Free and protein amino acids,and nutrient concentrations in wheat grain as affected by phosphorus nutrition at various salinity levels

Summary The effects of P nutrition under various salinity levels on the protein, amino acids, and nutrients in mature wheat grain were studied. Mexican dwarf wheat (Triticum aestivum L. var Inia) was grown to maturity in solution cultures with variable concentrations of P (0.5-, 5-, 25- and 50 mg P/l) in combination with NaCl at concentrations producing osmotic potentials (_s) of –0.4-, –1.4-, –2.4- and –4.4-bars. All other essential nutrients were present in adequate concentrations for vigorous plant growth.Increasing levels of P in the nutrient solutions tended to decrease the grain yield, N, Cl, protein-glutamic acid,-proline,-leucine,-glycine, and-serine, while P, K, Mg, Zn, Mn and Cu in the grain were increased. The sum of all protein amino acids in the grain decreased as the concentration of P increased in the nutrient solution. The effect of P on the individual and sum of amino acids tended to show peak amounts at the 5.0 mg P/l treatment level.Increased levels of salinity significantly reduced grain yield, N, proteinglutamic acid,-proline,-leucine,-glycine,-serine,-aspartic acid,-alanine, and-phenylalanine in the grain. The sum of the protein amino acids (mol/g dry wt.) was decreased in the grain from plants grown at –4.4 bars salinity level, but not in the grain from plants receiving less saline treatments. The concentrations of free amino acids: serine, aspartic acid, glutamic acid, alanine, and arginine were lower in the grain produced at the –4.4 bars salinity than at –0.4 bars salinity level. The sum of free amino acids (mol/g dry wt.) in the grain were decreased at the highest salinity level as compared with concentrations found for grain produced at lower salinity levels.There were some interactions found between P and salinity on the protein amino acids and nutrients in the grains.The amounts of essential amino acids expressed in mg/g of protein were not significantly affected by the increasing levels of P and salinity in the nutrient solution and they were found in adequate or greater amounts than those recommended by the World Health Organization and FAO.     

Free and bound amino acids and proteins in developing grains of rice with enhanced lysine/proteins

 Free amino acids were determined in developing seed of a rice mutant with enhanced grain lysine. This phenotype frequently has enhanced protein. Some free amino acids of developing seed are inversely related to the level of total amino acids in proteins of the mature grain. Amino acids that were enhanced in protein, including aspartic acid, threonine, methionine and lysine, were notably lower in the free amino-acid pool. Our conclusion is that mutant-developing grains process aspartate amino acids more rapidly than the controls. Conversely, arginine, valine and glutamic acid/glutamine accumulate as free amino acids with mutant/control ratios of 1.39, 1.29 and 1.12, respectively. Glutamic acid/glutamine in proteins of mature seeds is lower in the mutant than the control. ³H-lysine incorporation showed enhanced isotope incorporation into at least four proteins. One mutant protein was less actively labelled than analogous controls. The ³Hlysine pattern indicates processing modifications in this useful rice mutant. Received: 14 October 1996/Accepted: 8 November 1996     

Intervarietal Differences in the Amino Acid Composition of Pea Roots as Related to their Response to Salinity

The salt tolerance of three cultivars of Pisum sativum L. asdefined by root growth on saline substrate was in the orderDan > Alaska > Laxton Progress. The total content of freeamino acids decreased in Alaska, but not in Laxton Progress,with increasing salinity, while the content of the free basicamino acids increased with salinity. In both cultivars salinityinduced accumulation of free proline, but not enough to maintainthe osmotic adaptation of the cytoplasm. Proline accumulationcould not account for the greater tolerance of the Alaska cultivar.Both cultivars contain large amounts of glutamic acid and homoserine.The amino acid composition of protein of the Alaska cultivaris affected much more by salinity than is that of Laxton Progress.In Alaska salinity induces an increase in aspartic and glutamicacids, threonine, serine, leucine and isoleucine. The totalcontent of basic amino acids decreases with salinity. The proteinof Laxton Progress is very rich in leucine and its amount slightlydecreases with salinity. In the most tolerant cultivar, Dan,there is more proline in the protein than in the other two cultivarsand its content of leucine increases with salinity. The onlyfeatures which show some correlation with salinity toleranceare proline content (Dan > Alaska > Laxton Progress) andan increase in leucine content in the protein, with increasingsalinity. Pisum sativum L, pea, amino acid composition of roots, salinity     

Impact of potassium,sodium, and salinity on the protein-and free amino acid content of wheat grain

A lysimeter study was conducted on Cajeme wheat (Triticum aestivum L.) to investigate the impact of salinity on protein and free amino acid content of the grain. Cross correlations were obtained between 16 different soil-plant-water based parameters and the concentration and total accumulation of amino acids. The results indicated that after 3 years of irrigation, the majority of protein bound and free amino acids increased in concentration in the grain. However, both free tryptophan and free proline revealed decreasing concentrations with increasing salinity. Free tryptophan showed a synergism between total accumulation, yield and concentration. Free proline concentrations decreased in association with increasing protein concentrations. Cross correlations of the 16 soil-plant-water based parameters with free and protein bound amino acids revealed significant correlations for free aspartic acid and glycine with total accumulation but not with concentrations. Only methionine plus cystine was lower than suggested FAO levels for essential amino acids and was lower in the third year than in the first year.     

不同冬小麦品种在3种质地土壤中氮代谢特征及利用效率分析

为明确不同土壤质地条件下不同品种冬小麦(Triticum aestivum)的氮代谢和利用特征, 筛选与土壤质地相适宜的高产和氮高效利用的优质小麦品种, 采用大田试验的方法, 在同一生态类型区砂土、壤土和黏土3种质地土壤上, 以当地生产上大面积应用的强筋小麦‘郑麦366’ (‘ZM366’)和中筋小麦‘矮抗58’ (‘AK58’)、‘周麦22’ (‘ZM22’)为材料, 系统地研究了土壤质地对不同冬小麦品种主要生育时期叶片氨同化关键酶谷氨酰胺合成酶(GS)活性、游离氨基酸含量、花前和花后不同器官氮素积累和分配、氮素再分配等氮代谢过程及产量、品质和氮素利用效率等的影响。结果表明: 在这3种土壤质地上, 不同品种冬小麦旗叶GS活性和游离氨基酸含量均呈倒“V”型变化特征。各品种小麦旗叶GS活性、游离氨基酸含量大小及达到最大值的时期不一样, 砂土条件下峰值早于壤土10天左右出现, 且在5月22日已检测不到GS活性和游离氨基酸含量。花前和花后小麦地上部及各器官氮积累量(NA)、氮再分配量(NR)、成熟期籽粒产量和氮素当季利用率(NUE)均以壤土上为最高。氮素转运率(NRE)、花前再分配氮素对籽粒氮素的贡献率(NRC)、氮素生理效率(NPE)、氮收获指数(NHI)以砂土上为最高。其中, 砂土上NRC达82.46%-95.84%, 是花后的7倍左右; 壤土和黏土条件下花后吸收的氮素在籽粒氮素的积累中占有较大的比例, 贡献率分别为36.6%和29.2%。同一土壤质地上3个品种比较, 在砂土上, GS活性、游离氨基酸含量、籽粒产量、蛋白质含量及NUE和NPE以‘郑麦366’最高, 而壤土上以‘矮抗58’最高, 黏土上则以‘周麦22’最高。因此, 在生产上应培育和选择与土壤质地相适应的小麦品种, 砂土地种植‘郑麦366’, 壤土条件下种植‘矮抗58’, 黏土条件下种植‘周麦22’, 可以在获得较高产量和品质的同时, 提高氮素利用效率。     

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.     

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.     

Nitrogen Metabolism of Vicia faba

Vicia faba plants were grown for four and six weeks without externally supplied nitrogen. Some nitrogen was transported to the plant axis from the cotyledons throughout this period, but the amount available was insufficient to support maximum shoot growth. During this period the protein content of the shoot declined whilst the free amino acids, especially aspartic acid, glutamic acid, histamine and the combined pool for threonine, serine, asparagine and glutamine and ammonia, increased in amount. In contrast to the shoot the protein content of the root increased as did their free amino acid content, but the increase in the latter was less than in the shoot and only the combined value for threonine, serine, asparagines and glutamine increased significantly. During tbe last two weeks growth, some soluble non-amino acid compound appeared to donate nitrogen to the pool of free amino acids in the root and shoot.     

Landscape patterns of free amino acids in arctic tundra soils

Concentrations of free amino acids were measured in soils from four major ecosystem types in arctic Alaska. Total free amino acid concentrations were several-fold higher than ammonium (the major form of inorganic nitrogen) in water extracts of soils. The dominant free amino acids in these soils were glycine, aspartic acid, glutamic acid, serine, and arginine. Concentrations of total amino acids ranged 5-fold across communities, being highest in tussock tundra and lowest in wet meadows. Incubation experiments indicate that the turnover of amino acids is rapid, which suggests high rates of gross nitrogen mineralization in these soils. The high concentrations and dynamic nature of soil free amino acids suggest that this nitrogen pool is a significant component of nitrogen cycling in these tundra ecosystems.     

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.     

Florida citrus molasses as a fermentation substrate: I. Free amino acids in molasses from early and midseason varieties of citrus fruits during 2 years of production

Samples of midseason Florida citrus molasses from 10 different manufacturing plants were studied during 2 years of production for suitability as fermentation substrates. They were analyzed for degrees Brix, pH, percentage of protein, and free amino acid content. The following ranges of values were obtained: degrees Brix, 65.4 to 73.0; pH, 4.2 to 6.4; and protein, 3.3 to 5.1%. Although the general characteristics of all samples were quite similar, the total free amino acid content and the number of amino acids differed from year to year and from plant to plant. The free amino acids consistently present were asparagine, aspartic acid, alanine, γ-amino-butyric, glycine, glutamic acid, proline, serine, and threonine. Occasionally found were arginine, histidine, isoleucine, leucine, lysine, phenylalanine, tyrosine, and valine. An extremely high level of proline was detected in all samples.     

Variation in the free amino acid content of skeletal muscle of Ophicephalus punctatus (Bloch)

The skeletal muscle of Ophicephalus punctatus contains nine essential free amino acids, arginine, histidine, isoleucine, leucine, methionine, phenylalanine, threonine, valine and lysine, and eight non-essential amino acids, alanine, aspartic acid, cystine, glutamic acid, glycine, tyrosine, proline and serine. Histidine and lysine dominated the free amino acids pool. Seasonal variation was detected in the levels of histidine, arginine, leucine, phenylalanine, glycine, cystine and serine with highest values occurring in April and again in November. Changes were also detected in the concentrations of certain amino acids as the fish grew in size. Levels of free amino acids did not significantly differ between sexes. Factors effecting variation are discussed.     

Postharvest production of ochratoxin A by Aspergillus ochraceus and Penicillium viridicatum in barley with different protein levels.

The production of ochratoxin A (OA) in barley by Aspergillus ochraceus and Penicillium viridicatum was measured at 12 and 25 degrees C. The grain had been fertilized with various amounts of nitrogen fertilizer (0, 90, or 240 kg/ha) and contained (at crop maturity) 9.1, 10.4, or 12.0% protein, respectively. The production of OA by both fungi increased as the protein concentration increased. Glutamic acid and proline were enriched relative to other amino acids as the protein concentration increased. The differences in OA production could not be explained by a differential effect of protein or amino acids on fungal growth in barley. However, glutamic acid and proline enhanced OA production in liquid cultures of both A. ochraceus and P. viridicatum.     

Some Effects of Protein Deficiency in Young Growing Pigs. II. Blood Plasma Free Amino Acids

The influence of protein deficiency, rehabilitation and total starvation on the free amino acid levels in the blood plasma of pigs has been investigated. It was found that the concentration of most amino acids was reduced during protein deficiency. The levels of leucine, isoleucine and valine were diminished by the greatest proportion, followed by threonine, tyrosine and citrulline. During the first few weeks of protein deficiency the levels of lysine, histidine and arginine were slightly increased, but later decreased below control values. Concentrations of glycine and alanine were altered in a similar way except that the initial increase was much more pronounced. The concentrations of most of these amino acids returned to control levels after rehabilitation. Total starvation led to an increase in concentration of leucine, isoleucine, valine, threonine and to a smaller extent phenylalanine, lysine, citrulline and arginine. The concentration of glycine, alanine and glutamic acid were very much reduced. The level of urea in the circulation dropped reversibly during protein deficiency and increased very much during total starvation.     

Postharvest production of ochratoxin A by Aspergillus ochraceus and Penicillium viridicatum in barley with different protein levels

The production of ochratoxin A (OA) in barley by Aspergillus ochraceus and Penicillium viridicatum was measured at 12 and 25 degrees C. The grain had been fertilized with various amounts of nitrogen fertilizer (0, 90, or 240 kg/ha) and contained (at crop maturity) 9.1, 10.4, or 12.0% protein, respectively. The production of OA by both fungi increased as the protein concentration increased. Glutamic acid and proline were enriched relative to other amino acids as the protein concentration increased. The differences in OA production could not be explained by a differential effect of protein or amino acids on fungal growth in barley. However, glutamic acid and proline enhanced OA production in liquid cultures of both A. ochraceus and P. viridicatum.     

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.     

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.     

Nitrogen fertilizer factory effects on the amino acid and nitrogen content in the needles of Scots pine

The aim of the research was to evaluate the content of amino acids in the needles of Pinus sylvestris growing in the area affected by a nitrogen fertilizer factory and to compare them with other parameters of needles, trees, and sites. Three young-age stands of Scots pine were selected at a distance of 0.5 km, 5 km, and 17 km from the factory. Examination of the current-year needles in winter of the year 2000 revealed significant (p < 0.05) differences between the site at a 0.5-km distance from the factory and the site at a 17-km distance from the factory--with the site closest to the factory showing the highest concentrations of protein (119%), total arginine (166%), total other amino acids (depending on amino acid, the effect ranged between 119 and 149%), free arginine (771%), other free amino acids (glutamic acid, threonine, serine, lysine--depending on amino acid, the effect ranged between 162 and 234%), also the longest needles, widest diameter, largest surface area, and heaviest dry weight (respectively, 133, 110, 136, and 169%). The gradient of nitrogen concentration in the needles was assessed on the selected plots over the period of 1995-2000, with the highest concentration (depending on year, 119 to 153%) documented in the site located 0.5 km from the factory. Significant correlations were determined between the total amino acid contents (r = 0.448 -0.939, p < 0.05), some free amino acid (arginine, aspartic acid, glutamic acid, lysine, threonine, and serine) contents (r = 0.418 - 0.975, p < 0.05), and air pollutant concentration at the sites, the distance between the sites and the factory, and characteristics of the needles. No correlation was found between free or total arginine content and defoliation or retention of the needles. In conclusion, it was revealed that elevated mean monthly concentration of ammonia (26 microg m(-3)) near the nitrogen fertilizer factory caused changes in nitrogen metabolism, especially increasing (nearly eight times) concentration of free arginine in the needles of Scots pine.     

Utilization and requirements of amino acids by a cell line derived from the butterfly Papilio xuthus

The media, in which a butterfly cell line (Px 58), derived from pharate adult ovaries of Papilio xuthus cultured for 8 days, were analysed to examine the changes in free amino acids in the medium during cultivation. Beta-alanine, arginine, glycine, histidine, lysine, phenylalanine, proline, serine, and tryptophan did not change markedly. Asparagine, aspartic acid, cystine, glutamine, isoleucine, leucine, methionine, threonine, tyrosine, and valine decreased to some extent with culturing. Alpha-alanine increased markedly, and glutamic acid did so to a lesser extent. Requirements of amino acids by the cell line were examined by deleting amino acids one at a time. Deletion of alpha-alanine, beta-alanine, asparagine, glutamic acid, glycine, and phenylalanine did not cause deterioration of the cell. These amino acids were thought to be non-essential or required only a little. Deletion of other amino acids impaired the cell growth severely. These amino acids would appear to be essential for growth of the Px 58 cell line.