八种氨基酸对水稻硝酸盐吸收的影响

目的:在较低NO3-浓度下,研究不同氨基酸对水稻硝酸盐吸收的调控作用.方法:使用非侵害性硝酸盐检测系统测定了谷氨酸、天门冬氨酸、精氨酸、赖氨酸、脯氨酸、苯丙氨酸、缬氨酸和丝氨酸8种氨基酸对水稻硝酸盐吸收的动力学影响.结果:加入谷氨酸、天门冬氨酸后对水稻硝酸盐的吸收有短暂的促进作用,硝酸盐净吸收率分别上升258±123%和217±34%;另外,加入赖氨酸和精氨酸以后发现水稻硝酸盐的吸收率降低-63±34%和-64±27%,反应延迟时间为30min以上,而其他4种氨基酸并没有产生明显的影响.结论:氨基酸不是直接调控水稻高亲和力NO3-转运系统,而可能是对NO3-同化过程进行调控.     

癫痫患者血浆中游离氨基酸水平分析

对７１例癫痫患者血浆中１８种游离氢基酸与３６例正常人血浆中游离氨基酸的水平对照。分析表明,抑制性氨基酸（γ－氨基丁酸、甘氨酸）水平明显升高的癫痫患者,其它氨基酸水平绝大多数低于正常人;兴奋性氨基酸（谷氨酸、天门冬氨酸、丙氨酸、谷氨酰胺）水平明显升高的癫痫患者,其它氨基酸水平低于正常人。     

乳鼠脑组织中牛磺酸的快速检测

建立一种快速、准确的牛磺酸定量检测方法。采用Beckman公司6300黄金系统氨基酸分析仪,在锂柱130 min程序生理体液分析方法基础上,根据牛磺酸(TAU)的特性,建立了脑组织中TAU快速测定方法。用此方法完成TAU分析的时间为17 min,比原方法缩短了123 min。且有较好的重现性(日内RSD 0.42%,日间RSD 0.57%)、回收率高(98.39%)。本方法简便、快速、准确、可靠,适用于临床和科研工作。     

HPLC-MS/MS法检测星形胶质细胞兴奋性氨基酸释放

目的:建立一种快速测定星形胶质细胞上清中兴奋性氨基酸释放的高效液相-串联四级杆质谱方法.方法:使用高效液相-串联四极杆质谱的多反应监测(MRM)模式快速测定星形胶质细胞(AST)兴奋性氨基酸(EAAs)的释放量.结果:该方法检测细胞上清液中兴奋性氨基酸释放量能够在4分钟内完成,有很好的精密度(Glu 1.0%,Asp 1.6%),较好的稳定性(组内的变异系数Glu为1.34%,Asp为1.41%;组间变异系数Glu为2.32%,Asp为2.18%)和回收率(Glu 97.1%;Asp 95.8%).结论:该方法定量检测兴奋性氨基酸快速、准确,可用于大批量样品的快速测定.     

高效液相荧光法测定大鼠脑内氨基酸类神经递质方法的改良

目的 改良测定大鼠脑组织氨基酸类神经递质的反相高效液相色谱荧光法.方法 改良使用磷酸盐-甲醇-乙腈作为流动相,反相高效液相色谱洗脱,高丝氨酸作为内标,邻苯二甲醛柱前衍生和荧光检测器,检测大鼠大脑皮质、海马、纹状体、中脑、小脑和下丘脑6个脑区中天冬氨酸(Asp)、谷氨酸(Glu)、谷氨酰胺(G1n)、甘氨酸(Gly)、γ-氨基丁酸(GABA)和牛磺酸(Tau)6种氨基酸类神经递质含量.结果 6种氨基酸在20 min内洗脱完全,分离效果良好;在6.25～ 400 μmol/L浓度范围有较好的线性关系,其相关系数不低于0.99;6种氨基酸日内试验精密度范围为1.38％ ～7.59％;日间试验精密度为2.7％～8.68％;6种氨基酸回收率不低于80％.结论 改良后的反相高效液相色谱荧光法灵敏度较高、重复性好,能有效分离检测大鼠脑组织分区中氨基酸类神经递质含量.     

褐飞虱对游离氨基酸的利用

通过测定褐飞虱虫体、蜜露及稻株中16种游离氨基酸的含量及百分率组成,并进行对比分析,初步探讨了褐飞虱对游离氨基酸的利用问题。虫体、蜜露和稻株中含量最多的氨基酸分别为丙氨酸、天门冬氨酸和谷氨酸。褐飞虱大量吸收的氨基酸是丙氨酸,稻株中含量最少的蛋氨酸和酪氨酸,在蜜露中检测不到,认为可全部被吸收利用;相反,天门冬氨酸则很少被利用,谷氨酸被利用的相对量也不多;其他氨基酸或多或少地为褐飞虱所利用。     

影响克拉维酸生物合成的氨基酸

发酵液的氨基酸分析显示,谷氨酸,精氨酸,天门冬氨酸,丙氨酸易被棒状链霉菌利用,发酵培养基中添加上述氨基酸后,谷氨酸,精氨酸有利于克拉维酸的生物合成,适时添加谷氨酸,精氨酸可分别提高克拉维酸的产量约25%和12%;而蛋氨酸,半胱氨酸含S氨基酸对克拉维酸生物合成不利,不同来源的黄豆粉作发酵培养基氮源,因其组成中某些氨基酸含量的差异。可使克拉维酸的产量相差百分之十几。     

衰老大鼠的某些脑区组织中游离氨基酸水平的改变

使用D 半乳糖建立衰老大鼠模型组与同龄、同饲的正常对照组大鼠的某些脑区游离氨基酸 (FAA)水平的比较发现 :( 1 )衰老模型组的海马、纹状体以及皮层等脑区中谷氨酸 (Glu)、天门冬氨酸 (Asp)水平明显降低 ;( 2 )γ 氨基丁酸 (GABA)水平在衰老模型组大鼠的海马 ,纹状体以及小脑等脑区中明显升高 ;( 3)衰老模型组的皮层、小脑、海马、纹状体等脑区的牛磺酸 (Tau)水平明显下降。以此探讨动物衰老与脑区游离氨基酸水平的关系     

衰老对大鼠脑区氨基酸水平的影响

本文测定了正常青龄组（３月龄）和老龄组（２０月龄）大鼠不同脑区（皮层、小脑海马、纹状体和下丘脑）谷氨酸、天门冬氨酸、甘氨酸、ｒ－氨基丁酸和牛磺酸的含量。结果表明：在衰老过程中大鼠某些脑区谷氨酸、天门冬氨酸、甘氨酸和牛磺酸水平显著降低;而纹状体γ－氨基丁酸含量则显著升高。     

人工栽培花脸香蘑氨基酸研究

从野生花脸香蘑中分离 ,纯化获得花脸香蘑菌株 ,用稻草代料栽培获得花脸香蘑子实体。用Backman 6 30 0自动氨基酸分析仪首次测定了人工代料栽培的花脸香蘑子实体中 18种氨基酸。结果显示 ,花脸香蘑子实体干品中 ,蛋白质质量分数为30 .0 3% ;18种氨基酸质量分数为 2 4 .37% ,其中谷氨酸 4 .79% ,天门冬氨酸 2 .4 6 % ,赖氨酸 1.6 0 % ,色氨酸 0 .4 8% ,蛋氨酸 0 .4 3%。该分析结果对花脸香蘑的研究开发具有科学价值     

Effect of Impact Trauma on Neurotransmitter and Nonneurotransmitter Amino Acids in Rat Spinal Cord

N-Methyl-D-aspartate (NMDA) administration exacerbates neurological dysfunction after traumatic spinal cord injury in rats, whereas NMDA antagonists improve outcome in this model. These observations suggest that release of excitatory amino acids contributes to secondary tissue damage after traumatic spinal cord injury. To further examine this hypothesis, concentrations of free amino acids were measured in spinal cord samples from anesthetized rats subjected to various degrees of impact trauma to the T9 spinal segment. Levels of excitatory and inhibitory neurotransmitter amino acids [gamma-aminobutyric acid (GABA), glutamate, aspartate, glycine, taurine] and levels of nonneurotransmitter amino acids (asparagine, glutamine, alanine, threonine, serine) were determined at 5 min, 4 h, and 24 h posttrauma. Uninjured surgical (laminectomy) control animals showed modest but significant declines in aspartate and glutamate levels, but not in other amino acids, at all time points. In injured animals, the excitatory amino acids glutamate and aspartate were significantly decreased by 5 min posttrauma, and remained depressed at 4 h and 24 h as compared with corresponding laminectomy controls. In contrast, the inhibitory amino acids, glycine, GABA, and taurine, were decreased at 5 min postinjury, had partially recovered at 4 h, and were almost fully recovered at 24 h. The nonneurotransmitter amino acids were unchanged at 5 min posttrauma and significantly increased at 4 h, with partial recovery at 24 h. At 4 h postinjury, severe trauma caused significantly greater decreases in aspartate and glutamate than did either mild or moderate injury. These findings are consistent with the postulated role of excitatory amino acids in CNS trauma.     

Effects of Anoxia on the Stimulated Release of Amino Acid Neurotransmitters in the Cerebellum In Vitro

Abstract: The effect of anoxia and ischemia on the release of amino acid transmitters from cerebellar slices induced by veratridine or high [K⁺] was studied. Synaptic specificity was tested by examining the tetradotoxin (TTX)-sensitive and the Ca²⁺-dependent components of stimulated release. Evoked release of endogenous amino acids was investigated in addition to more detailed studies on the stimulated efflux of preloaded [¹⁴C]GABA and d -[³H]aspartate (a metabolically more stable anologue of acidic amino acids).[¹⁴C]GABA release evoked by either method of stimulation was unaffected by periods of up to 35 min of anoxia and declined moderately by 45 min. In contrast, induced release of d -[³H]Asp increased markedly during anoxia to a peak at about 25 min, followed by a decline when anoxia was prolonged to 45 min. Evidence was obtained that the increased evoked efflux of d -[³H]Asp from anoxic slices was not due to impaired reuptake of the released amino acid and that it was completely reversible by reoxygenation of the slices. Results of experiments examining the evoked release of endogenous amino acids in anoxia were consistent with those obtained with the exogenous amino acids. Only 4 of the 10 endogenous amino acids studied exhibited TTX-sensitive veratridine-induced release under aerobic conditions (glutamate, aspartate, GABA, and glycine). Anoxia for 25 min did not affect the stimulated efflux of these amino acids with the exception of glutamate, which showed a significant increase. Compared with anoxia, effects of ischemia on synaptic function appeared to be more severe. Veratridine-evoked release of [¹⁴C]GABA was already depressed by 10 min and that of d -[³H]Asp showed a modest elevation only at 5 min. Stimulated release of d -Asp and labelled GABA declined progressively after 5 min. These findings were compared with changes in tissue ATP concentrations and histology. The latter studies indicated that in anoxia the earliest alterations are detectable in glia and that nerve terminals were the structures by far the most resistant to anoxic damage. The results thus indicated that evoked release of amino acid transmitters in the cerebellum is compromised only by prolonged anoxia in vitro. In addition, it would appear that the stimulated release of glutamate is selectively accentuated during anoxia. This effect may have a bearing on some hypoxic behavioral changes and, perhaps, also on the well-known selective vulnerability of certain neurons during hypoxia.     

Effects of Ionotropic Excitatory Amino Acid Receptor Antagonists on Glutamate Transport and Transport-Mediated Changes in Extracellular Excitatory Amino Acids in the Rat Striatum

Abstract: This study examined the effects of intrastriatal administration of ionotropic excitatory amino acid receptor antagonists on biochemical markers of excitatory amino acid transmission in the rat striatum. High-affinity glutamate uptake was measured ex vivo on striatal homogenates 15 min after the local administration of either 6,7-dinitroquinoxaline-2,3-dione (DNQX), a non-NMDA receptor antagonist, or dl -2-amino-5-phosphonopentanoic acid (AP5), a competitive NMDA antagonist, at various doses (10–500 pmol injected). DNQX induced a dose-dependent increase in glutamate uptake rate, related to an increase in the V _max of the transport process, whereas no significant change in glutamate uptake was detected after AP5 administration. Similar results were obtained from animals subjected to excitotoxic lesion of striatal neurons by kainate administration 15 days before the injection of DNQX or AP5. In a parallel series of experiments using in vivo microdialysis we showed that DNQX (10⁻⁵ M ) in the dialysis probe diminished by ∼30–40% the increases in the concentrations of glutamate and aspartate elicited by l - trans -pyrrolidine-2,4-dicarboxylic acid (1 m M ). These data suggest that presynaptic glutamate transmission in the rat striatum may undergo facilitatory autoregulatory processes involving ionotropic non-NMDA receptors and highlight the view that transporters for glutamate may be potent regulatory sites for glutamatergic transmission.     

Glutamine and Aspartate Loading of Synaptosomes: A Reevaluation of Effects on Calcium-Dependent Excitatory Amino Acid Release

Guinea-pig cerebral cortical synaptosomes were preincubated for 60 min with 100 microM D-aspartate, L-aspartate, or L-glutamate. The total D- plus L-aspartate content of the synaptosomal fraction increased to 235%, 195%, or 164%, respectively, of the control. Despite this no increase was seen in the very low KCl evoked, Ca2+-dependent release of aspartate. Preincubation with the three amino acids changed the synaptosomal glutamate content to 78% (D-aspartate), 149% (L-aspartate), or 168% (L-glutamate) of control. However there was no statistically significant effect of these preincubations on the extent of Ca2+-dependent glutamate release. Thus the Ca2+-dependent release of aspartate and glutamate is not determined by the total synaptosomal content of these amino acids. The addition of 0.1-0.5 mM glutamine to the incubation caused a massive appearance of glutamate in the extrasynaptosomal medium. Analysis of specific activities showed that glutamine was hydrolysed directly by an extrasynaptosomal glutaminase, and that intrasynaptosomal glutamate was predominantly labelled by uptake of this glutaminase-derived glutamate. No increase was seen in the extent of Ca2+-dependent release of glutamate (by fluorimetry) either after preincubation with glutamine or in the continued presence of glutamine. Thus we are unable to confirm reports that glutamine expands the transmitter pool of glutamate. The extrasynaptosomal glutaminase activity in the synaptosomal preparation was inhibited by Ca2+ and activated by phosphate. Identical kinetics were obtained with "free" brain mitochondria, confirming the origin of the glutamine-derived glutamate.     

Anaerobic Amino Acid Metabolism

Anoxic stress induces a strong change in sugar, protein, and amino acid metabolism in higher plants. Sugars are rapidly consumed through the anaerobic glycolysis to sustain energy production. Protein degradation under anoxia is a mechanism to release free amino acids contributing in this way to maintaining the osmotic potential of the tissue under stress. Among free amino acids, a particular role is played by glutamic acid, being a precursor of some characteristic compounds of the anaerobic metabolism (alanine, -aminobutyric acid, and putrescine). The glutamine synthetase/glutamate synthase cycle contributes to ammonia reassimilation and primary assimilation of nitrate, and resynthesizes constantly glutamate for the synthesis of other compounds. Some polypeptides involved in these pathways are expressed under anoxia. The importance of amino acid metabolism for the response to anaerobic stress is discussed.     

Effect of 2-Amino-7-Phosphonoheptanoic Acid on Regional Brain Amino Acid Levels in Fed and Fasted Rodents

Abstract: 2-Amino-7-phosphonoheptanoic acid, an antagonist of excitation caused by dicarboxylic amino acids with a selective action on N -methyl-d-aspartate receptors, has been administered in an anticonvulsant dose (1 mmol/kg i.p.) to fed or fasted rats and mice. The drug impaired motor activity in fasted mice. Glucose and amino acids were determined in dissected regions of brain fixed by microwave irradiation. Glucose content was low in the brains of fasted rats and mice but was restored to normal (fed) concentration 45 min after the administration of 2-amino-7-phosphonoheptanoic acid in fasted mice. In fed animals, 2-amino-7-phosphonoheptanoic acid did not change brain aspartate concentration. In fasted animals, aspartate concentration was raised in most brain regions. In fasted rats and mice, 2-amino-7-phosphonoheptanoic acid significantly increased glutamine in rat cortex and mouse striatum, decreased glutamate content in rat striatum, and decreased aspartate concentration in all regions except mouse cortex and striatum. GABA levels were significantly decreased in rat striatum and hippocampus. These changes are consistent with an increased synaptic release of glutamate and aspartate following blockage of their post-synaptic action at selected sites.     

Carbohydrate Effects on Amino Acid Transport by Trypanosoma equiperdum*

SYNOPSIS. Uptake of ¹⁴C-labeled alanine, glutamate, lysine, methionine, proline, and phenylalanine by Trypanosoma equiperdum during 2-minute incubations occurred by diffusion and membrane-mediated processes. Amino acid metabolism was not detected by paper chromatography of trypanosome extracts. Most of 18 carbohydrates tested for ability to alter amino acid transport neither changed nor significantly inhibited transport. Glucose, however, stimulated glutamate, lysine and proline transport; fructose stimulated lysine uptake and 2-deoxy-D-glucose increased phenylalanine and methionine absorption. No evidence was found that the carbohydrates acted by binding to amino acid transport “sites.” Glucose inhibition of alanine, phenylalanine, and methionine uptake was linked to glycolysis. The rapid formation of alanine from glucose stimulated alanine release and, when glycolysis was blocked, glucose no longer inhibited alanine transport. Methionine and phenylalanine release was also stimulated by glucose. Glucose changed the ability of lysine, glutamate, and proline to inhibit each others’uptake, indicating that certain amino acids are preferentially absorbed by respiring cells. Analysis of free pool amino acid levels suggested that some amino acid transport systems in T. equiperdum are linked in such a way to glycolysis as to control the cell concentrations of these amino acids.     

新型氨基酸制剂对创伤大鼠血游离氨基酸的影响

观察了富含牛磺酸 (Tau)、谷氨酰胺 (Gln)以及高支链氨基酸 (HBCAA)的新型氨基酸制剂对创伤大鼠血中游离氨基酸浓度的影响。结果表明 ,创伤后三天起 ,血浆游离氨基酸总和均显著降低 ,对照组基本无改变 ;创伤后Tau、BCAA、精氨酸以及天冬氨酸等具有抗氧化和免疫调节作用的氨基酸含量明显降低 ,新处方使用一周后其浓度有效回升 ,且效果好于 17种氨基酸 ,从而有利于机体伤口的愈合。这些结果为进一步阐明复合氨基酸制剂促进创伤愈合的作用及其开发应用提供了理论依据     

圈养大熊猫乳中氨基酸组成的研究

为了认识大熊猫乳中氨基酸的组成特点,将大熊猫乳经6 mol/L盐酸水解后,用高效液相色谱测定了不同泌乳阶段的20个乳样的氨基酸组成.结果显示,大熊猫初乳中含量最高的氨基酸是谷氨酸,约为5.2 g/L;常乳和干乳期乳腺分泌物中含量最高的是脯氨酸;总氨基酸含量在泌乳2～10 d内变化不明显,平均值约为34 g/L;干乳期乳中氨基酸含量变化显著.     

Developmental Changes in the Free Amino Acid Pool of Rice(Oryza sativa L. subsp,japonica) Bmbryos

The level of/various amino acids in rice embryos rose sharply during embryo differentiation (7–9 days after anthesis). Then it increased steadily or tended to become stable at mid-maturation stage (13–18 days after anthesis), thereafter continuing to increase, except that the contents of aspartate and glutamate decreased significantly. The total free amino acid pool expanded rapidly during the differential stage. There after the pool capacity showed only a slightly increase until the end of embryogenesis. Both on embryo cell and dry weight bases, the capacity reached the maximum at the 9th day after anthesis, then decreased at the 13th day, and later remained stable. We deemed that the establishment of the free amino acid pool is one of the events which occur in the process of rice embryo differentiation. By the fulfillment of the differentiation (the 13th dray after anthesis), the pool capacity within the embryo cells remained stable on the whole. The free amino acid pool was dominated by serine, alanine, aspartate and glutamate during the differentiation stage. In the maturation stage, serine, alanine, arginine and lysine were the main components. These predominant; amino acids may play an important role in regulating the availability of the whole amino acid pool.