Dynamics of amino acids in pea stem sections during root formation and its inhibition by kinetin and ethionine

An investigation was conducted to study the interrelation of free amino acid metabolism and root formation in etiolated pea stem sections as dependent on time and on inhibition of root formation by kinetin and ethionine. The rise in the level of aspartic acid and increase in the rate of conversion of¹⁴C-labeled glucose to free amino acids were found to be characteristic features of the formation of foci of meristematic cells in pericyclo region. The formation of roots was reflected, in general, much more in the rate of conversion of labeled glucose to free amino acids than in the levels of corresponding amino acids. The total amount of free amino acids was not significantly changed during incubation of stem sections in a solution of kinetin (5×10^?5 m). A rapid fall in their level was recorded in the next 24 hours. The incorporation of¹⁴C from glucose into a precursor of lignin, phenylalanine, was completely inhibited by kinetin which stimulated simultanously the growth of adjacent buds. Stimulation of secondary xylem formation, which appeared later, was accompanied by the resumption of¹⁴C-incorporation into phenylalanine. Inhibition of root formation by ethionine resulted in the rapid fall of the level of most amino acids and in a significant decrease in the rate of incorporation of¹⁴C from glucose into amino acids. A decreasing level of ethionine in tissues during cultivation of ethionine-treated stem sections was accompanied by a gradual rise in the individual amino acids and in the rate of conversion of glucose into free amino acids.     

The sorting sequence of the peroxisomal integral membrane protein PMP47 is contained within a short hydrophilic loop

No targeting sequence for peroxisomal integral membrane proteins has yet been identified. We have previously shown that a region of 67 amino acids is necessary to target Pmp47, a protein that spans the membrane six times, to peroxisomes. This region comprises two membrane spans and the intervening loop. We now demonstrate that the 20 amino acid loop, which is predicted to face the matrix, is both necessary and sufficient for peroxisomal targeting. Sufficiency was demonstrated with both chloramphenicol acetyltransferase and green fluorescent protein as carriers. There is a cluster of basic amino acids in the middle of the loop that we predict protrudes from the membrane surface into the matrix by a flanking stem structure. We show that the targeting signal is composed of this basic cluster and a block of amino acids immediately down-stream from it.     

Utilization of exogenously supplied 14C-saccharose into primary metabolites and alkaloid production in Catharanthus roseus

Partitioning of exogenously supplied U-¹⁴C-saccharose into primary metabolic pool as sugars, amino acids, and organic acids was analyzed and simultaneous utilization for production of alkaloid by leaf, stem, and root in twigs and rooted plants of Catharanthus roseus grown in hydroponic culture medium was determined. Twigs revealed comparable distribution of total ¹⁴C label in leaf and stem. Stems contained significantly higher ¹⁴C label in sugar fraction and in alkaloids [47 kBq kg⁻¹(DM)] than leaf. In rooted plants, label in ¹⁴C in metabolic fractions in root such as ethanol-soluble, ethanol-insoluble, and chloroform-soluble fractions and in components such as sugars, amino acids, and organic acids were significantly higher than in stems and leaves. This was related with significantly higher content of ¹⁴C in alkaloids in stems and leaves. ¹⁴C contents in sugars, amino acids, and organic acids increased from leaf to stem and roots. Roots are the major accumulators of metabolites accompanied by higher biosynthetic utilization for alkaloid accumulation.     

Free amino Acid contents of stem and phylloxera gall tissue cultures of grape

Free amino acid constituents were determined of grape stem and Phylloxera leaf gall callus in tissue culture. Fast, medium and slow growing single cell clones of, respectively, stem and gall origins were grown on a mineral salt-sucrose medium supplemented with coconut milk and α-naphthaleneacetic acid. Stem and gall clones showed qualitative similarities and quantitative variations in the amino acids and nitrogenous constituents. Nineteen amino acids, glucosamine, ethanolamine, sarcosine, methionine sulfoxides and ammonia were identified. Two free polypeptides accounted for over 30% of the amino compounds in the stem and gall callus tissues which were not found in the intact plant parts. Stem clones of different growth rates grown on agar showed generally an excess of amino acid constituents over gall tissues of similar growth rates, except for the free polypeptides. Fast growing stem clones grown on agar medium contained lower amounts of certain amino acids than the fast growing gall clones, but when grown in liquid medium they contained higher amounts of these acids than the gall clones. The total and nonsoluble nitrogen of stem clones were higher than in the gall clones. Tissue cultures differed from the original plant parts with respect to their free polypeptides and high amino acid contents.     

Characterization and structure of pineapple stem inhibitor of cysteine proteinases.

The complete amino acid sequence of the inhibitor of cysteine proteinases from pineapple stem acetone powder was determined. The inhibitor consists of 52 amino acids and is composed of two polypeptide chains (41 and 11 amino acids) linked via disulphide bonds. It differs from already known sequences in one to four amino acids. Data from its amino acid sequence analysis clearly show that this inhibitor cannot be a member of the cystatin superfamily. The Ki values for papain, bromelain and cathepsin L were determined.     

Characterization of a sterile dwarf mutant and the cloning of zeaxanthin epoxidase in Asian cotton (<Emphasis Type="Italic">Gossypium arboreum</Emphasis> L.)

Amino acids are constituents of proteins, precursors of many secondary metabolites and nitrogen carriers in plants. Transport across intracellular membranes and translocation of amino acids within the plant is mediated by membrane amino acid transporters. However, the amino acid transport in tea plant is rarely reported. In this study, six cationic amino acid transporter (CAT) family genes were cloned. Phylogenetic analysis categorized these CsCATs into four subgroups. These CsCATs all contain the 12–14 transmembrane domains and the conserved CAT motifs. Their expression was tissue-specific, with higher expression levels in root and stem and correlated to the abundances of key free amino acids such as Theanine. Some CsCATs expression responded to some abiotic stress conditions and to the exogenous application of theanine (Thea), glutamine or ethylamine hydrochloride, an ethylamine precursor for Thea biosynthesis. Our results indicated that the CsCATs expression is regulated by amino acid contents and is sensitive to abiotic stresses. These findings shed light on the mechanism of amino acid transport in tea plants.     

Structure-function analysis of human protein O-linked mannose beta1,2-N-acetylglucosaminyltransferase 1, POMGnT1

Protein O-linked mannose beta1,2-N-acetylglucosaminyltransferase 1 (POMGnT1) catalyzes the transfer of GlcNAc to O-mannose of glycoproteins. Mutations in the POMGnT1 gene cause a type of congenital muscular dystrophy called muscle-eye-brain disease (MEB). We evaluated several truncated mutants of POMGnT1 to determine the minimal catalytic domain. Deletions of 298 amino acids in the N-terminus and 9 amino acids in the C-terminus did not affect POMGnT1 activity, while larger deletions on either end abolished activity. These data indicate that the minimal catalytic domain is at least 353 amino acids. Single amino acid substitutions in the stem domain of POMGnT1 from MEB patients abolished the activity of the membrane-bound form but not the soluble form. This suggests that the stem domain of the soluble form of POMGnT1 is unnecessary for activity, but that some amino acids play a crucial role in the membrane-bound form.     

Transport of tryptophan and tyrosine in rat brain slices in the presence of lithium

Slices from rat cerebral cortex, brain stem, and cerebellum were incubated in media in which 1, 10, or 100 mmol/liter NaCl had been replaced by equimolar amounts of LiCl. The initial influx fo tryptophan and tyrosine into the slices diminished in the lithium-containing media. The lithium-induced inhibition was not competitive. The equilibrium accumulation of the amino acids was also less in the presence of LiCl. The incorporation of tryptophan and tyrosine into the proteins of the slices was inhibited by lithium. There were no clear differences between the brain areas studied. It has been suggested earlier that a lithium treatment enhances thesin vivo cerebral uptake of these aromatic amino acids. The present results show that such a possible increase in uptake is not a direct effect of lithium ions on cell membranes.     

Influence of gibberellic acid on <Superscript>14</Superscript>CO<Subscript>2</Subscript> metabolism,growth, and production of alkaloids in <Emphasis Type="Italic">Catharanthus roseus</Emphasis>

Changes in growth parameters, carbon assimilation efficiency, and utilization of ¹⁴CO₂ assimilate into alkaloids in plant parts were investigated at whole plant level by treatment of Catharanthus roseus with gibberellic acid (GA). Application of GA (1 000 g m⁻³) resulted in changes in leaf morphology, increase in stem elongation, leaf and internode length, plant height, and decrease in biomass content. Phenotypic changes were accompanied by decrease in contents of chlorophylls and in photosynthetic capacity. GA application resulted in higher % of total alkaloids accumulated in leaf, stem, and root. GA treatment produced negative phenotypic response in total biomass production but positive response in content of total alkaloids in leaf, stem, and roots. ¹⁴C assimilate partitioning revealed that ¹⁴C distribution in leaf, stem, and root of treated plants was higher than in untreated and variations were observed in contents of metabolites as sugars, amino acids, and organic acids. Capacity to utilize current fixed ¹⁴C derived assimilates for alkaloid production was high in leaves but low in roots of treated plants despite higher content of ¹⁴C metabolites such as sugars, amino acids, and organic acids. In spite of higher availability of metabolites, their utilization into alkaloid production is low in GA-treated roots.     

Membrane anchors of vesicular stomatitis virus: characterization and incorporation into virions.

Wild-type vesicular stomatitis virus-infected cells contained multiple carboxy-terminal fragments of the envelope glycoprotein G. They migrated in 16% polyacrylamide gels with two dominant apparent molecular weights, 14,000 and 9,000. Both fragments were immunoprecipitated by two antibodies, anti-G(COOH) and anti-G(stem), made against the last 15 amino acids at the carboxy terminus and against the first 22 amino acids of the ectodomain adjacent to the transmembrane region of G, respectively. Pulse-chase experiments in the presence and absence of tunicamycin indicated that the higher-molecular-weight fragment, Gal, was generated first, presumably in the rough endoplasmic reticulum, and then apparently chased into the faster-migrating, stable fragment, Ga2. Exposure of infected cells to radioactive palmitic acid labeled Ga2. Ga2 was detected in purified virions. These results show that a polypeptide approximately 71 amino acids long is transported and incorporated into budding virions. What signals are operative and whether this C-terminal fragment of G protein is transported as a complex with other viral or host cell proteins are presently unknown.     

Characteristics of the formation of a free-amino acid brain pool in rats differing in their ethanol consumption

The concentrations of free amino acids were studied in the right and left hemispheres, cerebellum and brain stem of AA and ANA strain rats differing in their voluntary consumption of ethanol solutions. Animals of both the strains were shown to be differentiated by distribution, functional utilization and metabolism of some amino acids in the right and left hemispheres, cerebellum and brain stem.     

Utilization of amino acids during development of the African migratory locust embryo

Summary The metabolic fate of amino acids introduced into the locust egg by the addition of amino acids after oviposition is compared to that of amino acids derived from the maternal haemocoel. It was found that amino acids from the two sources did not always follow the same pattern of utilization. Topical application resulted in some of the applied amino acids being converted into other amino acids and ammonia. When the labelled amino acid was administered to the egg via the maternal haemocoel, radioactivity was restricted to the amino acid orginally provided.     

INTERACTION OF CATECHOLAMINE AND AMINO ACID METABOLISM IN BRAIN: EFFECT OF PARGYLINE AND l-DOPA

Abstract— The combination of l -DOPA and pargyline caused a decrease in level of aspartate and an increase in that of glutamine in vivo in cerebral cortex, cerebellum, brain stem, hypothalamus, neostriatum and cervical cord of rat. There was also a decreased incorporation of radioactivity from [1-¹⁴C]acetate into amino acids in vivo , most notably in cerebellum and brain stem. The labelling of glutamine was especially affected. In addition, cortical slices were prepared from guinea pigs which had been pretreated with pargyline. These slices were incubated with and without 1 m m l -DOPA in media containing [1-¹⁴C]acetate. Pargyline alone caused a stimulation of the labelling of glutamate and aspartate but not glutamine and GABA; the levels of aspartate and GABA were greater than in control slices. The addition of l -DOPA to slices from pargylinized animals caused a severe decrease in glutamine labelling but not in that of glutamate or aspartate; the level of glutamine was increased while that of glutamate was decreased. The results are discussed in terms of the known biochemical and morphological compartmentation of amino acids in brain. It is suggested that catecholamines, in the process of functioning as transmitters, may also function as metabolic regulators of other transmitters, e.g. amino acids, as well as of the energy required for balanced neuronal function.     

Antigenicities of stem bromelain. Contribution of three-dimensional structure and individual amino acid residues

The contribution of three-dimensional structure and individual amino acid residues to the antigenicities of macromolecular protein was investigated for a thiol protease stem bromelain as antigen. The extent of the participation was demonstrated by a decrease in antigenicity when the enzyme was denatured in 8 M urea before and after reductive cleavage of intrapeptide disulfide bonds or modified in particular amino acid residues. The results showed that the enzyme treated with 8 M urea without reductive cleavage of disulfide bonds preserved about 90% of antigenicity to antibodies against native stem bromelain, while the enzyme denatured after the reductive cleavage of disulfide bonds brought about almost 80% disappearance of the antigenicity. Modification of individual amino acid side chains revealed that lysine was the most immunodominant amino acid, showing 2.5% contribution per residue, and tyrosine followed with 1.2%. However, acidic amino acids such as flutamic and aspartic acids were found to be as low as 0.3%, and tryptophan was 0.2%. These data suggest that most of the antigenic determinants of stem bromelain are of the steric conformation in which lysine and/or tyrosine are most frequently involved as immunodominant amino acids.     

水稻矮缩病毒最外层外壳蛋白基因（S2）cDNA克隆,序列分析及其在大？…

从水稻矮缩病毒（Ｒｉｃｅｄｗａｒｆｖｉｒｕｓ,ＲＤＶ）中国福建分离物中克隆分离了最外层外壳蛋白基因（Ｓ２）全长ｃＤＮＡ并对其进行序列分析,结果表明ＲＤＶＳ２ｃＤＮＡ全长３５１２ｂｐ,仅含一个３３４８ｂｐ的阅读框架,编码一人含有１１１６个氨基酸的蛋白（Ｐ２）。与基因库中已知基因序列比较,发现它与日本ＲＤＶＨ株系相应片段的核苷酸和氨基酸同源率分别为９４．６％和９５．４％与轮状病毒ＶＰ２氨基酸序列有一定     

The Kinetics of Phloem Loading of Valine in the Shoot of a Nodulated Legume (Lupinus albus L. cv. Ultra)

Phloem loading of several amino acids (D- and L-Val, Arg, Asn,Asp, Leu) was studied in shoots of L. albus using a phloem bleedingtechnique on both intact plants and detached shoots fed viathe transpiration stream. Val was singled out for intensivestudy due to the minimal amount of metabolism it underwent inthe shoot For the amino acids studied, the relationship between xylem,phloem, and leaflet concentrations was determined by the interactionof rates of xylem supply, metabolism, and export. At elevatedxylem fluid concentrations, low rates of loading of D-Val intothe phloem and little metabolism in the tissues resulted inhigh levels in the leaflets. For other amino acids (Arg, Asp,Leu) rapid metabolism in the leaflets prevented a build-up inconcentration in either phloem or leaflets. Asn was rapidlytransferred to the phloem, thus high levels in the xylem leadto high concentrations in the phloem without greatly affectingleaflet concentrations. L-Val responded in a manner intermediatebetween Asn and D-Val. A detailed study of L-Val showed it to be loaded into the phloemagainst a concentration gradient in both stem and leaflets.Some of this Val originated from the transpiration stream atboth locations but in the leaflets as much as 64% of the Valoriginated from other sources, e.g. recent photosynthesis. L-Valsupplied to the phloem in the stem was derived from a largestorage pool and did not come directly from the xylem fluid.As a consequence the rate of stem loading was independent ofshort-term fluctuations in the xylem fluid Val concentration.L-Val entering the leaflets in the xylem initially bypassedthe large storage pool and was loaded directly into the phloem.However, after 350 min the pools had reached an equilibriumand rate of phloem loading was dependent on total leaflet concentration.     

One ancestor for two codes viewed from the perspective of two complementary modes of tRNA aminoacylation

Background  

The genetic code is brought into action by 20 aminoacyl-tRNA synthetases. These enzymes are evenly divided into two classes (I and II) that recognize tRNAs from the minor and major groove sides of the acceptor stem, respectively. We have reported recently that: (1) ribozymic precursors of the synthetases seem to have used the same two sterically mirror modes of tRNA recognition, (2) having these two modes might have helped in preventing erroneous aminoacylation of ancestral tRNAs with complementary anticodons, yet (3) the risk of confusion for the presumably earliest pairs of complementarily encoded amino acids had little to do with anticodons. Accordingly, in this communication we focus on the acceptor stem.     

Post-translational processing of membrane-associated recombinant human stem cell factor expressed in Chinese hamster ovary cells.

This report describes the structure of soluble human stem cell factor isolated from the conditioned medium of Chinese hamster ovary (CHO) cells transfected with stem cell factor (SCF) cDNA, which encodes a leader sequence plus 248 additional amino acids. The 248 amino acids include a hydrophobic transmembrane region at positions 190-212. The isolated material is glycosylated and three bands (apparent M(r) 28,000, M(r) 35,000, and M(r) 40,000) are evident by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis. After complete deglycosylation, the molecular weight by SDS-polyacrylamide gel electrophoresis is 18,000-19,000. Structural analyses of the intact SCF, the deglycosylated SCF, and a deglycosylated C-terminal peptide were performed by laser desorption, fast atom bombardment, or electrospray mass spectrometry. Pulse-labeling of cells with 35S-labeled Met and Cys resulted in cell-associated glycosylated SCF of M(r) 33,000-45,000 which was converted to M(r) 33,000 by in vitro treatment with glycosidases. During a chase with unlabeled Met and Cys, labeled SCF of M(r) 28,000, M(r) 35,000, and M(r) 40,000 appeared in the medium; it was converted to M(r) 18,000-19,000 by glycosidase treatment. SCF at the surface of the transfected CHO cells could be demonstrated by immunofluorescence. The data obtained indicate that the recombinant human stem cell factor, as isolated, represents proteolytically processed forms containing amino acids 1-165, derived from the initially synthesized membrane-bound form of 248 amino acids. Further characterization indicated that the M(r) 28,000 form is glycosylated at Asn120, the M(r) 35,000 form at Asn120 and Asn65, and the M(r) 40,000 form at Asn120, Asn93, and Asn65. Each form also contains O-linked carbohydrate. The N-linked glycosylation, particularly that at Asn93 and at Asn65, adversely affects in vitro biological activity and receptor binding.     

Influence of amino acid supply on ribosomes and protein synthesis of perfused rat liver

1. The livers of rats were perfused in situ with medium containing mixtures of amino acids in multiples of their concentration in normal rat plasma. The incorporation of labelled amino acid into protein of the liver and of the perfusing medium increased with increasing amino acid concentration. During 60min. perfusions, labelling of liver protein reached a plateau, and labelling of medium protein was inhibited when the initial concentration of the amino acid mixture was more than ten times the normal plasma value. 2. Examination of polysome profiles derived from livers perfused without amino acids in the medium showed that the number of large aggregates was decreased and the number of small aggregates, particularly monomers and dimers, was increased with time of perfusion. The addition of amino acids to the perfusion medium reversed this polysome shift to an extent that was dependent on the initial concentration of amino acids. Polysome profiles derived from livers perfused for 60min. with ten times the normal plasma concentration of amino acids were essentially the same as the polysome profiles of normal non-perfused livers. 3. The ability of ribosome preparations from perfused livers to incorporate amino acids into protein in vitro decreased with increasing time of perfusion when no amino acids were added to the medium, but increased as the concentration of amino acids in the perfusion medium was increased. 4. The ability of cell sap from perfused livers to support protein synthesis in vitro was not influenced by the amino acid concentration of the perfusion medium. 5. Livers were perfused for 60min. with medium containing amino acid mixtures at ten times the normal plasma concentration but deficient in one amino acid. Maximal incorporation of labelled amino acid into liver protein, the stability of the polysome profile and the ability of ribosome preparations to incorporate amino acids into protein were found to depend on the presence of 11 amino acids: arginine, asparagine, isoleucine, leucine, lysine, methionine, phenylalanine, proline, threonine, tryptophan and valine. A mixture of these 11 amino acids, at ten times their normal plasma concentration, stimulated the incorporation of labelled amino acid into liver protein, stabilized the polysome profile and increased the ability of ribosome preparations to incorporate amino acids into protein to the same extent as the complete mixture. 6. It is concluded that the availability of certain amino acids plays an important role in the control of protein synthesis, possibly by stimulating the ability of ribosomes to become, and to remain, attached to messenger RNA.