Production of Lysine by Pyruvate Dehydrogenase Mutants of Brevibacterium flavum

Mutants with low pyruvate dehydrogenase (PD) activities were derived from a pyruvate kinase-deficient lysine-producing mutant of Brevibacterium flavum, No. 22. They were selected as prototrophic revertants of the acetate auxotrophs of strain No. 22. Among them strain KD-11 produced 55g/liter of lysine as its HCI salt when cultured for 72 hr in a medium containing lOOg/liter of glucose, soybean-meal hydrolysate and methionine. The lysine yield of strain KD-11 was the highest ever reported (55%). The mutant required a higher concentration of methionine for maximum production and gave a smaller amount of cell mass in cultivation than its parent. PD activity of strain No. 22 was stimulated by cysteine, stabilized by glycerol, and gave apparent Kms of 89, 22, 380, 83 μM for pyruvate, coenzyme A, 3-acetylpyridine adenine dinucleotide, and NAD, respectively, under standard conditions. The apparent Km for NAD of PD from strain KD-11 was 10-times higher than that from No. 22. When the concentration of NAD was low, the cell extracts of strain KD-11 showed low PD activity. The specific activity of phosphoenolpyruvate carboxylase of strain KD-11 was slightly higher than that of strain No. 22, while the inhibition by aspartate of the former enzyme was weaker than that of the latter.     

Production of l-Tryptophan by Azaserine-resistant Mutants of Brevibacterium flavum

Azaserine-resistant mutants derived from a 5-fluorotryptophan-resistant, l-tryptophan-producing mutant of Brevibacterium flavum, accumulated 10.3 g/liter of l-tryptophan at maximum. The production increased to 11.4 g/liter when l-serine was added. In the mutant, only anthranilate synthase among enzymes of the tryptophan-specific bio synthetic pathway increased in activity to a 2-fold higher level than that in the parent strain, No. 187. Sensitivity of anthranilate synthase to the feedback inhibition was not altered by the mutation. Activity of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase, the first common enzyme for aromatic amino acid biosynthesis, also increased 2.7-fold and was less sensitive to the feedback inhibition by phenylalanine and tyrosine. Tryptophan transport activity in strain A-100 was similar as that in the parent. Azaserine inhibited anthranilate synthase activity by 50% at 0.075 mm. The inhibition was of a mixed type with respect to both the two substrates. Anthranilate synthase of strain A-100 was inhibited in a similar manner to that of the parent.     

Production of l-Lysine by Fluoropyruvate-sensitive Mutants of Brevibacterium lactofermentum

Better producers of l-lysine were obtained by derivation of fluoropyruvate(FP)-sensitive mutants from Brevibacterium lactofermentum AJ3990. The coexistence of FP and excess biotin synergistically stimulated l-lysine formation by washed cells. FP inhibited 50% of growth and pyruvate dehydrogenase (PDH) activity of AJ3990 at 0.04 mm and 1 mm, respectively. Therefore, the synergistic effect of FP and excess biotin seems to be due to the optimization of the PDH/pyruvate carboxylase activity ratio in l-lysine biosynthesis. This was confirmed by the derivation of FP-sensitive mutants which have the optimal level of PDH activity for l-lysine production. The best producer, AJ11204, had about 27% PDH activity as compared with the parental strain and accumulated 70 g of l-lysine per liter with a conversion yield of 50% from glucose in the presence of excess biotin.     

Production of L-Isoleucine by AHV Resistant Mutants of Brevibacterium flavum

The growth of Brevibacterium flavum No. 2247A was inhibited by α-amino-β-hydroxy-valeric acid (AHV), and the inhibition was partially reversed by L-isoleucine.

AHV resistant strain ARI-129, which was isolated on a medium supplemented with 2 mg/ml of AHV, produced 11 g/liter of L-isoleucine.

No difference was observed in threonine dehydratase between No. 2247A and ARI–129. Homoserine dehydrogenase from ARI–129 was insensitive to the feedback inhibition by L-isoleucine and L-threonine.

O-Methyl-L-threonine resistant mutant, strain AORI–126, which was derived from ARI–129, produced 14.5 g/liter of L-isoleucine. Specific activity of threonine dehydratase from AORI–126 increased about two-fold higher than those from No. 2247A and ARI–129, whereas degree of inhibition of the enzyme by L-isoleucine was the same among three strains.

Among auxotrophic mutants derived from ARI–129, adenine and lysine auxotrophs produced more L-isoleucine than the parent did.

In the adenine auxotroph, L-isoleucine production was markedly reduced by the addition of excess adenine.     

Accumulation of 6-Azauridine by Mutants of Brevibacterium ammoniagenes

From the inosine producing mutants of Brevibacterium ammoniagenes, KY 13761 was selected as a strain which produced 6-azauridine from 6-azauracil.

The conditions for the conversion were examined and the intermitent feeding of 6-azauracil was found effective for the accumulation.

In order to increase the accumulation, prototrophic revertants were induced from KY 13761 and KY 13021 was selected. By intermitent feeding of 6-azauracil of a final concentration of 6 mg per ml, a maximal accumulation, 12.4 mg/ml, of 6-azauridine was obtained with KY 13021.     

Production of S-Methylthioacetate by Brevibacterium linens

Volatile sulfur compounds production by eight strains of Brevibacterium linens isolated from cheeses was demonstrated: methanethiol, dimethyldisulfide, and 2,3,4-trithiapentane. Four of these strains also produced S-methylthioacetate, an important aroma component of smear-coated cheeses. It is the first demonstrated microbiological production of a thioester.     

Antibiotic Production by Cutaneous Brevibacterium sp.

Three isolates of a Brevibacterium species isolated from human skin produced an antibiotic active against Gram positive and Gram negative bacteria. The active compound is most probably a peptide with'a molecular weight in the range 1100–1400; there is chromatographic similarity to compounds such as tyrothricin. Production of such a compound in vivo could contribute to microbial interaction in, for example, tinea pedis.     

Studies on Lysine Fermentation

In order to clarify the mechanism of l-lysine accumulation by Micrococcus glutamicus No. 901, a homoserine-auxotrophic mutant, the effects of various amino acids on the two enzymic reactions on the biosynthetic pathway of lysine, the phosphorylation of aspartate and the condensation of aspartic β-semialdehyde (ASA) with pyruvate, were studied using the cell-free extracts of the organism.

The aspartokinase received a multivalent inhibition by threonine plus lysine. Lysine exerted no feedback inhibition in its first step condensing reaction. From these results, the mechanism of the accumulation of lysine by the organism was discussed.     

Production of L-Tryptophan by Sulfonamide-resistant Mutants

Sulfaguanidine-resistant mutant S-225, derived from a tryptophan-producing 5-fluoro-tryptophan-resistant mutant of Brevibacterium flavum, accumulated 19 g/liter of L-tryptophan at maximum when cultured for 72 hr in a medium containing 13% glucose as carbon source, 1.8-fold higher than did the parent. Strain S-225 accumulated 17 g/liter of L-tryptophan in a medium containing 10% sucrose as carbon source (17% yield based on the sugar). It also accumulated 450 mg/liter of chorismate, an intermediate common to the biosyntheses of tryptophan and p-aminobenzoate. The accumulation was 1.7-fold higher than that by the parent, suggesting that the intracellular concentration of chorismate was increased through acquisition of the sulfaguanidine resistance. Sulfaguanidine-resistant mutants were also derived from a tryptophan-producing mutant of Corynebacterium glutamicum. The mutants showed 2.2-fold higher maximum tryptophan production than did the parent.     

Studies on Brevibacterium linens metabolism in fermentor

Summary Growth and metabolism of Brevibacterium linens were studied in a fermentor regulated for fixed levels of pH (7.5 to 8.5), temperature (20–30° C) and dissolved oxygen (40%–60% of air saturated medium). The curves of disappearance of l-lactate and amino acids were invariable, indicating that phenylalanine, tyrosine, arginine, proline, glutamic acid and histidine are growth-limiting nutrients. Ornithine appeared at the beginning of cultures when oxygen consumption was low. Ammonia was produced, but large quantities were observed only when amino acid concentrations were higher than that of the carbon source. When the latter was low, the ammonia produced was consumed before a number of amino acids as an easily assimilable nitrogen source. Whether alkali or acid was consumed to maintain constant pH depended on the pH of the medium and on maximal growth rates.     

Production of Proteases from Brevibacterium Linens

Protease formation in submerged cultivations of Brevibacterium linens was studied. The effect of several proteinaceous materials on the production of proteolytic enzymes was investigated in mineral media containing 0.2% malt extract for bacterial growth. The addition (0.5%) of yeast extract or enzymatically hydrolyzed casein considerably increased the amount of protease formed, whereas ammonium salts supplied additionally in most cases had a repressive effect on enzyme formation. Furthermore, the kinetic of protease formation was determined in a highly instrumented fermenter system. Respiration activity indicated several phases of bacterial growth. Most of the proteolytic activity was synthesized during active growth; there was only a small increase in the stationary phase. A total proteolytic activity of 36 U/ml was formed in 24 hr. Concentration of α-amino nitrogen decreased steadily and ammonium ions accumulated during bacterial growth. Electrophoretic analysis revealed the occurrence of one leucine aminopeptidase (26 kDa monomer) and several proteases. There is a broad spectrum of proteolytic active proteins in the range of 11-66 kD which may be caused by some auto-degrading effects.     

Production of l-Leucine by a Mutant of Brevibacterium lactofermentum 2256

A potent l-leucine producer was screened among mutants of glutamic acid producing bacteria. This strain, No. 218, is one of 2-thiazolealanine resistant mutants derived from a methionine isoleucine double auxotroph of Brevibacterium lactofermentum 2256 by nitroso-guanidine.

Strain No. 218 produced 19 mg/ml of l-leucine after 72 hr cultivation when 8 % glucose and 4 % ammonium sulfate were supplied as a carbon and a nitrogen source, respectively, thus giving the yield of 23.1 % from glucose.

The addition of Fe²⁺ and Mn²⁺ in combination gave much more productivity than that of Fe²⁺ or Mn²⁺ alone.

Effects of amino acids, nucleic acids, vitamins, and the other nutrients on l-leucine production were investigated.

The fermentation product was isolated and purified from the culture, and identified as l-leucine.     

Production of methanethiol from methionine by Brevibacterium linens CNRZ 918

The conditions under which Brevibacterium linens CNRZ 918, a strain isolated from the surface smear flora of Gruyère de Comté cheese, produced methanethiol from methionine were studied. Demethiolation was estimated from the methanethiol production capacity of resting cells. Methionine was demethiolated mainly during the exponential growth phase of the organism during which time the cells were rod-shaped and had a generation time of 5 h, and the medium became alkaline. At the end of growth (pH 9) the cells were coccoid, and produced only very little methanethiol. The production of methanethiol required the presence of methionine in the culture medium, this reflecting the probable induction of the enzyme systems involved. Glucose favoured growth and inhibited production of methanethiol. Lactate favoured both growth and methanethiol production. Resting rod cells also produced methanethiol from structural analogues of methionine and from methionine-containing peptides. The apparent kinetic constants of the production of methanethiol for rod and coccoid cells were respectively Km = 14 mM and 46 mM, Vmax = 208 nkat g-1 and 25 nkat g-1. The optimum temperature and pH for production were 30 degrees C and pH 8. Azide or malonate favoured the production of methanethiol by resting cells, whereas chloramphenicol had no effect.     

产氨短杆菌GMA-1112利用味精母液发酵生产肌苷

通过亚硝基胍或60 Coγ辐照等选育一株产氨短杆菌GMA 1 1 1 2 (Ade +Gua +VB1 +8 AGr+SGr+6 MPr) ,能以味精母液代替传统肌苷发酵添加酵母粉作为有机营养物 ,进行肌苷发酵 ,平均产肌苷率 2 5.4 0 g/L。具有降低发酵成本、提高产肌苷率等优点。     

Production of l-DOPA by Mutants of Pseudomonas melanogenum

Several kinds of mutants of Pseudomonas melanogenum were derived by mutational treatment with N-methyl-N’-nitro-N-nitrosoguanidine, and selected for 3,4-dihydroxyphenyl-l-alanine (l-DOPA) production by newly devised screening method which was carried out on agar plates based on violet-black colour formation by the reaction of l-DOPA with iron ion. Mutants tested were; glucose-insensitive mutant, cysteine-insensitive mutant, 3-amino-tyrosine-resistant mutant and p-fluorophenylalanine-resistant mutant. Some colonies isolated by monocolony procedure without mutagenic treatment were also tested. Among the 3-aminotyrosine-resistant mutants many good l-DOPA producers were found.

An 3-aminotyrosine-resistant mutant, strain ATN–36, produced 14 to 15 mg/ml of l-DOPA from 26 mg/ml of l-tyrosine (68 % in molar conversion ratio). When the cell concentration in reaction mixture was increased to 4-times the concentration of culture broth, l-DOPA production reached to 21 mg/ml from 52 mg/ml of tyrosine. An enzymatic basis of the high l-DOPA productivity of the improved mutants was found to be due to the increased tyrosinase activity (150 to 160% of the parental strain) of the mutants.     

Studies on the Pyruvate and Carbohydrate Metabolisms by Lactic Acid Bacteria

The formation of ketopentoses from aldopentoses was demonstrated by six strains of hetero-fermentative lactic acid bacteria (heterofermenters). The dried bacterial cells harvested on malt extract and their cell-free extracts were found to reveal isomerization of d-xylose or l-arabinose to corresponding ketopentoses in the presence of borate, while any formation of ketopentose was never observed with the enzyme preparations of homofermenters except L. xylosus and Pc. lindneri. The ketopentoses were isolated by a Dowex-l borate column, and identified by paper-chromatography. Results obtained were as follows: xylulose was formed from xylose by six strains of heterofermenters (L. fermentum, Leuc. mesenteroides, L. brevis, L. buchneri, L. gayonii and L. fermenti) and by L. xylosus. Ribulose was obtained from arabinose by L. brevis, L. pento-aceticus, L. gayonii, L. buchneri and Pc. linderi.     

Production of O-Succinyl-l-homoserine by Auxotrophic Mutants of Aerobacter aerogenes

Ten of Nineteen methionine-requiring mutants isolated from Aerobacter aerogenes ATCC 8308 by treatment with N-methyl-N′-nitro-N-nitrosoguanidine were found to accumulate in a culture broth a large amount of O-succinyl-l-homoserine (OSH) which was an intermediate in the biosynthesis of methionine in Escherichia coli and Salmonella typhimurium. OSH was isolated from the culture broth and identified by the behavior in paper chromatography, elementary analysis, melting point, optical density and infrared spectrum. Among these mutants, A. aerogenes KY 7056 which responds to methionine, homocysteine or systathionine was used to investigate culture conditions for OSH production. The amount of OSH accumulation reached a level of 8.36 mg/ml with the medium containing 10% fructose and 1% ammonium sulfate. Addition of l-homoserine (10 mg/ml) increased the amount of OSH accumulation to a level of 15.8 mg/ml. Methionine or cystathionine suppressed the accumulation of OSH. Addition of δ-hydroxylysine to the fermentation medium almost abolished the OSH accumulation.