Evaluation of the<Emphasis Type="Italic"> Escherichia coli</Emphasis> threonine deaminase gene as a selectable marker for plant transformation

The initial step in the synthesis of isoleucine (Ile) is the conversion of threonine to -ketobutyrate. This reaction is carried out by threonine deaminase (TD), which is feedback-regulated by Ile. Mutations in TD that manifest insensitivity to Ile feedback inhibition result in intracellular accumulation of Ile. Previous reports have shown that in planta expression of the wild-type Escherichia coli TD, ilvA, or an Ile-insensitive mutant designated ilvA-466, increased cellular concentrations of Ile. A structural analog of Ile, l-O-methylthreonine (OMT), is able to compete effectively with Ile during translation and induce cell death. It has been postulated that OMT could therefore be utilized as an effective selective agent in plant engineering studies. To test this concept, we designed two binary plasmids that harbored an nptII cassette and either the wild-type ilvA or mutant ilvA-466. The ilvA coding sequences were fused to a plastid transit peptide down stream of a modified 35S CaMV promoter. Tobacco transformations were set up implementing a selection protocol based on either kanamycin or OMT. The ilvA gene was effectively utilized as a selectable marker gene to identify tobacco transformants when coupled with OMT as the selection agent. However, the transformation efficiency was substantially lower than that observed with nptII using kanamycin as the selection agent. Moreover, in a subset of the ilvA transformants and in a majority of the ilvA-466 transgenic lines, a severe off-type was observed under greenhouse conditions that correlated with increased levels of expression of the ilvA transgene.Abbreviations ELISA enzyme-linked immunosorbent assay - Ile isoleucine - OMT l-O-methylthreonine - nptII neomycin phosphotransferase II - TD threonine deaminase     

Occurrence of two l-threonine (l-serine) dehydratases in the thermophile Chloroflexus aurantiacus

The thermophilic phototrophic prokaryote, Chloroflexus aurantiacus was shown to contain high constitutive l-threonine (l-serine) deaminating activity. Separation of cellular proteins by DE 52-cellulose chromatography and by polyacrylamide gel electrophoresis with subsequent activity staining of the gels yielded two bands, one representing an isoleucine-sensitive, the other one an isoleucine-insensitive form of l-threonine dehydratase. Both enzymes had a molecular weight of 120,000 but were distinguished by their different affinities to the two substrates, l-threonine and l-serine.Abbreviations SDH l-serine dehydratase - TDH l-threonine dehydratase     

Living cell reaction process forl-isoleucine andl-valine production

Summary A new process (Living Cell Reaction Process) forl-isoleucine production using viable, non-growing cells ofBrevibacterium flavum AB-07 was optimised using ethanol as the energy source and -ketobutyric acid (-KB) as precursor.l-valine also could be produced from glucose at high yield by this process. This process differs from the usual fermentation method in that non-growing cells are used, and the production ofl-isoleucine andl-valine were carried out under conditions of repressed cell division and growth. Minimal medium missing the essential growth factor, biotin was employed as the reaction mixture for the production ofl-isoleucine andl-valine. The productivity ofl-isoleucine andl-valine were 200 mmol·l^–1 · day^–1 (molecular yield to -KB: 95%) and 300 mmol · l^–1 · day^–1 (molecular yield to glucose: 80%) respectively. The content ofl-isoleucine andl-valine in total amino acids produced in the each mixture were 97% and 96% respectively.     

Purification and characterization of myo-inositol 6-O-methyltransferase from Vigna umbellata Ohwi et Ohashi

The cyclitol 1d-4-O-methyl-myo-inositol (d-ononitol) is accumulated in certain legumes in response to abiotic stresses. S-Adenosyl-l-methionine:myo-inositol 6-O-methyltransferase (m6OMT), the enzyme which catalyses the synthesis of d-ononitol, was extracted from stems of Vigna umbellata Ohwi et Ohashi and purified to apparent homogeneity by a combination of conventional chromatographic techniques and by affinity chromatography on immobilized S-adenosyl-l-homocysteine (SAH). The purified m6OMT was photoaffinity labelled with S-adenosyl-l-[¹⁴C-methyl]methionine. The native molecular weight was determined to be 106 kDa, with a subunit molecular weight of 40 kDa. Substrate-saturation kinetics of m6OMT for myo-inositol and S-adenosyl-l-methionine (SAM) were Michaelis-Menten type with K _m values of 2.92 mM and 63 M, respectively. The SAH competitively inhibited the enzyme with respect to SAM (K _i of 1.63 M). The enzyme did not require divalent cations for activity, but was strongly inhibited by Mn²⁺, Zn²⁺ and Cu²⁺ and sulfhydryl group inhibitors. The purified m6OMT was found to be highly specific for the 6-hydroxyl group of myo-inositol and showed no activity on other naturally occurring isomeric inositols and inositol O-methyl-ethers. Neither d-ononitol, nor d-3-O-methyl-chiro-inositol, d-1-O-methyl-muco-inositol or d-chiro-inositol (end products of the biosynthetic pathway in which m6OMT catalyses the first step), inhibited the activity of the enzyme.Abbreviations DTT dithiothreitol - m6OMT myo-inositol 6-O-methyltransferase - SAH S-adenosyl-l-homocysteine - SAM S-adenosyl-l-methionine We are greatful to Professor M. Popp (University of Vienna) for helpful discussion and comment. This work was supported by Grant P09595-BIO from the Austrian Science Foundation (FWF).     

Leucine and serine induce mecillinam resistance in Escherichia coli.

Summary We have previously shown that resistance to the -lactam mecillinam in Escherichia coli can be brought about by a high ppGpp pool, as observed under conditions of partial amino acid starvation and ReIA-dependent induction of the stringent response. We show here that our E. coli wild-type strain, which is sensitive to mecillinam on minimal glucose plates, becomes resistant in the presence of lleucine or L-serine (or cysteine, which inactivates the antibiotic). The resistance, which is not a transient effect and does not depend on the physiological state of the cells when plated, is specific for mecillinam and is reversed by the presence of isoleucine and valine in the medium. At least in the case of serine, the resistance is ReIA-dependent. We conclude that the presence of leucine and serine in the growth medium cause partial starvation for isoleucine/valine, leading to induction of the stringent response and concomitant resistance to mecillinam.     

Amino acid metabolism in the thermophilic phototroph,Chloroflexus aurantiacus: properties and metabolic role of two l-threonine (l-serine) dehydratases

Two l-threonine (l-serine) dehydratases (EC 4.2.1.16) of the thermophilic phototrophic bacterium Chloroflexus aurantiacus Ok-70-fl were purified to electrophoretic homogeneity by procedures involving anion exchange and hydrophobic interaction chromatography. Only one of the two enzymes was sensitive to inhibition by l-isoleucine (K _i=2 M) and activation by l-valine. The isoleucine-insensitive dehydratase was active with l-threonine (K _m=20 mM) as well as with l-serine (K _m=10 mM) whereas the other enzyme, which displayed much higher affinity to l-threonine (K _m=1.3 mM), was inactivated when acting on l-serine. Both dehydratases contained pyridoxal-5-phosphate as cofactor. When assayed by gel filtration techniques at 20 to 25° C, the molecular weights of both enzymes were found to be 106,000±6,000. In sodium dodecylsulfate-polyacrylamide gel electrophoresis, the two dehydratases yielded only one type of subunit with a molecular weight of 55,000±3,000. The isoleucine-insensitive enzyme was subject to a glucose-mediated catabolite repression.Abbreviations A absorbance - ile isoleucine - PLP pyridoxal-5-phosphate - SDS sodium dodecyl sulfate - TDH threonine dehydratase - U unit     

d-Alanine metabolism in the lucinid clam Lucinoma aequizonata

The chemoautotrophic symbiont-bearing clam Lucinoma aequizonata contains very high levels of free d-alanine in all tissues. The possible sources for this amino acid and its involvement in the clams' metabolism were investigated. Very low levels of d-alanine (generally below 1 mol·l^-1) were measured in the sediment porewaters from the habitat of the clams. Experiments with ¹⁴C-labeled tracers demonstrate an active metabolism of d-alanine in the clams rather than a role as inert waste product. d-alanine is metabolized at about 0.12 mol·g fw^-1·h^-1. Label from aspartate, but not glucose and CO₂, is incorporated into d-alanine. Incubation with labeled d-alanine did not result in formation of radioactive l-alanine. Tests for alanine racemase (EC 5.1.1.1) and d-amino acid oxidase (EC 1.4.3.3.) did not show activity in either gill, i.e. symbiont and host, or foot tissue. d-Alanine amino transferase (EC 2.6.1.b.) was demonstrated in gill and foot tissues. Two sources for d-alanine are proposed: a degradation of cell walls of symbiotic bacteria and production by the host using a d-specific alanine transaminase.Abbreviations aa amino acid(s) - fw fresh weight - HPLC high-performance liquid chromatography - MBH methyl benzethonium hydroxyde - NAC N-acetyl-l-cysteine - OPA ortho-phthaldialdehyde - TCA tricarbonic acid     

Presence of an X AG − carrier in frog (Rana esculenta) red blood cells

Evidence is presented that the high levels of internal l-glutamic and l-aspartic acid in frog Rana esculenta red blood cells are due to the existence of a specific carrier for acidic amino acids of high affinity K _m = 3 m and low capacity (V_max) 0.4 mol l-Glu · Kg^–1 dry cell mass · 10 min^–1. It is Na+ dependent and the incorporation of l-glutamic acid can be inhibited by l and d-aspartate and l-cysteic acid, while d-glutamic does not inhibit. Moreover, this glutamic uptake shows a bell-shaped dependence on the external pH. All these properties show that this carrier belongs to the system X _AG ^– family. Besides the incorporation through this system, l-glutamic acid is also taken up through the ASC system, although, under physiological conditions, this transport is far less important, since it has relatively low affinity K _m 39 m but high capacity (V _max) 1.8 mol l-Glu · Kg^–1 dry cell mass · 10 min^–1.     

ɛ-Poly-<Emphasis Type="SmallCaps">l</Emphasis>-lysine producer, <Emphasis Type="Italic">Streptomyces albulus</Emphasis>, has feedback-inhibition resistant aspartokinase

Streptomyces albulus NBRC14147 produces ɛ-poly-l-lysine (ɛ-PL), which is an amino acid homopolymer antibiotic. Despite the commercial importance of ɛ-PL, limited information is available regarding its biosynthesis; the l-lysine molecule is directly utilized for ɛ-PL biosynthesis. In most bacteria, l-lysine is biosynthesized by an aspartate pathway. Aspartokinase (Ask), which is the first enzyme in this pathway, is subject to complex regulation such as through feedback inhibition by the end-product amino acids such as l-lysine and/or l-threonine. S. albulus NBRC14147 can produce a large amount of ɛ-PL (1–3 g/l). We therefore suspected that Ask(s) of S. albulus could be resistant to feedback inhibition to provide sufficient l-lysine for ɛ-PL biosynthesis. To address this hypothesis, in this study, we cloned the ask gene from S. albulus and investigated the feedback inhibition of its gene product. As predicted, we revealed the feedback resistance of the Ask; more than 20% relative activity of Ask was detected in the assay mixture even with extremely high concentrations of l-lysine and l-threonine (100 mM each). We further constructed a mutated ask gene for which the gene product Ask (M68V) is almost fully resistant to feedback inhibition. The homologous expression of Ask (M68V) further demonstrated the increase in ɛ-PL productivity.     

Na+-dependent medium-affinity uptake of L-glutamate in the insect epidermis

It is proposed that the activity of an epidermal cotransport system for Na⁺ and dicarboxylic amino acids accounts for the small amounts of L-glutamate and L-aspartate in the otherwise amino-acid-rich blood plasma of insects. This Na⁺-dependent transport system is responsible for more than 95% of the uptake of these amino acids into the larval epidermis of the beetle Tenebrio molitor. Kinetic analysis of uptake showed that the Na⁺-dependent co-transporter has medium affinity for L-glutamate and L-aspartate. The K _m for L-glutamate uptake was 146 mol·l^-1, and the maximum velocity of uptake (V _max) was 12.1 pmol·mm^-2 of epidermal sheet per minute. The corresponding values for L-aspartate were 191 mol·l^-1 and 8.4 pmol·mm^-2·min^-1. The Na⁺/L-glutamate co-transporter has a stoichiometry of at least two Na⁺ ions for each L-glutamate-ion transported (n=217). The co-transporter has an affinity for Na⁺ equivalent to a K _m of 21 mmol · l^-1 Na⁺. Na⁺ is the only external ion apparently required to drive L-glutamate uptake. Li⁺ substitutes weakly for Na⁺. Removal of external K⁺ or addition of ouabain decreases uptake slowly over 1 h, suggesting that these treatments dissipate the Na⁺/K⁺ gradient by inhibiting epidermal Na⁺/K⁺ ATPase. Several structural analogues of L-glutamate inhibit the medium-affinity uptake of L-glutamate. The order of potency with which these competitive inhibitors block glutamate uptake is L-cysteatethreo-3-hydroxy-Dl-aspartate > D-aspartateL-aspartate> L-cysteine sulphinate > L-homocysteateD-glutamate. L-trans-Pyrrolidine-2,4-dicarboxylate, a potent inhibitor of L-glutamate uptake in mammalian synaptosomes, is a relatively weak blocker of epidermal uptake. The epidermis takes up substantially more L-glutamate by this Na⁺-dependent system than tissues such as skeletal muscle and ventral nerve cord. The epidermis may be a main site regulating blood L-glutamate levels in insects with high blood [Na⁺]. Because L-glutamate and L-aspartate stimulate skeletal muscle in insects, a likely role for epidermal L-glutamate/L-aspartate transporter is to keep the level of these excitatory amino acids in the blood below the postsynaptic activation thresholds.Abbreviation ac acetate - Ch choline - CNS central nervous system - cpm counts per minute - CDTA trans-1,2-diaminocyclohexane-N,N,N,N-tetraacetic acids - HPLC high performance liquid chromatography - K _m Michaelis constant - n _app apparent number - NMG N-methyl-D-glucamine - Pipes Piperazine-N,N-bis-[2-ethanesulfonic acid] - SD standard deviation - TEA tetraethyl-ammonium - V velocity of uptake - V _max maximum velocity of uptake     

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     

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)     

Purification and characterization of anl-amino-acid oxidase fromChlamydomonas reinhardtii

Anl-amino-acid oxidase (EC 1.4.3.1) that catalyzes the oxidative deamination of twelvel-amino acids has been purified 21-fold and with 14% yield to electrophoretic homogeneity fromChlamydomonas reinhardtii cells by ammonium-sulfate fractionation, gel filtration through Sephacryl and Superose, anion-exchange chromatography and preparative electrophoresis in polyacrylamide gels. The native enzyme is a protein of 470 kDa and consists of eight identical or similarsized subunits of 60 kDa each. Optimum pH and temperature were 8.2 and 55° C, respectively, with a Q₁₀ (45–55° C) of 1.7 and an activation energy of 45 kJ · mol^–1. Its absorption spectrum showed, in the visible region, maxima at 360 and 444 nm, characteristic of a flavoprotein with a calculated flavin content of 7.7 mol FAD per mol of native enzyme. ApparentK _m values of the twelvel-amino acids which can act as substrates ofl-amino-acid oxidase ranged between 31 M for phenylalanine and 176 M for methionine. The effect of several specific group reagents, chelating agents and bivalent cations on enzyme activity has also been studied.This work was supported by Grant 780-CO2-01 from CICYT, Spain. The skillful secretarial assistance of C. Santos and I. Molina is gratefully acknowledged.     

Plasmid-mediated nicotine degradation inArthrobacter oxidans

The spontaneous loss byArthrobacter oxidans cells of the nicotine-degrading ability (Nic⁺) was 0.06%. It could be increased by treatment with plasmid-curing agents up to 8%. It was possible by conjugation to restore the Nic⁺ phenotype in such cured derivatives and to transfer the Nic⁺ character to Nic^- Arthrobacter species. Plasmid DNA, 160 kb in size as judged by contour length measurements, could be isolated from cleared lysates ofA. oxidans cells by acridine yellow chromatography. Agarose gel electrophoresis of DNA isolated fromArthrobacter exconjugates revealed the occurrence of plasmid DNA within these strains; its mobility was similar to that of the plasmid DNA present inA. oxidans. Although the expression and inducibility of the transferred genes was poor in most of theArthrobacter species exconjugants, apparently authentic 6-hydroxy-l-nicotine oxidase could be identified in these cells after enrichment by an enzyme-specific chromatography.Abbreviations 6-HDNO 6-hydroxy-d-nicotine oxidase - 6-HLNO 6-hydroxy-l-nicotine oxidase - kb kilobase - Nic⁺ ability to usel- ord-nicotine as sole carbon and nitrogen source - Nic^- absence of Nic⁺ character Enzymes (EC 1.5.3.5.) 6-Hydroxy-l-nicotine oxidase, 6-hydroxy-l-nicotine: oxygen oxidoreductase - (EC 1.5.3.6.) 6-hydroxy-d-nicotine oxidase, 6-hydroxy-d-nicotine: oxygen oxidoreductase - (EC 3.1.4.22) ribonuclease A, ribonucleate 3-pyrimidino-oligo-nucleotidohydrolase     

Purification and characterization of threonine dehydrogenase from Clostridium sticklandii

Threonine dehydrogenase from Clostridium sticklandii has been purified 76-fold from cells grown in a defined medium to a homogeneous preparation of 234 units · mg^-1 protein. Purification was obtained by chromatography on Q-Sepharose fast flow and Reactive green 19-Agarose. The native enzyme had a molecular mass of 67 kDa and consisted of two identical subunits (33 kDa each). The optimum pH for catalytic activity was 9.0. Only l-threo-threo-nine, dl--hydroxynorvaline and acetoin were substrates; only NAD was used as the natural electron acceptor. The apparent K _m values for l-threonine and NAD were 18 mM and 0.1 mM, respectively. Zn²⁺, Co²⁺ and Cu²⁺ ions (0.9 mM) inhibited enzyme activity. The N-terminal amino acid sequence revealed similarities to the class of non-metal short-chain alcohol dehydrogenases, whereas the threonine dehydrogenase from Escherichia coli belongs to the class of medium chain, zinc-containing alcohol dehydrogenases.Abbreviations PMSF phenylmethylsulfonyl fluoride - Dea diethanolamine - Tris tris-(hydroxy-methyl)-aminomethane - Nbs ₂ 5,5-dithiobis-(2-nitrobenzoic acid) - ApADN 3-acetylpyridine adenine diucleotide - thio-NAD thionicotinamide adenine dinucleotide - NBT nitro blue tetrazolium chloride     

Microbial Production of l-Threonine

l-Threonine producing α-amino-β-hydroxyvaleric acid resistant mutants were derived from E. coli K-12 with 3 x 10^-5 frequency. One of mutants, strain β-101, accummulated maximum amount of l-threonine (1. 9 g/liter) in medium. Among isoleucine, methionine and lysine auxotrophs derived from E. coli K-12, only methionine auxotrophs produced l-threonine. In contrast, among isoleucine, methionine and lysine auxotrophs derived from β-101, l-threonine accumulation was generally enhanced in isoleucine auxotrophs. One of isoleucine auxotrophs, strain βI-67, produced maximum amount of l-threonine (4. 7 g/liter). Methionine auxotroph, βM-7, derived from β-101 produced 3.8 g/liter, and βIM-4, methionine auxotroph derived from β1-67, produced 6.1 g/liter, when it was cultured in 3% glucose medium supplemented with 100 μg/ml of l-isoleucine and l-methionine, respectively. These l-threonine productivities of E. coli mutants were discussed with respect to the regulatory mechanisms of threonine biosynthesis. A favourable fermentation medium for l-threonine production by E. coli mutants was established by using strain βM-4.     

Enhanced synthesis of l - threo -3,4-dihydroxyphenylserine by high-density whole-cell biocatalyst of recombinant l -threonine aldolase from Streptomyces avelmitilis

l-threo-3,4-Dihydroxyphenylserine (DOPS) is a chiral unnatural β-hydroxy amino acid used for the treatment of Parkinson disease. We developed a continuous bioconversion system for DOPS production that uses whole-cell biocatalyst of recombinant Escherichia coli expressing l-threonine aldolase (l-TA) genes cloned from Streptomyces avelmitilis MA-4680. Maximum conversion rates were observed at 2 M glycine, 145 mM 3,4-dihydroxybenzaldehyde, 0.75% Triton-X, 5 g E. coli cells/l, pH 6.5 and 10°C. In the optimized condition, overall productivity was 8 g/l, which represents 40 times the synthesis yield possible with no optimization of conditions.     

Therlt11 andraec1 mutants ofArabidopsis thaliana lack the activity of a basic-amino-acid transporter

The concentration dependence of the influx ofl-lysine in excised roots ofArabidopsis thaliana seedlings was analyzed for the wild-type (WT) and two mutants,rlt11 andraec1, which had been selected as resistant to lysine plus threonine, and to S-2-aminoethyl-l-cysteine, respectively. In the WT three components were resolved: (i) a high-affinity, low-capacity component [K _m = 2.2 M;V _max = 23 nmol·(g FW)^–1·h^–1]; (ii) a low-affinity, high-capacity component [K _m = 159 M;V _max = 742 nmol·(g FW)^–1·h^–1]; (iii) a component which is proportional to the external concentration, with a constant of proportionalityk = 104 nmol·(g FW)^–1 h^–1];·mM^–1. The influx ofl-lysine in the mutants was lower than in the WT, notably in the concentration range 0.1–0.4 mM, where it was only 7% of that in the WT. In both mutants the reduced influx could be fully attributed to the absence of the low-affinity (high-K _m ) component. This component most likely represents the activity of a specific basic-amino-acid transporter, since it was inhibited by several other basic amino acids (arginine, ornithine, hydroxylysine, aminoethylcysteine) but not byl-valine. The high-affinity uptake ofl-lysine may be due to the activity of at least two general amino acid transporters, as it was inhibitable byl-valine, and could be further dissected into two components with a high affinity (K _i = 1–5 M; and a low affinity (K _i = 0.5–1mM) forl-valine, respectively. Therlt11 andraecl mutant have the same phenotype and the corresponding loci were mapped on chromosome 1, but it is not yet clear whether they are allelic.Abbreviations AEC S-2-aminoethyl-l-cysteine - K _i equilibrium constant - WT wild-type     

New ubiquitous translocators: amino acid export by<Emphasis Type="Italic"> Corynebacterium glutamicum</Emphasis> and<Emphasis Type="Italic"> Escherichia coli</Emphasis>

Molecular access to amino acid excretion by Corynebacterium glutamicum and Escherichia coli led to the identification of structurally novel carriers and novel carrier functions. The exporters LysE, RhtB, ThrE and BrnFE each represent the protoype of new transporter families, which are in part distributed throughout all of the kingdoms of life. LysE of C. glutamicum catalytes the export of basic amino acids. The expression of the carrier gene is regulated by the cell-internal concentration of basic amino acids. This serves, for example, to maintain homoeostasis if an excess of l-lysine or l-arginine inside the cell should arise during growth on complex media. RhtB is one of five paralogous systems in E. coli, of which at least two are relevant for l-threonine production. A third system is relevant for l-cysteine production. It is speculated that the physiological function of these paralogues is related to quorum sensing. ThrE of C. glutamicum exports l-threonine and l-serine. However, a ThrE domain with a putative hydrolytic function points to an as yet unknown role of this exporter. BrnFE in C. glutamicum is a two-component permease exporting branched-chained amino acids from the cell, and an orthologue in B. subtilis exports 4-azaleucine.     

Biochemical and genetic characterization of l-glutamate transport and utilization in Salmonella typhimurium LT-2 mutants

Two systems for l-glutamate transport were found in Salmonella typhimurium LT-2 GltU⁺ (glutamate utilization) mutants. The first one is similar to the glt system previously described in Escherichia coli; by transductional analysis the structural gene, gltS, coding for the transport protein was located at minute 80 of the chromosome as part of the operon gltC-gltS, and its regulator, the gltR gene, near minute 90; the gltS gene product transports both l-glutamate and l-aspartate, is sodium independent, and is -hydroxyaspartate sensitive. The second transport system, whose structural gene was called gltF and is located at minute 0, was l-glutamate specific, sodium independent, and -methylglutamate sensitive. Two aspartase activities occurred in S. typhimurium LT-2: the first one was present only in the GltU⁺ mutants, had a pH 6.4 optimum, was essential for both l-glutamate and l-aspartate metabolism, and mapped at minute 94, close to the ampC gene. The second one had a pH 7.2 optimum, could be induced by several amino acids, and thus may have a general role in nitrogen metabolism.