Strains of Corynebacterium glutamicum with Different Lysine Productivities May Have Different Lysine Excretion Systems

The lysine excretion systems of three different lysine-producing strains of Corynebacterium glutamicum were characterized in intact cells. Two strains (DG 52-5 and MH 20-22B) are lysine producers of different efficiency. They were bred by classical mutagenesis and have a feedback-resistant aspartate kinase. The third strain (KK 25) was constructed from the wild type by introducing the feedback-resistant aspartate kinase gene of strain MH 20-22B into its genome. The three strains were shown to possess different excretion systems. Export in strain KK 25 is much slower than in the two mutants. The differences between the two lysine-producing strains are more subtle. K(m) and V(max) are similar, but pH dependence and membrane potential dependence reveal differences in the intrinsic properties of the carrier system.     

Effect of Pyruvate Kinase Deficiency on l-Lysine Productivities of Mutants with Feedback-resistant Aspartokinases

The cultural conditions were investigated for a Brevibacterium flavum mutant, No. 2–190, with a low level of citrate synthase (CS) and with feedback-resistant phosphoenoipyruvate (PEP) carboxylase and aspartokinase (AK). The productivity was increased from 28 to 38 g/1 (as the HC1 salt) with a medium containing 10% glucose. From this strain, pyruvate kinase (PK)-defective mutants were derived and selected as to the inability to grow on ribose. Among them, strain Kl-18 showed higher lysine productivity than the parent under all cultural conditions tested, and produced 43 g/1 of lysine, at maximum. A lysine-producing mutant, No. 536–4, with a feedback- resistant AK was derived from PK-defective strain KH-21 which had low CS activity and a feedback-resistant PEP carboxylase. The mutant was isolated by a new selection method, that is, on the basis of resistance to α-amino-ß-hydroxyvaleric acid, a threonine analogue plus lysine. In this strain, HD had been altered so as to become feedback-resistant at the same time, resulting in the byproduction of threonine and isoleucine. The total amount of these aspartate family amino acids was higher on molar basis than that of lysine produced by strain No. 2–190.     

Engineering the homoserine dehydrogenase and threonine dehydratase control points to analyse flux towards L-isoleucine in Corynebacterium glutamicum

 The synthesis of L-isoleucine by Corynebacterium glutamicum involves 11 reaction steps, with at least 5 of them regulated in activity or expression. Using gene replacement we constructed a vector-free C. glutamicum strain having feedback-resistant aspartate kinase and feedback-resistant homoserine dehydrogenase activity. Isogenic strains carrying in addition one or several copies of feedback-resistant threonine dehydratase were made and their product accumulations compared. With strain SM1, with high threonine dehydratase activity, accumulation of 50 mM L-isoleucine was achieved, whereas with the parent strain only 4 mM L-isoleucine was obtained. Applying a closed-loop control fed-batch strategy to strain SM1 a final titre of 138 mM L-isoleucine was achieved with an integral molar yield of 0.11 mol/mol, and a maximal specific productivity of 0.28 mmol (g h)^-1. This shows that high L-isoleucine yields can be obtained in the presence of one copy of feedback-resistant homoserine dehydrogenase by applying the appropriate fermentation strategy. In addition, the specific profiles of 2-oxoglutarate and pyruvate accumulation during fermentation revealed a major transition of the metabolism of C. glutamicum during the fermentation process. Received: 16 October 1995/Received revision: 21 December 1995/Accepted: 8 January 1996     

Control of the Lysine Biosynthesis Sequence in Corynebacterium glutamicum as Analyzed by Overexpression of the Individual Corresponding Genes

The gene cluster that codes for feedback-resistant aspartate kinase (lysCα and lysCβ) and aspartate semialdehyde dehydrogenase (asd) was cloned from a mutant strain of Corynebacterium glutamicum. Its functional analysis by subcloning, enzyme assays, and type of aspartate kinase regulation enabled the isolation of a fragment for separate expression of the feedback-resistant kinase without aspartate semialdehyde dehydrogenase expression. This was used together with other clones constructed (J. Cremer, L. Eggeling, and H. Sahm, Mol. Gen. Genet. 220:478-480, 1990) to overexpress individually each of the six genes that convert aspartate to lysine. Analysis of lysine formation revealed that overexpression of the feedback-resistant kinase alone suffices to achieve lysine formation (38 mM). Also, sole overexpression of wild-type dihydrodipicolinate synthase resulted in lysine formation but in a lower amount (11 mM). The other four enzymes had no effect on lysine secretion. With a plasmid overexpressing both relevant enzymes together, a further increase in lysine yield was obtained. This shows that of the six enzymes that convert aspartate to lysine the kinase and the synthase are responsible for flow control in the wild-type background and can be useful for construction of lysine-producing strains.     

Amplification of the tryptophan operon gene in Escherichia coli chromosome to increase l-tryptophan biosynthesis

Classical mutagenesis could desensitize the feedback inhibition of l-tryptophan (l-Trp) biosynthesis. Among the mutants, a5-fluorotryptophan-resistant strain, Escherichia coli EMS4-C25 produced 3 g/l of l-Trp within 18 h. The feedback-resistant l-Trp operon gene (trp) prepared from E. coli EMS4-C25 was inserted into pUC19 and pHSG576 to generate pTC701 and pTC576, respectively. When pHSG576 and pTC701 were introduced into E. coli EMS4-C25, chromosomal integration occured through homologous recombination. By using Souther hybridization, we demostrated that the integrated plasmids existed as multicopies. The strains with integrated foreign trp operon gene had higher activities of anthranilate synthase and Trp synthase than those found for the host strain and produced 9.2 g/l of l-Trp with 13% conversion yield from d-glucose. The integration and implification of the trp-operon-beraing plasmid avoided the plasmid instability and increased l-TRp production. Correspondence to: E.-C. Chan     

Construction of an arginine-producing strain of Serratia marcescens

Summary In Serratia marcescens Sr41, l-canavanine was demonstrated to be a weak cell growth inhibitor in minimal medium containing glucose as the sole carbon source. The inhibition of cell growth was enhanced by changing the carbon source from glucose to l-glutamic acid. An arginine regulatory mutant (i.e., argR mutant) in which formation of l-arginine biosynthetic enzymes was genetically derepressed was isolated by selecting for l-canavanine resistance on the glutamate medium. Furthermore, an l-arginine-producing strain was constructed by introducing the mutation leading to feedback-resistant N-acetylglutamate synthase into the argR mutant. The resulting transductant produced about 40 g/l of l-arginine, whereas the wild strain produced no l-arginine and the argR mutant only 3 g/l.     

Formation of 2,5-Bis-(d-threo-trihydroxypropyl)pyrazine and Its 6-Isomer by the Oxidative Browning Reaction of d-Xylose with Ammonium Acetate in a Methanolic Medium

A pyruvate kinase-lacking mutant of Brevibacterium flavum produced 22.6 g/liter of l-aspartic acid with glutamic acid as a by-product, when cultured for 48 hr in a medium containing 100 g/liter of glucose. The production clearly depended on the amount of biotin added. This strain, 70, was derived by several steps of mutation from wild strain 2247 producing glutamate, successively via a citrate synthase-defective glutamate auxotroph, strain 214, a prototrophic revertant, strain 15-8, producing 10 g/liter of l-aspartic acid, and an S-(2-aminoethyl)-l-cysteine-resistant mutant, strain 1-231, having low pyruvate kinase and homoserine dehydrogenase and producing lysine. Strain 70, a methionine-insensitive revertant from strain 1-231, had a normal level of homoserine dehydrogenase but no pyruvate kinase. Its citrate synthase activity was about half that of the wild strain at saturated concentrations of the substrates with Michaelis constants for oxalacetate and acetyl-CoA of 110 and 6 times as high as those of the wild-type enzyme, respectively. The mutational step for these alterations in citrate synthase was strain 15-8. Phosphoenolpyruvate carboxylase of strain 70 showed 1.5-fold higher activity in the crude extract at saturated concentrations of phosphoenolpyruvate, a lower Michaelis constant (1.5mM).for the substrate, phosphoenolpyruvate, less sensitivity to the feedback inhibition by aspartate, and higher sensitivities to the activators, acetyl-CoA and fructose-1,6-bisphosphate, than those of the wild strain. The concentrations of aspartate giving 50% inhibition were 6.2- and 4.5-fold higher in the absence and presence of acetyl-CoA, respectively.     

X-linked dominant inheritance of partial phosphorylase kinase deficiency in mice

A new mouse strain, the V strain, with a partial deficiency of phosphorylase kinase has been established. The deficiency is caused by an X-linked dominant gene (Phk ^c ). Muscle extracts of homozygous and heterozygous females and hemizygous males have about 25% of the activity found in extracts of normal (C3H/HeHan) mice. This dominant phosphorylase kinase deficiency of the new V strain is different from that of the I-strain mice with the X-linked recessive deficiency of skeletal muscle phosphorylase kinase. The muscle extracts of V-strain and normal mice contain the same phosphorylase phosphatase activity of about 1 U/mg. Heart and liver extracts from V mice contained about 50% and 66%, respectively, of the phosphorylase kinase activity compared to that found in the same organs from the normal mice. The glycogen content of the skeletal muscle of the V strain was normal, i.e., 0.9 mg/g. Phosphorylase kinase was purified from the skeletal muscle of the V strain by (a) hydrophobic chromatography on methylamine Sepharose, (b) ammonium sulfate precipitation, and (c) gel filtration of Sepharose 4B. The enzyme has a similar structure to the normal murine and rabbit skeletal muscle enzyme, except that the proportion of the subunits differs. The molar ratio of the subunits of the V strain mice is (+)::=0.54:1:1.169, in comparison with that of the rabbit (+)::=1.1:1.0:1.0 and that of normal murine enzyme 0.9:1.0:0.7.This work was supported by the Minister für Wissenschaft und Forschung des Landes Nordrhein-Westfalen, West Germany and of the Fonds der Chemie, West Germany, and forms part of the md thesis of A. Vrbica.     

Lysine degradation in Candida maltosa: occurrence of a novel enzyme,acetyl-CoA: L-lysine N-acetyltransferase

The yeast Candida maltosa can utilize L-lysine as sole nitrogen and sole carbon source accompanied by accumulation of -N-acetyl-L-lysine, indicating that lysine is metabolized by way of N-acetylated intermediates. A novel lysine acetyltransferase catalyzing the first step in this pathway, the N-acetylation of the -amino group of L-lysine, was found in this yeast. The enzyme, acetyl-CoA:L-lysine N-acetyltransferase, is strongly induced in cells grown on L-lysine as sole carbon source. The enzyme is specific for both L-lysine and acetyl-CoA. The K _m values are 10 mM for L-lysine and 0.33 mM for acetyl-CoA. The enzyme has a maximum activity at pH 8.1.Dedicated to Prof. Dr. F. Böttcher in occasion of his 60th birthday     

Effects of a Feedback-Resistant Aspartokinase III Gene on L-Isoleucine Production in Escherichia coli K-12

An L-isoleucine-overproducing recombinant strain of E. coli, TVD5, was also found to overproduce L-valine. The L-isoleucine productivity of TVD5 was markedly decreased by addition of L-lysine to the medium. Introduction of a gene encoding feedback-resistant aspartokinase III increased L-isoleucine productivity and decreased L-valine by-production. The resulting strain accumulated 12 g/l L-isoleucine from 40 g/l glucose, and suppression of L-isoleucine productivity by L-lysine was relieved.     

Effect of antibiotics on lysine production in free and immobilized cells of Bacillus subtilis

Summary In immobilized cell preparations growth of cells outside the immobilization matrix as free cells is normally undesirable due to the appearance of cells in the product stream and clogging of such systems. Antibiotics could be used to arrest such free cell growth while allowing the synthesis and excretion of the product into the medium. Chloramphenicol (200 /ml) and/or novobiocin (10 /ml), when added during the growth of Bacillus subtilis allowed the production and excretion of lysine into the medium. Chloramphenicol at 200 /ml effectively arrested free cell growth and hence the lysine being produced was almost entirely due to immobilized cells. Novobiocin on the other hand at concentrations of 100 /ml, stopped free cell growth, but also prevented the production of l-lysine. Productivities and yields of lysine were adversely affected by chloramphenicol or novobiocin, probably due to a great decrease in cell viability.Offprint requests to: C. J. Israilides     

Breeding anl-isoleucine producer by protoplast fusion ofCorynebacterium glutamicum

Summary Corynebacterium glutamicum R-18 is a strain forl-isoleucine production. Polyethylene glycol (PEG)-induced protoplast fusion was applied to improve the strain of thisl-isoleucine producer. Strain R-18 was fused with anl-lysine producerC. glutamicum S-37, becausel-isoleucine andl-lysine are synthesized from a common intermediate, aspartate--semialdehyde. Two thousand fusants were checked for their phenotypes. Most of the fusants accumulatedl-lysine, and only 0.9% of the fusants accumulatedl-isoleucine. Two strains, F-28 and F-91, were selected and cultivated in production medium. Fusant F-28 accumulated 12.1 g/l ofl-isoleucine and 4.8 g/l ofl-lysine, and fusant F-91 accumulated 4.8 g/l ofl-isoleucine and 13.0 g/l ofl-lysine, while the parental strains R-18 and S-37 accumulated 9.5 g/l ofl-isoleucine and 26.8 g/l ofl-lysine, respectively. Sugar consumption activity was improved by protoplast fusion, and thel-isoleucine production rate of F-28 was 2.4 times higher than that of R-18.     

The fermentation process for l-phenylalanine production using an auxotrophic regulatory mutant of Escherichia coli

Summary A process for l-phenylalanine production was studied using a tyrosine auxotrophic regulatory mutant of Escherichia coli, resistant to both -2-thienyl-dl-alanine and p-fluoro-dl-phenylalanine. Fermentations were carried out in a 30-1 fermentor with intermittent feeding of glucose plus phosphate. The mutant accumulated l-phenylalanine in the fermentation broth up to 15 g/l at pH 7.0 and 33°C. Column chromatography on a strong cation exchanger was employed as the most effective step in the purification of l-phenyl-alanine from the broth. This step brought about 4-fold concentration of the product with 96% recovery.     

The ultrastructural basis for the identification of cell types in the pancreatic islets I. Guinea pig

Summary The pancreatic islets of the guinea pig have been studied by light and electron microscopy. The B granules in glutaraldehyde-fixed tissue often are cup-shaped with an indentation visible on one side of the granule. Phosphotungstic acid hematoxylin (PTAH) positive cells have been characterized by electron microscopy as three subtypes based on the size of the secretory granules. A_a cells are the most common and have secretory granules around 200 m in diameter. A_b cells have large secretory granules around 300 m in diameter and are relatively infrequent. A_c cells are the least common and have small (160 m) granules. Characteristic D cells are identifiable by electron microscopy and, on the basis of the subsequent study (Munger, Caramia, and Lacy, 1965), are identified as the silver positive cells observed by light microscopy.This investigation was supported in part by United States Public Health Service research grants GM-10102 and GM-03784 from the Institute of General Medical Sciences, and AM-01226 from the Institute of Arthritis and Metabolic Diseases.-The authors wish to acknowledge the valuable technical assistance of Mrs. Aileen Sevier and Mrs. Lidia Donohue.     

Microbial production of l-leucine from α-ketoisocaproate by Corynebacterium glutamicum

Summary A process for l-leucine production was studied using Corynebacterium glutamicum for the conversion of -ketoisocaproate. When this precursor was added to the culture medium in a concentration of 20 g/l about 16 g/l l-leucine were formed after a fermentation time of 57 h and the molar yield was 91%. Using a fed-batch culture it was possible to produce 24 g/l of l-leucine from 32 g/l of -ketoisocaproate within 23 h. Enzymatic studies indicate that in this glutamate-producing bacterium -ketoisocaproate is converted into l-leucine via the transaminase B reaction and l-glutamate is regenerated by the glutamate dehydrogenase. By the addition of -ketoisocaproate to the culture medium the specific activity of transaminase B was increased threefold.     

A <Emphasis Type="Italic">Candida guilliermondii</Emphasis> lysine hyperproducer capable of elevated citric acid production

A mutant of the yeast Candida guilliermondii ATCC 9058 exhibiting elevated citric acid production was isolated based upon its ability to overproduce lysine. This method involved the use of a solid medium containing a combination of lysine analogues to identify a mutant that produced a several-fold higher lysine level compared to its parent strain using glucose or glycerol as a carbon source. The mutant strain was also capable of producing more than a fivefold higher citric acid level on glycerol as a carbon source compared to its parent strain. It was concluded that the screening of yeast lysine hyperproducer strains could provide a rapid approach to isolate yeast citric acid hyperproducer strains.     

l-threonine production by l-aspartate- and l-homoserine-resistant mutant of Escherichia coli

Summary Growth and l-threonine productivity of l-threonine producer Escherichia coli H-4290 were inhibited by precursor amino acids, l-homoserine and l-aspartate. l-Threonine hyper-producers were isolated among the mutants resistant to l-homoserine and l-aspartate. Mutants H-4351 (Hom^r) and H-4578 (Hom^r, Asp^r) accumulated 22.2 g/l and 24.3 g/l of l-threonine in test tube cultures, while the parental strain H-4290 accumulated 18.2 g/l. The enzyme level of aspartokinase I (first enzyme of the threonine operon) was enhanced 2.3 times (H-4351) and 3 times (H-4578) that of H-4290. Mutant H-4578 accumulated 76 g/l of l-threonine in a 2-l jar fermentor after 75 h cultivation.Abbreviations DAP diaminopimeric acid - Met ^l poor growth in methionine-free medium - AHV -amino--hydroxyvaleric acid - Thr-N^- lack of ability to utilize l-threonine as a nitrogen source - Rif rifampicin - Lys+Met^r resistant to l-lysine and dl-methionine     

Salmonella typhimurium LT2 metF operator mutations

Summary Using an Escherichia coli lac deletion strain lysogenized with lambda phage carrying a metF-lacZ gene fusion (Flac), in which -galactosidase levels are dependent on metF gene expression, cis-acting mutations were isolated that affect regulation of the Salmonella typhimurium metF gene. The mutations were located in a region previously defined as the metF operator by its similarity to the E. coli metF operator sequence. Regulation of the metF gene was examined by measuring -galactosidase levels in E. coli strains lysogenized with the wild-type Flac phage and mutant Flac phage. The results suggest that the mutations disrupt the methionine control system mediated by the metJ gene product, but not the vitamin B₁₂ control system mediated by the metH gene product. The results also demonstrate that negative control of the metF gene by the metH gene product and vitamin B₁₂ is dependent on a functional metJ gene product.Abbreviations Ap ampicillin - dNTP deoxyribonucleoside triphosphates - GM glucose minimal - Km kanamycin - L-agar Luria agar - LM lactose minimal - SAM s-adenosyl-L-methionine - TPEG phenylethyl -D-thiogalactoside - X-gal 5-bromo-4-chloro-3-indolyl -D-galactopyranoside - [] designates plasmid-carrier state - :: novel joint     

Regulation of biosynthesis of aspartate family amino acids in the photosynthetic bacterium Rhodopseudomonas palustris

The four amino acids of the aspartate family (l-lysine, l-methionine, l-threonine, and l-isoleucine) are produced in bacteria by a branched biosynthetic pathway. Regulation of synthesis of early common intermediates and of carbon flow through distal branches of the pathway requires operation of a number of subtle feedback controls, which are integrated so as to ensure balanced synthesis of the several end products. Earlier studies with nonsulfur purple photosynthetic bacteria were instrumental in revealing the existence of alternative regulatory schemes, and in this communication we report on the control pattern of a representative of this physiological group not previously investigated, Rhodopseudomonas palustris. The results obtained from study of the properties of four key regulatory enzymes of the aspartate family pathway (-aspartokinase, homoserine dehydrogenase, homoserine kinase, and threonine deaminase) and of the effects of exogenous amino acids (i. e., the end products) on growth of the bacterium indicate that the control schema in Rps. palustris differs substantially from the schemes described for other Rhodopseudomonas species, but resembles the regulatory pattern observed in Rhodospirillum rubrum.Abbreviations A absorbancy - AK -aspartokinase - ASA aspartate -semialdehyde - DTT dithiothreitol - HS l-homoserine - HSDH homoserine dehydrogenase - HSK homoserine kinase - I l-isoleucine - KU Klett-Summerson photometer units - L l-lysine - M l-isoleucine - KU Klett-Summerson photometer units - L l-lysine - M l-methionine - ME -mercaptoethanol - PABA p-aminobenzoic acid - T l-threonine - TD threonine deaminase - RCV synthetic growth medium (see text) - YP agar medium containing 0.3% yeast extract, 0.3% peptone, and 1.5% agar - Y2T synthetic growth medium (see text)