Different binding sites for entry and exit of amino acids in whole cells of Mycobacterium phlei.

On the basis of mutual inhibition of uptake with different amino acids in whole cells of Mycobacterium phlei, it was demonstrated that the binding site of proline was different from those of all other amino acids studied. Other groups of amino acids share a common binding site: lysine, histidine, and arginine; valine, leucine, and isoleucine; tryptophan, tyrosine, and phenylalanine; glutamic acid and aspartic acid. The exit and entry processes were studied for proline, glutamine, and glutamic acid. It was observed that in each case the entry and exit processes were mediated by different membrane sites.     

Effect of phospholipase A on active transport of amino acids with membrane vesicles of Mycobacterium phlei.

Active transport of proline remained unaffected in phospholipase A-treated electron transport particles from Mycobacterium phlei. However, the steady state level of proline was reduced 50 to 60% in phospholipase A-treated depleted electron transport particles that were devoid of membrane-bound coupling factor-latent ATPase activity. The decrease in the uptake of proline in the phospholipase A-treated depleted electron transport particles was not due to a change in the apparent K-m for proline, but it was related to the amount of phospholipid cleaved from the membranes. Restoration in the level of proline transport in phospholipase A-treated depleted electron transport particles was achieved by reconstituting these vesicles with diphosphatidylglycerol and phosphatidylethanolamine liposomes. Diphosphatidylglycerol was found to be most effective in the restoration of proline uptake. In contrast to the effect of phospholipase A treatment on proline transport, similar treatement of the electron transport particles or depleted electron transport particles failed to inhibit the active transport of either glutamine or glutamic acid. Studies with phospholipase A-treated membrane vesicles confirmed earlier findings that a proton gradient is not required for active transport of amino acids.     

Metabolism of Proline, Glutamate, and Ornithine in Proline Mutant Root Tips of Zea mays (L.)

In excised pro_1-1 mutant and corresponding normal type roots of Zea mays L. the uptake and interconversion of [¹⁴C]proline, [¹⁴C]glutamic acid, [¹⁴C]glutamine, and [¹⁴C]ornithine and their utilization for protein synthesis was measured with the intention of finding an explanation for the proline requirement of the mutant. Uptake of these four amino acids, with the exception of proline, was the same in mutant and normal roots, but utilization differed. Higher than normal utilization rates for proline and glutamic acid were noted in mutant roots leading to increased CO₂ production, free amino acid interconversion, and protein synthesis. Proline was synthesized from either glutamic acid (or glutamine) or ornithine in both mutant and normal roots; it did not accumulate but rather was used for protein synthesis. Ornithine was not a good precursor for proline in either system, but was preferentially converted to arginine and glutamine, particularly in mutant roots. The pro_1-1 mutant was thus not deficient in its ability to make proline. Based on these findings, and on the fact that ornithine, arginine, glutamic acid and aspartic acid are elevated as free amino acids in mutant roots, it is suggested that in the pro_1-1 mutant proline catabolism prevails over proline synthesis.     

Transport of Glutamate and Glutamine in the Light Leaf Spot Pathogen Pyrenopeziza brassicae

The kinetics of glutamic acid and glutamine uptake in the light leaf spot fungus, Pyrenopeziza brassicae , are biphasic. At low and high concentrations, glutamic acid and glutamine share a high-affinity and a low-affinity carrier, respectively, with K_ms of 4.0 and 4.4 μ m for uptake of glutamic acid and glutamine, respectively, by the high-affinity system, and K_m s of 580 and 560 μ m for uptake of glutamic acid and glutamine by the low-affinity system. The data suggest that glutamic acid and glutamine are taken up by a different system to that responsible for the uptake of ornithine, arginine, lysine and asparagine, and may represent system IV described in Neurospora crassa for the uptake of acidic amino acids.     

Quantitative analysis of free amino acids and carbohydrates in spring barley anthers at different stages of maturity

The content of the carbohydrates glucose, fructose and sucrose was determined in spring barley anthers at different stages of maturity. During maturation the sucrose content of the anthers increased markedly. The following 17 free amino acids were detected in anthers of different stages of maturity: aspartic acid, glutamic acid, serine, alanine, arginine, leucine, isoleucine, lysine, α-aminobutyric acid, glutamine, proline, tyrosine, phenylalanine, valine, threonine, cystine and glycine. Quantitative analysis was only carried out in amino acids present in higher concentrations in the analysed samples. These were: aspartic acid, glutamic acid, α-aminobutyric acid, proline, serine, valine and glutamine, and a mixture of amino acids (leucine, isoleucine, valine and phenylalanine). The total content of free amino acids increased with increasing maturity of the anthers. However, not all amino acids followed contributed to this increase, but only proline, glutamic acid, aspartic acid and glutamine. A small difference was found in the variety Gopal in which the aspartic acid content did not increase significantly, but the content of the mixture of amino acids and serine did. With the exception of green anthers of the variety Firlbecks Union, proline was present in the highest concentration in all samples analysed.     

Isolation, purification, and reconstitution of a proline carrier protein from Mycobacterium phlei.

Membrane vesicles from Mycobacterium phlei contain carrier proteins for proline, glutamine, and glutamic acid. The transport of proline is Na+ dependent and required substrate oxidation. A proline carrier protein was solubilized from the membrane vesicles by treatment with cholate and Triton X-100. Electron microscopic observation of the detergent-treated membrane vesicles showed that they are closed structures. The detergent-extracted proteins were purified by means of sucrose density gradient centrifugation, followed by gel filtration and isoelectric focusing. A single protein with a molecular weight of 20,000 +/- 1000 was found on polyacrylamide gel electrophoresis. Reconstitution of proline transport was demonstrated when the purified protein was incubated with the detergent-extracted membrane vesicles. This reconstituted transport system was specific for proline and required substrate oxidation and Na+. The purified protein was also incorporated into liposomes, and proline uptake was demonstrated when energy was supplied as a membrane potential introduced by K+ diffusion via valinomycin. The uptake of proline was Na+ dependent and was inhibited by uncoupler or by sulfhydryl reagents.     

Free Amino Acids in Cigarette Smoke (I)–(II)

Free amino acids in the cigarette smoke, produced in constant-volume continuous smoking by the use of an artificial smoking-device, have been paper-chromatographically studied, and twelve amino acids, i.e., α-alanine, β-alanine, glycine, glutamic acid, glutamine, serine, γ-amino butyric acid, valine, leucine, aspartic acid, proline, and ornithine(?) were qualitatively identified. Besides these amino acids, the presence of the other two unidentified ninhydrin-positive substances was observed. The presence of ten amino acids, other than glutamic acid and glutamine, has not yet been reported in the literature concerning tobacco smoke.     

Effects of Free Fatty Acids on Synaptosomal Amino Acid Uptake Systems

Abstract: The Na⁺-dependent synaptosomal uptakes of proline, aspartic acid, glutamic acid, and γ-aminobutyric acid were strongly inhibited by monounsaturated fatty acids. With oleic acid, half-maximal inhibition was observed at about 15 μM. The Na⁺-independent uptakes of leucine, phenylalanine, histidine, and valine were less sensitive to inhibition by the unsaturated fatty acids. In contrast, the uptakes of all of these amino acids were unaffected by saturated fatty acids. The inhibition of proline uptake (and that of the other Na⁺-dependent amino acids) by oleic acid was overcome by the addition of serum albumin and the data presented further indicate that the previously reported stimulation of proline uptake by albumin could be related to its fatty acid binding properties.     

Mode of utilization of amino acids as growth substrates by Azospirillum brasilense

The study was undertaken to analyze the rate of uptake and utilization of various amino acids by Azospirillum brasilense Sp81 (RG) in a basal mineral salts solution under non-nitrogen fixing condition. These amino acids including other nitrogenous compounds were tested for both N- and C-sources. The kinetic constants (Km and Vmax) of uptake of some amino acids (e.g. lysine, arginine, proline, glutamine and glutamic acid) were exploited using a Hanes-Woolf plot, and discussed in the context of nitrogen starvation or both carbon and nitrogen starvation. To summarize all the kinetic data for these amino acids strongly suggested that the mode of these amino acids utilization in this bacterium followed the same general pattern, although the quantitative differences were there. A single amino acid was able to satisfy the nitrogen needs of this bacterium in basal mineral salts solution, and this possibility could be considered for the cost-effective growth medium for this bacterium in the biotechnological industry.     

Minicells of Bacillus subtilis a unique system for transport studies

Ultrasound-purified minicells produced by Bacillus subtilis mutant div IV-Bl have been studied for their ability to transport and incorporate into macromolecules a variety of amino acids, uracil and thymine. Minicells transport all 12 amino acids examined, but are unable to incorporate them into macromolecules. No significant differences were found in the initial uptake rates of glutamic acid, aspartic acid, and alanine by minicells and parental cells. The uptake of methionine and proline by minicells was shown to be inhibited by metabolic poisons, indicating an energy-metabolism requirement for transport in this system. The proline pool in minicells was found to be readily exchangeable with exogenous proline. In contrast metabolically poisoned minicells only slowly lose their pool proline, indicating an energy requirement for pool maintenance. Packed-cell experiments reveal that minicells accumulate proline against a concentration gradient.In addition to amino acids, minicells are able to transport uracil but cannot incorporate uracil into acid-precipitable material (RNA). Neither thymine transport nor its incorporation into macromolecules can be demonstrated in minicells.Minicells appear to be a new system, therefore, in which transport may be studied in the absence of macromolecular biosynthesis.     

Amino acid utilization by L-M strain mouse cells in a chemically defined medium

Summary The amino acid requirements of strain L-M mouse cells grown in a chemically defined medium (2×Eagle) containing only the 13 essential amino acids (EAA) were investigated. Medium and acid hydrolysate samples were analyzed for amino acid content by the method of ion exchange chromatography. The extent of utilization of the EAA differed;e.g. after 120 hr of cell growth without medium change, glutamine was exhausted from the medium; methionine, leucine, isoleucine, cystine, arginine, and valine were depleted 60 to 80%; other EAA were used to lesser extents. Although the EAA were used in excess of their requirements for protein synthesis, a correlation could generally be made between utilization and protein amino acid composition. Glutamine appeared to be, a growth-limiting factor. Use of U-¹⁴C-labeled glutamine indicated that over one-half of the metabolized glutamine was converted to carbon dioxide, 17% to cell material, and 15% was extracted from the amino acid pools. Nonessential amino acids (NEAA), viz. alanine, aspartic acid, glutamic acid, glycine, proline, and serine, were released into the medium during growth, and some were reutilized. Exogenous provision of these did not improve cell growth. In contrast to the other NEAA, only serine showed net utilization when provided exogenously. When glutamic acid largely replaced the glutamine in the medium, it exerted a sparing effect on the glutamine requirement for protein synthesis. Suggestions are given for the improvement of Eagle medium for cell growth. Supported by Research Grants CA 03720 and CA 11802 from the National Institutes of Health. Predoctoral, fellow supported, by Grant F01-GM-42156-02 from the National Institutes of Health.     

Concentration of free amino acids in the blood and liver of cattle, sheep and rabbits

Concentration of free amino acids in the plasma, erythrocytes and the liver of cattle, sheep and rabbits was different in various species. The differences concerned mainly glutamine, glutamic acid, proline, alanine, glycine. The participation of endogenic amino acids in gluconeogenesis and the nitrogen recycle was discussed considering the characteristics of their metabolism in ruminants.     

The amino acid transport systems of the autotrophically grown green alga Chlorella

The kinetic analysis of l-amino acid uptake by the green alga Chlorella revealed at least seven different uptake systems to be present in cells grown autotrophically with nitrate as nitrogen source. There is a ‘general system’ which transports most neutral and acidic amino acids, a system for short-chain neutral amino acids including proline, a system for basic amino acids including histidine, a special system for acidic amino acids, and specific systems for methionine, glutamine and threonine. The ‘general system’ is possibly the same as that which can be stimulated by incubation of cells in glucose plus ammonium (Sauer, N. (1984) Planta 161, 425–431). The incubation of Chlorella in glucose induces the increased synthesis of six amino acid uptake systems, namely the above-mentioned system for short-chain neutral amino acids, a threonine system, a methionine system, and a glutamine system. These results indicate that the uptake of l-amino acids by the green alga Chlorella is as complex as in other free-living organisms such as bacteria or yeast. The small number of amino acid uptake systems found in cells of higher plants, i.e. two or three, seems therefore to be a consequence of integration of the cells in a tissue supplying a relatively constant environment, and not a consequence of autotrophic growth on mineral carbon and mineral nitrogen.     

Anaerobic transport of amino acids coupled to the glycerol-3-phosphate-fumarate oxidoreductase system in a cytochrome-deficient mutant of Escherichia coli.

The uptake of proline and glutamine by cytochrome-deficient cells of Escherichia coli SASX76 grown aerobically on glucose or anaerobically on pyruvate was stimulated by these two substrates. Pyruvate could not stimulate transport in the glucose-grown cells. Uptake of these amino acids energized by glucose was inhibited by inhibitors of the Ca2+, Mg2+-stimulated ATPase such as DCCD, pyrophosphate, and azide, and by the uncouplers CCCP and 2,4-dinitrophenol. Glycerol (or glycerol 3-phosphate) in the presence of fumarate stimulated the transport of proline and glutamine under anaerobic conditions in cytochrome-deficient cells but not in membrane vesicles prepared from these cells although glycerol 3-phosphate-fumarate oxidoreductase activity could be demonstrated in the vesicle preparation. In contrast, in vesicles prepared from cytochrome-containing cells of E. coli SASX76 amino acid transport was energized under anaerobic conditions by this system. Inhibitors of the Ca2+, Mg2+-activated ATPase and uncoupling agents inhibited the uptake of proline and glutamine in cytochrome-deficient cells dependent on the glycerol-fumarate oxidoreductase system. Ferricyanide could replace fumarate as an electron acceptor to permit transport of phenylalanine in cytochrome-deficient or cytochrome-containing cells under anaerobic conditions. It is concluded that in cytochrome-deficient cells using glucose, pyruvate, or glycerol in the presence of fumarate, transport of both proline and glutamine under under anaerobic conditions is energized by ATP through the Ca2+, Mg2+-activated ATPase. In cytochrome-containing cells under anaerobic conditions electron transfer between glycerol and fumarate can also drive transport of these amino acids.     

The effect of altered ergosterol content on the transport of various amino acids in Candida albicans.

Candida albicans cells have low levels of ergosterol when grown in ascorbic acid-supplemented media. When cells are grown in hydroquinone-supplemented media, the ergosterol levels became higher as compared to normal cells. The uptake of lysine, glycine, glutamic acid, proline, methionine and serine is reduced in hydroquinone-supplemented cells. In contrast to hydroquinone-supplemented cells, the rate and level of accumulation of these amino acids are higher in ascorbic acid-supplemented cells. Nystatin-resistant isolates of C. albicans with low ergosterol contents also exhibit an increased rate and level of accumulation of these amino acids. The uptake of phenylalanine and leucine remained unaffected by such a change in ergosterol levels brought about by different supplementation of the media. The results demonstrate a correlation between ergosterol levels and amino acids uptake. Contrary to various reports, the rate of K+ efflux does not seem to correlate with the amino acid uptake in C. albicans cells.     

Conversion of amino acid residues in proteins and amino acid homopolymers to carbonyl derivatives by metal-catalyzed oxidation reactions

A number of metal-catalyzed oxidation (MCO) systems mediate the oxidative inactivation of enzymes. This oxidation is accompanied by conversion of the side chains of some amino acid residues to carbonyl derivatives (for review, see Stadtman, E. R. (1986) Trends Biochem. Sci. 11, 11-12). To identify the amino acid residues which are sensitive to MCO oxidation, several enzymes/proteins and amino acid homopolymers were exposed to various MCO systems. The carbonyl groups which were formed were converted to their corresponding 3H-labeled hydroxy derivatives. After acid hydrolysis, the labeled free amino acids were separated by ion exchange chromatography. Each protein or polymer gave rise to several different labeled amino acids. The elution profiles of the labeled amino acids obtained from preparations of Escherichia coli glutamine synthetase which had been oxidized by MCO systems comprised of either Fe(II)/O2 or ascorbate/Fe(II)/O2 both in the presence and absence of EDTA were qualitatively the same. From a comparison of the elution profiles of labeled amino acids from various proteins with those obtained from homopolymers, it is evident that the side chains of histidine, arginine, lysine, and proline are particularly sensitive to oxidation by the MCO systems. This conclusion is supported also by direct amino acid analysis of acid hydrolysates which shows that the oxidation of glutamine synthetase, enolase, and phosphoglycerate kinase is associated with the loss of at least 1 histidine residue per subunit. From the results of studies with homopolymers, it is apparent that glutamic semialdehyde is a major product of both proline and arginine residues. In addition, hydroxyproline and unlabeled glutamic acid were identified among the hydrolysis products of oxidized poly-L-proline, and unlabeled aspartic acid was identified as a product of poly-L-histidine oxidation.     

Amino acid utilization by L-M strain mouse cells in a chemically defined medium

Summary The amino acid requirements of strain L-M mouse cells grown in a chemically defined medium (2×Eagle) containing only the 13 essential amino acids (EAA) were investigated. Medium and acid hydrolysate samples were analyzed for amino acid content by the method of ion exchange chromatography. The extent of utilization of the EAA differed;e.g. after 120 hr of cell growth without medium change, glutamine was exhausted from the medium; methionine, leucine, isoleucine, cystine, arginine, and valine were depleted 60 to 80%; other EAA were used to lesser extents. Although the EAA were used in excess of their requirements for protein synthesis, a correlation could generally be made between utilization and protein amino acid composition. Glutamine appeared to be a growth-limiting factor. Use of U-¹⁴C-labeled glutamine indicated that over one-half of the metabolized glutamine was converted to carbon dioxide, 17% to cell material, and 15% was extracted from the amino acid pools. Nonessential amino acids (NEAA), viz. alanine, aspartic acid, glutamic acid, glycine, proline, and serine, were released into the medium during growth, and some were reutilized. Exogenous provision of these did not improve cell growth. In contrast to the other NEAA, only serine showed net utilization when provided exogenously. When glutamic acid largely replaced the glutamine in the medium, it exerted a sparing effect on the glutamine requirement for protein synthesis. Suggestions are given for the improvement of Eagle medium for cell growth. Supported by Research Grants CA 03720 and CA 11802 from the National Institutes of Health. Predoctoral fellow supported by Grant F01-GM-42156-02 from the National Institutes of Health. Present address: Department of Community Medicine. Basic Science Building, University of California, San Diego, La Jolla, Calif. 92037.     

Amino acid transport in a water-mould: the possible regulatory roles of calcium and N6-(delta2-isopentenyl)adenine.

Transport of amino acids in the water-mould Achlya is an energy-dependent process. Based on competition kinetics and studies involving the influence of pH and temperature on the initial transport rates, it was concluded that the 20 amino acids (L-isomers) commonly found in proteins were transported by more than one, possibly nine, uptake systems. This is similar to the pattern elucidated for some bacteria but unlike those uncovered for all fungi studied to date. The nine different systems elucidated are: (i) methionine, (ii) cysteine. (iii) proline, (iv) serine-threonine, (v) aspartic and glutamic acids, (vi) glutamine and asparagine, (vii) glycine and alanine, (viii) histidine, lysine, and arginine, and (ix) phenylalanine-tyrosine-tryptophan and leucine-isoleucine-valine as two overlapping groups. Transport of all of these amino acids was inhibited by azide, cyanide, and its derivatives and 2,4-dinitrophenol. These agents normally interfere with metabolism at the level of the electron transport chain and oxidative phosphorylation. Osmotic shock treatment of the cells released, into the shock fluid, a glycopeptide that binds calcium as well as tryptophan but no other amino acid. The shocked cells are incapable of concentrating amino acids, but remain viable and reacquire this capacity when the glycopeptide is resynthesized.     

Selective inhibition of synaptosomal proline uptake by leucine and methionine enkephalins

The high affinity, sodium-dependent uptake of proline by rat brain synaptosomes was inhibited by the opioid pentapeptides, Leu-enkephalin and Met-enkephalin. The synaptosomal uptake of other putative neurotransmitter amino acids including glutamic acid, aspartic acid, gamma-aminobutyric acid, and taurine was not altered in the presence of enkephalins. The uptake of a neuroinactive amino acid, leucine, was also unaffected by enkephalins. The extent of proline uptake was half-maximal at a Leu-enkephalin concentration of 1 microM. Both the initial rate of transport and the overall capacity for proline accumulation were reduced. The effect of the enkephalins was vectorial since carrier-mediated efflux of proline was not altered in the presence of enkephalins. Morphine and the opioid peptides, dynorphin and beta-endorphin, were without effect on proline uptake. The inhibition of proline uptake by enkephalins was not diminished by prior incubation of the synaptosomal preparation with naloxone; however, the inhibition was attenuated by 1-butanol. The des-tyrosyl fragments of the enkephalins were as inhibitory as the intact pentapeptides. A modified enkephalin ([D-Ser2]Leu-enkephalin-Thr) with selective affinity for the delta subclass of enkephalin receptor was effective in inhibiting proline uptake. On the basis of the selectivity of these effects, we propose that there is a specific population of nerve endings in the cerebral cortex that contains both a proline-transport system and binding sites for Leu- and Met-enkephalin and furthermore, that these binding sites may be related to the putative delta receptor.     

Relationship between Auxin and Amino Acid Metabolism of Tobacco Protoplast-Derived Cells

Single amino acids were found to be highly toxic to protoplast-derived cells of tobacco (Nicotiana tabacum cv Xanthi) cultured at low density in a culture medium containing a low naphthaleneacetic acid concentration (0.05 micromolar). The cytotoxicities of alanine, aspartic acid, asparagine, glutamic acid, glutamine, glycine, lysine, proline, and valine were reduced when the naphthaleneacetic acid concentration of the culture medium was increased to 1 micromolar. This selective modification of amino acid toxicity by naphthaleneacetic acid could not be correlated with modifications of uptake rates or incorporation of these amino acids into protein or amino acid-auxin conjugates. A mutant clone resistant to high naphthaleneacetic acid concentrations and affected in root morphogenesis did not display, at the cellular level, the naphthaleneacetic acidmediated modification of amino acid cytotoxicity.