KINETICS OF COMPETITIVE INHIBITION OF NEUTRAL AMINO ACID TRANSPORT ACROSS THE BLOOD-BRAIN BARRIER

The transport of tryptophan across the blood-brain barrier is used as a specific example of a general approach by which rates of amino acid influx into brain may be predicted from existing concentrations of amino acids in plasma. The kinetics of inhibition of [¹⁴C]tryptophan transport by four natural neutral amino acids (phenylalanine, leucine, methionine, and valine) and one synthetic amino acid (α-methyl tyrosine) is studied with a tissue-sampling, single injection technique in the barbiturate-anesthetized rat. The equality of the K₁ (determined from cross-inhibition studies) and the K_m (determined from auto-inhibition data) for neutral amino acid transport indicate that these amino acids compete for a single transport site in accordance with the kinetics of competitive inhibition. Based on equations derived for competitive inhibition, apparent K_m values are computed for the essential neutral amino acids from known data on amino acid transport K_m and plasma concentrations. The apparent K_m values make possible predictions of the in vivo rates of amino acid influx into brain based on given plasma amino acid concentrations. Finally, a method is presented for determining transport constants from saturation data obtained with single injection techniques.     

氨基酸添加对亚热带森林红壤氮素转化的影响

为探究氨基酸氮形态对亚热带土壤氮素含量及转化的影响,选择建瓯市万木林保护区的山地红壤为对象,采用室内培养实验法,通过设计60%和90%WHC两种土壤含水量并添加不同性质氨基酸,测定了土壤中铵态氮、硝态氮、可溶性有机氮的含量和氧化亚氮的释放量,分析了可溶性有机碳、土壤p H值的大小变化及其与氮素的相互关系。结果表明:与对照处理相比,氨基酸添加显著增加了土壤NH_4~+-N含量并使土壤p H值升高,且在一定程度上解除了高含水量(90%WHC)对NH_4~+-N产生的抑制,其中甲硫氨基酸的效果最为明显。酸性、碱性、中性氨基酸对土壤NO_3~--N含量和N_2O释放影响不显著,但甲硫氨基酸可显著抑制土壤硝化从而导致NH_4~+-N的积累,并在培养前期抑制土壤N_2O产生而在培养后期促进N_2O释放,总体上促进N_2O释放。60%WHC的氨基酸添加处理较90%WHC条件下降低土壤可溶性有机氮的幅度更大。氨基酸对土壤氮素转化的影响与带电性关系较小,而可能与其分解产物密切相关。可见,不同性质氨基酸处理对森林土壤氮素含量及转化存在不同程度的影响,且甲硫氨基酸对土壤氮素转化的影响机理值得深入研究。     

AMINO ACID TRANSPORT IN NITZSCHIA OVALIS ARNOTT1,2

The marine diatom Nitzschia ovalis possesses at, least 3 amino acid uptake systems, specific for transport of acidic, polybasic, and, neutral amino acids. Maximum uptake velocity (V_max) for each, site is inversely related to the nitrogen content of the cell, and to the nitrogen available in the culture medium. Transport, of polybasic amino acids occurs throughout the course of growth in batch, culture, but the V_max increases dramatically as the culture ages and nitrogen/cell reaches a low value. K_s does not, change significantly. Acidic and neutral amino acids are taken up only by cells harvested from nitrogen-poor culture. It appears that amino acid transport is repressed by high concentrations of nitrogen in the medium. Under natural conditions, where nitrogen concentrations are low, the contribution of amino acid uptake to the nitrogen economy of Nitzschia populations may be significant.     

Einfluß von Penicillin und seinen Zersetzungsprodukten auf die Biosynthese von L-Lysin mit Brevibacterium flavum CB

In the laboratory scale fermentation the substitution of peanutmeal by a hydrolysate of Penicillium mycelium in the culture medium for production of L-Lysine with Brevibacterium flavum CB has been testet. The mycelium hydrolysate contains Penicillin and degradation products of Penicillin; therfor the influence of these substances to production of L-Lysine has been investigated.     

Purification and characterization of an -amino acid deaminase used to prepare unnatural amino acids

-Amino acid deaminase ( -AAD) from Proteus myxofaciens was cloned and over-expressed in Escherichia coli K12. This enzyme has a broad substrate specificity, working on both natural and unnatural -amino acids. Of the 20 naturally occurring -amino acids, -AAD prefers amino acid substrates that have aliphatic, aromatic or sulfur-containing side chains; those with charged side chains (–CO₂⁻ or –NH₃⁺) are poor or non-substrates. Enzyme activity was monitored using a microtiter-plate-based assay, which measures the formation of phenylpyruvic acid from -phenylalanine. The reaction has an absolute requirement for O₂, releases NH₃ and does not produce H₂O₂. Substrate comparisons were carried out by using an O₂ electrode to measure the O₂ utilization rates. Studies on partially purified enzyme show a pH optimum of 7.5 with a subunit molecular weight of approximately 51 kDa. Additional purification and characterization strategies will be presented. The use of whole cells containing -AAD will be discussed to prepare chiral pharmaceutical intermediates.     

Studies on Bacterial Protease

Some physicochemical properties and amino acid composition of the alkaline protease of B. amylosacchariticus were determined. The molecular weight and sedimentation coefficient were estimated to be 22,700 and 2.89 s, respectively, and the amino terminal amino acid was identified to be alanine. The enzyme contained 15.9% of nitrogen and was composed of 220 residues of amino acid: lys₆, his₅, arg₃, asp₂₀, thr₁₄, ser₃₇, glu₁₂, pro₁₀, gly₂₅ ala₂₇ val₂₀, met₃, isoleu₁₂, leu₁₂, tyr₉, phe₂, try₃ and amide ammonia₁₆ The results indicate that protein nature and chemical properties of the alkaline protease presented here are distinct from those of alkaline proteases obtained from the other strains of B. subtilis, such as subtilopeptidase A, B and BPN’     

Stimulation of the amino acid transporter SLC6A19 by JAK2

JAK2 (Janus kinase-2) is expressed in a wide variety of cells including tumor cells and contributes to the proliferation and survival of those cells. The gain of function mutation ^V617FJAK2 mutant is found in the majority of myeloproliferative diseases. Cell proliferation depends on the availability of amino acids. Concentrative cellular amino acid uptake is in part accomplished by Na⁺ coupled amino acid transport through SLC6A19 (B(0)AT). The present study thus explored whether JAK2 activates SLC6A19. To this end, SLC6A19 was expressed in Xenopus oocytes with or without wild type JAK2, ^V617FJAK2 or inactive ^K882EJAK2 and electrogenic amino acid transport determined by dual electrode voltage clamp. In SLC6A19-expressing oocytes but not in oocytes injected with water or JAK2 alone, the addition of leucine (2 mM) to the bath generated a current (I_le), which was significantly increased following coexpression of JAK2 or ^V617FJAK2, but not by coexpression of ^K882EJAK2. Coexpression of JAK2 enhanced the maximal transport rate without significantly modifying the affinity of the carrier. Exposure of the oocytes to the JAK2 inhibitor AG490 (40 μM) resulted in a gradual decline of I_le. According to chemiluminescence JAK2 enhanced the carrier protein abundance in the cell membrane. The decline of I_le following inhibition of carrier insertion by brefeldin A (5 μM) was similar in the absence and presence of JAK2 indicating that JAK2 stimulates carrier insertion into rather than inhibiting carrier retrival from the cell membrane. In conclusion, JAK2 up-regulates SLC6A19 activity which may foster amino acid uptake into JAK2 expressing cells.     

Base Specificity and Primary Structure of Poly U-preferential Ribonuclease from Chicken Liver

The primary structure and base specificity of chicken liver RNase CL₁ which has been reported by Miura et al. [Chem. Pharm. Bull., 32,4053–4060 (1984)] as poly U-preferential RNase, were extensively studied. The sequence study of this enzyme and comparison of the amino acid sequence of the enzyme with homologous RNases from oyster and Drosophila melanogaster suggested that RNase CL₁ consists of three peptides with 17, 19, and 163 amino acid residues. The amino acid sequence of these three peptides were identified. The two small peptides are joined to the large peptide by disulfide bridges. The amino acid sequence of RNase CL₁ had 62 (31.2%) and 63 residues (31.6%) identical with oyster RNase and D. melanogaster RNase, respectively, and belongs to the RNase T₂ family RNase.

Reassessment of the base specificity of RNase CL₁ found that it is guanylic acid, then uridylic acid-preferential, and not poly U preferential.     

Isolation of microorganisms which utilize acidic amino acid oligomers

The amino acid octamers ( -Glu)₈ and ( Asp)₈ were synthesized in order to screen for new microbial degraders of unnatural amino acid peptides. We have successfully isolated the microorganisms from soil acclimated to a medium containing the oligopeptides; they were classified as Klebsiella ornithinolytica, Delftia acidovorans, and α-Proteobacteria.     

Identification and cloning of related self-incompatibility S-genes in Papaver rhoeas and Papaver nudicaule

 The primary goal of this study was to identify, clone and analyse new S-gene sequences in order to provide a basis for identifying amino acid residues that confer S-allele specificity. Three new putative S-alleles from Papaver rhoeas and Papaver nudicaule were identified using immunological and PCR methods. cDNAs encoding full-length open reading frames of the P. rhoeas S ₈ and P. nudicaule Sn ₁ genes were isolated. Nucleotide sequencing of these cDNAs, together with the partial S ₇ sequence obtained by PCR, was used to derive the corresponding amino acid sequences. It is of interest that the P. nudicaule Sn₁ sequence, which is the first S-allele isolated from another species of Papaver, shares a closer sequence identity to the P. rhoeas S₃ amino acid sequence than S₃ does to S₁ from P. rhoeas. The identity of the S₈ allele was confirmed by expressing the coding region in Escherichia coli and demonstrating that the recombinant protein, designated S₈e, specifically inhibited S ₈ pollen in an in vitro bioassay. Information from sequence analysis of the S₈, Sn₁ and partial S₇ amino acid sequences revealed important information about Papaver S-proteins. It confirmed previous observations based on only two S-alleles, that whilst exhibiting a high degree of amino acid sequence polymorphism ranging from 51.3% to 63.7%, these molecules probably share very similar secondary structures. These studies also revealed that, in contrast to the S-proteins from the Solanaceae and Brassica, amino acid sequence variation is not found in hypervariable blocks, but instead, is found throughout the S-proteins, interspersed with numerous short strictly conserved segments. Received: 16 March 1998 / Revision accepted: 19 May 1998     

A computer system for the analysis of molecular evolution modes of protein-encoding genes (SAMEM): The relationship between molecular evolution and phenotypic traits

An online computer system for the analysis of the molecular evolution modes of genes and proteins has been developed (SAMEM: ). SAMEM computations are based on the ratio of radical to conservative amino acid substitutions (K _R /K _C ), the rate of amino acid substitutions in the course of protein evolution (V _P ), and statistical relationships between the evolutionary changes of all known amino acid properties and particular features of an organism. The system facilitates the interpretation of the results of K _R /K _C and V _P analyses.     

Nucleotide sequence of a cDNA clone encoding the precursor of the peridinin-chlorophyll a-binding protein from the dinoflagellate Symbiodinium sp.

mRNA from the dinoflagellate Symbiodinium sp. isolated from the staghorn coral Acropora formosa was used for the construction of cDNA libraries. A cDNA clone was identified which encoded the precursor of peridinin-chlorophyll a-binding protein (PCP), including a 52 amino acid transit peptide and the 313 amino acid mature protein. The deduced amino acid sequence clearly contains an internal duplication, implying that amongst dinoflagellates the M _r 35 000 form of PCP has arisen by duplication and fusion of genes encoding the M _r 15 000 form. This is the first reported sequence of a dinoflagellate light-harvesting protein. The anatomy of the mature protein and the transit peptide are discussed.Abbreviations PCP peridinin-chlorophyll a-binding protein; cab, chlorophyll a/b-binding protein - LHC light-harvesting complex - FCP fucoxanthin-chlorophyll a/c-binding protein     

Enzyme electrode for specific determination of L-lysine

L-Lysine alpha-oxidase from Trichoderma viride Y244-2 is immobilized in a gelatin support and fixed on a pO(2) sensor. The enzyme electrode obtained is used in a continuous flow system in order to measure the concentration of L-lysine in a fermentor. The sample oxygen-content dependance of the signal is minimized because of the enzyme support properties. The enzyme electrode response is set for lysine concentration from 0.2mM to 4mM. The specificity of lysine is tested with other amino acids. The enzyme membrane for lysine electrode can be used 3000 times or stored six months with good stability.     

Purification of branched-chain amino acid aminotransferase from <Emphasis Type="Italic">Helicobacter pylori</Emphasis> NCTC 11637

Summary. Branched-chain amino acid aminotransferase was purified by several column chromatographies from Helicobacter pylori NCTC 11637, and the N-terminal amino acid sequence was analyzed. The enzyme gene was sequenced based on a putative branched-chain amino acid aminotransferase gene, ilvE of H. pylori 26695, and the whole amino acid sequence was deduced from the nucleotide sequence. The enzyme existed in a homodimer with a calculated subunit molecular weight (MW) of 37,539 and an isoelectric point (pI) of 6.47. The enzyme showed high affinity to 2-oxoglutarate (K _m = 0.085 mM) and L-isoleucine (K _m = 0.34 mM), and V _max was 27.3 μmol/min/mg. The best substrate was found to be L-isoleucine followed by L-leucine and L-valine. No activity was shown toward the D-enantiomers of these amino acids. The optimal pH and temperature were pH 8.0 and 37 °C, respectively.     

Amino Acid Homochirality may be Linked to the Origin of Phosphate-Based Life

Phosphorylation has to have been one of the key events in prebiotic evolution on earth. In this article, the emergence of phosphoryl amino acid 5′-nucleosides having a P–N bond is described as a model of the origin of amino acid homochirality and Genetic Code. It is proposed that the intramolecular interaction between the nucleotide base and the amino acid side-chain influences the stability of particular amino acid 5′-nucleotides, and the interaction also selects for the chirality of amino acids. The differences between l- and d-conformation energies (ΔE _conf) are evaluated by DFT methods at the B3LYP/6-31G(d) level. Although, as expected, these ΔE _conf values are not large, they do give differences in energy that can distinguish the chirality of amino acids. Based on our calculations, the chiral selection of the earliest amino acids for l-enantiomers seems to be determined by a clear stereochemical/physicochemical relationship. As later amino acids developed from the earliest amino acids, we deduce that the chirality of these late amino acids was inherited from that of the early amino acids. This idea reaches far back into evolution, and we hope that it will guide further experiments in this area.     

Physiological studies on Phymatotrichum omnivorum X. Influence of nitrogen sources on free and bound amino acid pools

The effect of nitrogen source on the free and bound amino acids of mycelium of Phymatotrichum omnivorum (Shear) Dugg was investigated. The largest free amino acid pool was present in the natural medium and the smallest in the synthetic medium. Phymatotrichum omnivorum was able to utilize different nitrogen sources with the best growth occurring with NH₄NO₃. The ratio of glycine to alanine and aspartic to glutamic was around 0.25 in the free amino acid pool and around 1 in the bound amino acid pool. The free pool of glutamic acid ranged from 5.6 % to 27.2 % depending upon the nitrogen source in the media. The free pool of alanine ranged from 35.7 % to 17.2 % in relation to the nitrogen source. Most other amino acid ratios did not vary significantly between the free amino acids and the bound amino acids.     

Neutral amino acid transport by marine fish intestine: role of the side chain

This work was devoted to the study of the structure-affinity relationships in neutral amino acid transport by intestinal brush border of marine fish (Dicentrarchus labrax). The effects of the length of the side chain on kinetics of glycine, alanine, methionine and amino isobutyric acid were investigated. In the presence of K⁺ two components were characterized: one is saturable by increased substrate concentrations, whereas the other can be described by simple diffusion mechanism. Simple diffusion, a passive, non-saturable, Na⁺-independent route, contributes largely to the transport of methionine and to a much lesser extend to alanine, glycine or alphaaminoisobutyric acid uptakes. If a branched chain is present, as in the case of amino isobutyric acid, diffusion is low. A Na⁺-independent, saturable system has been fully characterized for methionine, but not for branched amino acids such as amino isobutyric acid. In the presence of Na⁺ saturable components were shown. Two distinct Na⁺-dependent pathways have been characterized for glycine uptake, with low and high affinities. For alanine and methionine only one Na⁺-dependent high affinity system exists with the same half-saturation concentration and the same maximum uptake at saturable concentrations. Glycine high affinity system has the same half-saturation concentration as methionine or alanine uptake, whereas maximum uptake is lower. The substitution of the hydrogen by a methyl group results in a severe decrease of uptake (aminoisobutyric acid). Mutual inhibition experiments indicate that the same carriers could be responsible for methionine and alanine uptakes and probably glycine Na⁺-dependent uptake. The influence of Na⁺ concentrations (100^-1 mol·l^-1) on amino acid uptake was examined. Glycine, alanine, methionine and amino isobutyric acid transport can be described by a hyperbolic function, with a saturation uptake which is highly increased for methionine. However, the half-saturation concentration does not seem to be strongly affected by the amino acid structure. The effect of Na⁺ concentration (25 and 100 mmol·l^-1) on the kinetics of methionine uptake have been also examined. The maximum uptake of the saturable system clearly shows a typical relationship with concentration.Abbreviations [AA] amino acid concentration - AIB aminoisobutyric acid - [I] Inhibitor amino acid concentration - J _i uptake in the presence of inhibitor - J _o uptake without inhibitor - K _d passive diffusion constant - K _i inhibitor constant - K _t concentration of test amino acid for half-maximal flux - MES 2[N-morpholino]ethanesulphonic acid - V _max maximum uptake at saturable amino acid concentrations - V _tot total amino acid uptake     

Regulation of nitrate uptake by amino acids in maize cell suspension culture and intact roots

The effect of amino acids on nitrate transport was studied in Zea mays cell suspension cultures and in Zea mays excised roots. The inclusion of aspartic acid, arginine, glutamine and glycine (15mM total amino acids) in a complete cell-culture media containing 1.0 mM NO₃ ^- strongly inhibited nitrate uptake and the induction of accelerated uptake rates. The nitrate uptake rate increased sharply once solution amino acid levels fell below detection limits. Glutamine alone inhibited induction in the cell suspension culture. Maize seedlings germinated and grown for 7 days in a 15 mM mixture of amino acids also had lower nitrate uptake rates than seedlings grown in 0.5 mM Ca(NO₃)₂ or 1 mM CaCl₂. As amino acids are the end product of nitrate assimilation, the results suggest an end-product feed-back mechanism for the regulation of nitrate uptake.     

Strong homology between the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase of two species of Acetabularia and the occurrence of unusual codon usage

Summary The complete nucleotide sequence of the genes encoding the Rieske FeS, the cytochrome b and the cytochrome c ₁ subunits of the ubiquinol-cytochrome c ₂ oxidoreductase from the photosynthetic purple bacterium Rhodopseudomonas viridis, and the derived amino acid sequences are presented. These three genes, fbcF, fbcB and fbcC, are located at contiguous sites of the genome. The DNA-deduced amino acid sequences are compared with known primary structures of corresponding proteins from other purple photosynthetic bacteria, as well as mitochondria, cyanobacteria and chloroplasts.Abbreviations BSA bovine serum albumin - Rb Rhodobacter - Rps Rhodopseudomonas     

Side-chain oxidative damage to cysteine on a glassy carbon electrode

In this paper, oxidative damage to the cysteine (CySH) side-chain on a glassy carbon electrode (GCE) was investigated. Voltammetric studies show that there are three anodic peaks for the oxidation of CySH, which arise from (1) the oxidation of the –SH side-chain, forming cystine (0.71 V, vs. SCE) and (2) CySO _x H, x = 2, 3 (0.98 V vs. SCE), and (3) the oxidation of the amino acid carboxyl group (around 1.51 V vs. SCE). The influence of dissolved oxygen, pH, scan rate, scan time, temperature and CySH concentration were investigated and the oxidative mechanism proposed. The peaks near 0.71 and 0.98 V are the promising candidates for measuring the oxidation of CySH on the GCE. This paper provides a new strategy for researching oxidative damage of amino acids, sulfur-containing peptides and proteins.