Effect of sound and Lenzites-decayed wood on the amino acid composition of Reticulitermes flavipes

In hydrolysates of the eastern subterranean termite, Reticulitermes flavipes, the most abundant protein amino acids (μmoles) were glycine, alanine, and glutamic acid; the least abundant were methionine and histidine. Sawdust from both sound and Lenzites trabea-decayed sapwood blocks of sugar maple, loblolly pine, and slash pine was force-fed to termites. A diet of decayed rather than sound wood had little effect on protein amino acid composition of the termites; glycine content varied the most. In contrast, diet affected the free amino acid composition. Except for glutamic acid, the major protein amino acids of the termites were not the predominant free amino acids. Tyrosine and histidine were relatively more abundant as free than as protein amino acids. Greatest differences in protein amino acid compositions of sound and decayed wood were in contents of glycine, leucine, lysine, and arginine.     

Contents of amino acids in Tricholoma giganteum

Seventeen protein-constitutive and free amino acids were isolated and determined from the fruit-bodies of Tricholoma giganteum . Aspartic acid and alanine were the most abundant protein constitutive amino acids. Among the free amino acids, alanine, glutamic acid, serine, aspartic acid and glycine were present in the largest amounts, with aspartic acid and glutamic acids especially dominant.     

Amino acid composition of autotrophic and heterotrophic cultures of the Emerson strain, of Chlorella

"Giant" cells of the Emerson strain of Chlorella are deficientin certain peptide amino acids as compared with normally growingcells. "Giant" cell peptides lack aspartic acid, glutamic acidand alanine (major peptide amino acids in dividing cells) althoughall three are present in "giant" cells as free amino acids andin the protein fraction. (Received October 18, 1975; )     

A daily study of the diatom spring bloom at Roscoff (France) in 1985. III. Free amino acids composition studied by HPLC analysis

The growth of a natural phytoplankton population was studiedduring a monospecific spring bloom of the diatom Rhizosoleniadelicatula at Roscoff (western English Channel). Direct examinationof the intracellular pool of 19 free amino acids (FAA) was usedas an index of the physiological status of the cells. TotalFAA in the particulate matter shows a general decrease duringthe bloom, and FAA cell content varies from 200 mM 1 cell volume^–1to 10 mM at the time of maximum biomass. FAA-N/particulate Nis <3% during the study, slightly decreasing at the timeof maximum biomass. Individual free amino acids appear reliablefor the development of the diatom biomass and good indicatorsof the growing population. At maximum biomass, major compoundsare glutamic acid (30.8 mol%), glutamine (11.7%), alanine (9.9%),isoleucine (6.6%) and lysine (6.4%). Serine, glycine, arginineand aspartic acid appear also as major components during otherperiods of the study. We suggest that the observed changes arean indication of the physiological state of the cells duringthe bloom. In particular glutamine (GLN), glutamic acid (GLU)and the GLN/GLU ratio allow the metabolic evolution of the naturalpopulation to be characterized. GLN is strictly linked to theliving biomass (Chla) while GLU is present at high percentagethroughout the study. The ecological significance of ß-alanine(BALA) is also revealed during this study, being strongly correlatedto degraded matter represented by phaeopigments. These resultsdemonstrate the validity of using individual free amino acidsas an aid in understanding the physiological status of algaein natural bloom conditions.     

Changes in the Contents of Free and Protein Amino Acids in Tobacco Seeds and Placentae during Maturation

Changes in the levels of protein and free amino acids in theseeds and placentae of Nicotiana tabacum were studied duringseed development. Seed maturation was completed 24 days afteranthesis. During maturation, protein rapidly accumulated inthe seeds between the 6th and 18th day, along with an appreciablecompositional change in the protein amino acids as the proportionsof glutamic acid and arginine increased. The amount of freeamino acids in the seeds gradually decreased throughout maturation.The major free amino acid on the 6th day after anthesis wasglutamine, which then drastically decreased between the 6thand 12th day with increases of glutamic acid, proline, arginineand alanine. The latter amino acids decreased thereafter untilthe 24th day. On the other hand, the amount and composition of the proteinsin the placentae did not change significantly throughout seedmaturation. In the early stage of development, the major freeamino acids in the placentae were glutamine, asparagine andglutamic acid, while in the later stage asparagine was mostabundant. (Received March 12, 1982; Accepted August 16, 1982)     

Seasonal patterns of nucleic acid concentrations and amino acid profiles of Parapenaeus longirostris (Crustacea, Decapoda): relation to growth and nutritional condition

The present work describes the seasonal changes in nucleic acid concentrations and amino acid profiles in the muscle of juvenile Parapenaeus longirostris and their relation to growth and nutritional condition. RNA content varied significantly between seasons, being the highest values attained in spring and the lowest in winter (p < 0.05). Similar results were obtained with RNA:protein and RNA:DNA ratios. In respect to total amino acid content (TAA), a significant increase from winter to spring was observed (p < 0.05) and the major essential amino acids (EAA) were arginine, histidine and leucine. Within non-essential amino acids (NEAA) glutamic acid, aspartic acid, glycine and proline were dominant. From winter to spring, a significant variation in NEAA content occurred (26.8; p < 0.05), mainly due to the significant increase of glutamic acid (79.1) and serine (66.7) (p < 0.05). EAA content did not vary significantly between seasons (p > 0.05). In opposition, during this period a significant decrease in the free amino acid content (FAA) was observed (p < 0.05); a higher percentage of decrease was attained in free non-essential (FNEAA – 42.9) in comparison to free essential amino acids (FEAA – 40.2). The significant increase in RNA and TAA contents from winter to spring may be related with protein synthesis. On the other hand, the lowest values obtained in winter may be due to a reduction in feeding activity; in this period the muscle protein must be progressively hydrolysed, which is evident with the higher FAA content. The liberated amino acids enter FAA pool and become available for energy production. In conclusion, it was evident that the seasonal cycle in activities such as feeding and growth with nucleic acids and amino acid analyses was noticed.     

Protein and free amino acids in wheat grain as affected by soil types and salinity levels in irrigation water

Summary The effects of four lysimeter soil series under three salinity levels were evaluated for grain yield, wt/1000 seeds, protein, and amino acids in Mexican dwarf wheat (Triticum aestivum L. var. Cajeme 71). The soil series consisted of: Holtville clay loam, Greenfield sandy loam, San Emigdio sandy loam, and Altamont clay loam. The irrigation water salinity levels were designated: low –2.2 mmho, medium –4.2 mmho, and high –7.1 mmho.No significant differences were found in the amount of grain harvested or wt/1000 seeds in the 1976 crop produced on the differential soil series. The yield of the 1977 crop was significantly affected by the soil types.Effects of soil type on the protein amino acids in the grain in both years were similar. Significantly higher protein amino acid levels of histidine, arginine, aspartic acid, threonine, serine, glutamic acid, glycine, alanine, cystine, valine, methionine, isoleucine, leucine, tyrosine, and phenylalanine were found in the grain grown on Altamont clay loam soil than the other types.The free amino acids in grain from the 1976 and 1977 crops were similarly affected by the soil types, except that the quantitative values of the free amino acids were substantially lower in 1977 than in 1976. The free amino acids significantly influenced by soil types were tryptophane, lysine, arginine, aspartic acid, threonine, serine, glycine, alanine, valine, isoleucine, tyrosine, and phenylalanine. In both years' crops, the sum of the free amino acid fractions was significantly higher in the grain produced on the Altamont soil than on the other soils.Salinity level in the irrigation water did not affect the 1976 crop yield or wt/1000 seeds. Although yields of the 1977 crop were significantly reduced by salinity, the wt/1000 seeds was not. The sum of protein amino acids was significantly higher in the 1976 and 1977 grain crops irrigated with high salinity water than in low salinity irrigated crops.An increased salinity irrigation water significantly reduced the sum of free amino acid fractions in the 1976 grain crop. Since some of the free amino acids in the 1977 grain crop increased while the others decreased due to the salinity level in the irrigation water, the sum of the free amino acid fractions was not significantly influenced.Significant interactions were found between soil types and salinity levels on free arginine, threonine, serine, glutamic acid, and alanine, and also on the sum of the free amino acids in the 1976 wheat grain. In the 1977 wheat grain, there were significant interactions between soil types and salinity levels on the free glutamic acid, valine, leucine, tyrosine, and phenylalanine, and on protein serine, glutamic acid, glycine, alanine, and the sum of the protein amino acids.The amounts of essential amino acids expressed as mg of amino acid/g of protein were not affected by the soil types or salinity levels. With the exception of lysine, and possibly threonine and methionine plus cystine, the essential amino acids were present in the grain at concentrations equal to or greater than recommended by WHO and FAO.     

Biosynthesis of amino acids from sucrose and Krebs cycle metabolites by Rhizobium lupini bacteroids

Summary The possibility of amino acids biosynthesis from sucrose, metabolites of Krebs cycle or glyoxylate and ammonium by intact bacteroids has been studied. The suspension of intact Rhizobium lupini bacteroids in phosphate buffer solution pH 7.8 was shown to catalyse the biosynthesis from sucrose and ammonium of some amino acids, such as alanine, aspartic and glutamic acids, glycine and serine. The yield of alanine and aspartic acid was 2.5–3 times higher than that of other amino acids, which were formed in almost equal quantities. Intact bacteroids were also found to catalyse the biosynthesis of aspartic and glutamic acids, alanine and glycine from ammonium and Krebs cycle metabolites such as fumaric acid (FA), oxaloacetic acid (OAA), pyruvic acid (PA), a-ketoglutaric acid (a-KGA), malic acid (MA), as well as from glyoxylic acid (GOA). The biosynthesis of aspartic acid from fumaric acid was dominant. Besides that, the suspension of intact bacteroids catalysed transamination of aspartic and glutamic acids, the transamination of aspartic acid being especially intense with -KGA and GOA. Aspartic acid was synthesized most efficiently through the amination of fumaric acid, while glutamic acid was better synthesized through the transamination of aspartic acid with -KGA than through reductive amination of -KGA.The experimental data proved that intact bacteroids posess Krebs cycle enzymes and primary ammonia assimilation enzymes. This enzyme complex permits bacteroids to detoxify ammonia, which they produce using sucrose and metabolites of Krebs cycle as the sources of carbon.The data obtained are of great interest as they prove the importance of bacteroids in the synthesis of amino acids from ammonium which is formed in the course of N₂-fixation, and sucrose available from leaves.     

Distribution of amino acids in the cellular fractions ofStaphylococcus aureus

WhenStaphylococcus aureus cells were labeled with a single radioactive amino acid for 20 minutes, the highest activity, except for alanine, leucine, and glycine, was found in the free pool. Significant amounts of the above amino acids and also valine and methionine were incorporated into the protein — cell wall fraction.Cells previously labeled with a single amino acid underwent a net loss of radioactivity when transferred to buffer, glucose, or complete medium. An exception was glycine. The greatest loss in activity occurred in the free pool.While some amino acids (alanine, cystine) were transferred from the free pool to the protein — cell wall fraction under all conditions tested, others (glutamic acid, proline) were transferred only under conditions of growth.Cells labeled with certain single amino acids and then transferred to a complete medium lost a significant portion of the label. The most extreme case noted was proline, but other amino acids also effluxed from the cell under these conditions.     

Free protein amino acids of some Mediterranean Siphonales

Fifteen free protein amino acids have been quantitatively determined in nine green algae belongin to the order Siphonales. In all the species examined, aspartic acid, glutamic acid, alanine, glycine and serine dominate. Wide differences of the relative amounts of these amino acids in the various regardless of the genus were observed.     

Forms of Aspartic Acid in Human Urine

It was found by amino acid analysis before and after acid hydrolysis of human urine that most glutamic and aspartic acid was in bound form, while glycine, glutamic and aspartic acids accounted for about 70% of bound amino acids. Fractions rich in peptides containing aspartic acid were obtained by chromatography on various columns, and 7 peptides containing aspartic acid were isolated from these fractions. It may be inferred from these results and from the literatures that there are numerous oligopeptides containing aspartic acid in human urine.     

Studies on the Browning of Kori-tofu

Kori-tofu was stored under RH 95% at 60°C and the changes of its nitrogenous compounds in the course of browning were examined. The water-soluble and 10% TCA-soluble fractions prepared from the ether extraction residue of Kori-tofu were analyzed. The nitrogen content of water-soluble fraction temporarily decreased and then increased gradually in the course of browning, while that of 10% TCA-soluble fraction increased gradually during the browning process. Amino acid analyses of 10% TCA-soluble fraction and its hydrolyzate revealed that no free amino acid was detected in unbrowned Kori-tofu, whereas in browned Kori-tofu occurred peptides, ammonia and free amino acids such as aspartic acid, serine, glutamic acid, glycine and alanine.

Free amino acids similar to those detected in browned Kori-tofu occurred in the model system consisting of lysozyme and methyl linoleate, crotonaldehyde, glyoxal, methyl-glyoxal and also the brown substance prepared from glycine and methyl linoleate during storage. The formation mechanism of free amino acids from proteins was discussed.     

Aspects of amino acid metabolism and nutrition in the ectoparasitoid wasp, Exeristes roborator

Exeristes roborator contains a wide variety of free amino acids, and the composition of all developmental stages was quantitatively dominated by proline and glutamic acid. The latter occurred together with lesser amounts of glycine, alanine, valine, leucine, tyrosine, and histidine which varied between developmental stages. Minor and trace amounts of most other commonly occurring amino acids were also found. The percentages or relative amounts of major constituents were not influenced when the parasite was reared on the alternate hosts, Pectinophora gossypiella and Gnorimoschema operculella. Likewise, the major characteristics of the latter hosts' free amino compositions could not be accounted for, in either case, by their diets.Differences in the relative distribution of the major amino acids between the developmental stages of E. roborator indicate large decreases in the percentage of proline occur during development from the larval to the adult stage with corresponding increases in the percentages of glycine in the pupal stage and alanine as well as other amino acids in the adult stage. The results suggest that proline may play an important rôle in E. roborator, probably as an energy reserve.The amino acid compositions of the total proteins of E. roborator and its hosts were similar and all quantitatively dominated by glutamic acid, aspartic acid, and amides. However, the disk gel electropherograms of the proteins of both hosts and parasite were different. Quantitative changes were evident in the protein pattern of the parasite when reared on the alternate hosts.E. roborator incorporated radioactivity from ¹⁴C(U)-glucose into the amino acids, glutamic acid, aspartic acid, serine, glycine, alanine, and proline. Furthermore, ¹⁴C(U)-glutamic acid was incorporated into a wide variety of proteins. The data suggest that the above amino acids may be non-essential dietary components for E. roborator. However, quantitative determinations indicate that the amount of glutamic acid synthesized does not account for the amount incorporated into protein over the same time period.     

Intracellular Distribution of Free Amino Acids between the Vacuolar and Extravacuolar Compartments in Internodal Cells of Chara australis

Distribution of free amino acids between the vacuolar and extra-vacuolar(cytoplasmic) compartments in internodal cells of Chara australiswas studied. Under the control conditions (14-h light : 10-hdark), most (90%) of the cellular free amino acids were foundin the extra-vacuolar compartment. The reverse was true forammonia. The major amino acids were isoasparagine, alanine,glutamic acid, aspartic acid, serine and glycine. The contentsof hydrophobic and basic amino acids were minor and relativelygreater proportions were found in the vacuole except when theircontents were extremely low. When cells were kept for 3 days under continuous light or incontinuous darkness, the total free amino acid content increasedto about 120% (light) and about 150% (dark) that of the control.These increases mainly took place in the vacuole, but the aminoacid species responsible for the increments differed with thelight conditions. In contrast, the cytoplasmic content was relativelyconstant (50–60 mM) even under continuous light or darkness.The results suggest that the vacuole acts in the homeostasisof the cytoplasmic amino acid content. As anion, amino acidsin the cytoplasm compensated for about 10–20% of the reported"anion deficiency" in the cytoplasm. (Received June 7, 1984; Accepted September 11, 1984)     

THE INFLUENCE OF EXCESS METHIONINE ON THE FREE AMINO ACIDS OF BRAIN AND LIVER OF THE WEANLING RAT*

Abstract— —High circulating levels of l -methionine produced by inclusion in the diet or parenteral injection of the amino acid caused alterations in the free amino acid pattern of liver and brain tissues. Acute effects following l -methionine injection were more pronounced than those following long term feeding where adaptation played a role. The net effect following parenteral injection was to increase the total free amino acids of liver while decreasing those of brain. Individually, hepatic levels of aspartic acid, threonine, serine, glutamine, glutamic acid, glycine, and alanine were depressed while levels of taurine, cystathionine, methionine, lysine, and ornithine were markedly elevated. Brain levels of aspartic acid, threonine, serine, glutamic acid, glycine, alanine, and γ-aminobutyric acid were markedly depressed and increased levels of cystathionine, methionine, lysine, and glutamine were observed. A generalized aminoaciduria occurred shortly after excessive methionine intake. Disruption of the free amino acid pools was of two kinds. The first depended on the continued presence of excess l -methionine, the second did not.     

FREE AMINO ACIDS IN DEVELOPING RAT RETINA

—During postnatal growth the free amino acids pattern of rat retina differs at various developmental stages. The adult level for individual amino acids is reached on the 30th day of maturation. During differentiation the taurine, glutamic acid, GABA, glutamine, aspartic acid, glycine arginine, methionine and histidine levels increase while proline. alanine, ornithine and tyrosine decrease.     

Compartmentation and exchangeability of brain amino acids: evidence from studies of transport into tissue slices.

Compartmentation of the free amino acid pool of brain slices was investigated by measuring the approach to isotopic equilibrium between tissue and medium when slices were incubated with traces of radioactive amino acids. Trace quantities were used to minimize the effects of uptake, which could make the detection of slowly equilibrating pools difficult by greatly increasing tissue amino acid levels. Small, sequestered compartments were found. After 2 h in 20 vol of glucose-containing, oxygenated medium, the nonequilibrating compartments for lysine, leucine, tyrosine, histidine, valine, and threonine were 41, 20, 17, 16, 11, and 6% of their final tissue concentrations, respectively. The data for rapidly metabolized, nonessential, amino acids were more difficult to interpret. Considerable mixing of incoming glutamic and aspartic acids with their endogenous pools was observed and tissue glycine reached isotopic equilibrium within 1 h. With higher concentrations of amino acids, equilibration was complete in 30 min with 2 mm glycine in the medium; 83% in 30 min with 2 mm glutamic acid, and 95% in 60 min with 5 mm glutamic acid in the medium. The amino acid composition of protein free extracts of slices and medium was determined. During incubation, despite a large efflux of amino acids into the medium, most tissue amino acids remained close to their initial concentrations. Net increases in essential amino acids were accounted for by the breakdown of 0.7% of total tissue protein during the first hour and 0.3% during the second hour of incubation.     

Haemolymph amino acids and related compounds during cocoon production by the larvae of the fly, Rhynchosciara americana

A qualitative and quantitative analysis of free amino acids and related compounds in the haemolymph of Rhynchosciara americana was carried out for different periods of the fourth larval instar. Threonine, serine, proline, and glutamic acid make up 50 per cent of the total free amino acids in R. americana haemolymph just before the larvae start spinning the communal cocoon; after this the titre of most of the amino acids declines continuously. There are few peptides but these are present in high titres; they consist of two to three amino acid residues, of which the most important are histidine and aspartic acid. The fall in the haemolymph amino acid and peptide titres is insufficient to account for the silk protein which accumulates on the communal cocoon during the same period. The results are consistent with a silk protein origin from haemolymph proteins and haemolymph free amino acids. The origin and metabolic rôle of some haemolymph ninhydrin-positive compounds are discussed.     

Effect of coordinated addition of specific amino acids on the synthesis of recombinant glucose isomerase

The amplified expression of a recombinant protein is known to lead to an intracellular depletion of specific amino acid pools which in turn may affect the production of the desired protein. In order to counteract and overcome such a situation during the fermentation of the recombinant Escherichia coli (PMSG27) containing the glucose isomerase (GI) gene from Streptomyces sp. NCIM 2730, the effect of addition of different amino acids on the specific activity of GI was studied. The amino acid composition of GI from Streptomyces sp. NCIM 2730 reveals predominantly aspartic acid, glutamic acid, and glycine; therefore, in the present paper, the effect of coordinated addition of the assorted combinations of these three amino acids on the synthesis of recombinant GI was studied. The results were analyzed using a 2³ factorial design. The following conclusions were derived from the analysis of two-factor interactions of the three amino acids: (i) The interaction between the aspartic and glutamic acid is independent of aspartic acid concentration but is affected by the increasing concentrations of glutamic acid, (ii) The effect of aspartic acid concentration is more than that of glycine, and (iii) During the interaction of glutamic acid and glycine, the effect of glutamic acid is more prominent than that of glycine. The three-factor interaction analyses reveal that the effect of the three amino acids is in the order aspartic acid > glutamic acid > glycine.     

INTRACELLULAR AMINO ACID CONTENT OF NEURONAL, GLIAL, AND NON-NEURAL CELL CULTURES: THE RELATIONSHIP TO GLUTAMIC ACID COMPARTMENTATION

Abstract— A protocol for the accurate determination of intracellular levels of amino acids in tissue cultured cells has been developed and used in the measurement of intracellular amino acids levels in neuronal, glial, and non-neural cell lines, with the objective of establishing morphological correlates for large and small glutamic acid compartments and of examining hypotheses for the morphological basis of glutamic acid compartmentation. This survey of intracellular amino acid levels has revealed striking differences among the cell lines tested, but these differences did not correlate with cell type, i.e. neuronal vs glial, in contrast to earlier results (R ose , 1968) based on bulk separated neuronal and pial fractions from rat brain. Amino acid levels were found to be dependent upon tissue culture conditions, yet reproducible differences could be observed when growth and experimental conditions were carefully controlled. Glutamic acid levels for various cell lines ranged from 50.8 ± 14.3 to 158 ± 8.5 nmol/mg protein. Intracellular glutamine levels demonstrated even greater difference, with values ranging from 0.8 ± 0.2 to 107 ± 42.4 nmol/mg protein. Statistically significant differences in intracellular amino acid levels between cell lines were also observed for aspartic acid, praline, glycine, alanine, valine, cystathionine, isoleucine, and leucine. A number of cell lines demonstrating highly elevated elevated levels of γ-aminobutyrate and β-alanine were identified. The significance of neuronal and glial levels of glutamic acid, glutamine and γ-aminobutyrate to models for glutamic acid compartmentation is discussed.