene. Changes in the substrate specificity of papain and in the composition of oligomerized products were observed. In the buffer, the diethyl and di-n-propyl esters of l-glutamic acid were sufficiently converted to high molecular weight oligomers with the accumulation of dimer and trimer, but l-aspartic acid esters were very poor substrates. In benzene, l-aspartic acid esters became more reactive than L-glutamic acid esters. In particular, from l-aspartic acid dimethyl ester the product, which was mainly composed of heptamer to decamer, was obtained in a 90% yield. The reaction in benzene required desalted substrates and a small amount of water to proceed extensively.  相似文献   

16.
l-Homoserine was prepared by the reduction of l-aspartic acid β-methyl ester with sodium borohydride in water solution without any racemization. The yield of l-homoserine was about 25% of the theoretical amount, and no product other than l-homoserine, l-aspartic acid and l-aspartic acid β-methyl ester was present in the reaction mixture. The low yield of l-homoserine was ascribed to the hydrolysis of the ester.

l-Azetidine-2-carboxylic acid could not be detected in the reaction mixture. In contrast with the reduction of l-glutamic acid γ-esters, the reduction of l-aspartic acid β-ester was not accompanied by the cyclization.  相似文献   

17.
Most of the bacteria, which were examined for the sensitivity to l-arginine analogs (l-canavanine, l-homoarginine, d-arginine and arginine hydroxamate), were insensitive to the analogs at a concentration of 8 mg/ml. Corynebacterium glutamicum DSS-8 isolated as d-serine-sensitive mutant from an isoleucine auxotroph KY 10150, was found to be sensitive to d-arginine and arginine hydroxamate. Furthermore, DSS-8 produced l-arginine in a cultural medium. l-Arginine analog-resistant mutants were derived from DSS-8 by N-methyl-N′-nitro-N-nitrosoguanidine (NTG) treatment. Most of them were found to produce a large amount of l-arginine. An isoleucine revertant from one of these mutants produced 19.6 mg/ml of l-arginine in the medium containing 15% (as sugar) of molasses.

The mechanism of the sensitivity to l-arginine analogs and that of the production of l-arginine in the d-serine-sensitive mutant, DSS-8, were investigated. DSS-8 seems to be a mutant having increased permeability to d- and l-arginine.  相似文献   

18.
Excellent l-glutamine producers were screened for among sulfaguanidine resistant mutants derived from the wild type l-glutamic acid-producing bacteria, Brevibacterium flavum, Brevibacterium lac to fermentum, Corynebacterium glutamicum and Microbacterium ammoniaphilum.

The best strain, No. 1~60, was a sulfaguanidine resistant mutant derived from B. flavum 2247 by mutation. Strain No. 1~60 accumulated 41.0 mg/ml of l-glutamine after 48 hr of cultivation from 10% glucose as a carbon source. This yield was the highest among those so far reported.

The addition of Mn2 + (2 ppm) to the standard medium for B. flavum 2247 decreased the l- glutamine production and increased the l-glutamic acid excretion markedly. On the contrary, strain 1 —60 was not affected the Mn2+ (2 ppm) addition at all.

Glutamate kinase activity and the intracellular content of ATP in sulfaguanidine resistant mutant No. 1~60 were higher than those in the parent strain, B. flavum 2247.

It was confirmed that the increase in glutamate kinase and the increase in internal ATP, which were important for the l-glutamine synthesis, were very effective for the improvement of l-glutamine-producing mutants.  相似文献   

19.
As already reported, strain S1OB1 was found to accumulate l-glutamic acid in a thiamine-deficient medium at the sole expense of hydrocarbon. In order to elucidate the biosynthetic pathway of l-glutamic acid, first of all, the incorporation of molecular oxygen into l-glutamic acid was examined. l-Glutamic acid accumulated under 18O-enriched atmosphere was separated, purified, identified and found to have been enriched with 18O. This results indicate the occurrence of oxygenase reaction involving addition of molecular oxygen. From a postulated biosynthetic pathway of l-glutamic acid, theoretical 18O content was calculated and compared with experimental one. 18O content of cells grown on n-alkane or glucose was also examined.  相似文献   

20.
Some strains of Pseudomonas was found capable of utilizing l-theanine or d-theanine as a sole nitrogen and carbon source. The cell-free extract catalyzes the hydrolysis of the amide group of the compounds and the hydrolase activity was influenced remarkably by the nitrogen source in the medium. l-Theanine and d-theanine were hydrolyzed to yield stoichiometrically l-glutamic acid and d-glutamic acid, respectively, and ethylamine, which were isolated from the reaction mixture and identified.

The theanine hydrolase of Pseudomonas aeruginosa was purified approximately 200-fold. It was shown that the activities of l-theanine hydrolase, d-theanine hydrolase and the heat-stable l-glutamine hydrolase and d-glutamine hydrolase are ascribed to a single enzyme, which may be regarded as a γ-glutamyltransferase from the point of view of the substrate specificity and the properties. This theanine hydrolase catalyzed the transfer of γ-glutamyl moiety of the substrates and glutathione to hydroxylamine. l-Glutamine and d-glutamine were hydrolyzed by the theanine hydrolase and also by the heat-labile enzyme of the same strain of Pseudomonas aeruginosa, whose properties resembled the common glutaminase.  相似文献   

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