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1.
Phytic acid has been detected in the anthers of young flower buds of Petunia hybrida, the amount increasing slowly as the flower develops until anther dehydration, when there was a more rapid increase in phytic acid content. In mature pollen, the phytic acid content was found to be 2.0 % by weight, of which 90 % was water soluble, while free myo-inositol was a relatively low 0.06 % by weight. Breakdown of phytic acid was initiated soon after pollen germination began, and its degradation products, myo-inositol and inorganic phosphate, were rapidly mobilized for phospholipid and pectin biosynthesis. Both are in high demand during pollen tube elongation. Utilization of myo-[2-3H]inositol for phospholipid biosynthesis was about five times that for pectin synthesis during the first few hours of pollen germination. The label in the phospholipid was identified as the myo-inositol moiety of phosphaltidylinositol, while the pectin material contained predominantly labelled arabinose, with smaller amounts of label in galacturonic acid, glucose and xylose. A chase experiment showed that the myo-inositol moiety of phosphatidylinositol was subject to a relatively rapid turnover, while the label in pectin was not. Labelling germinating pollen with [32P]orthophosphate gave label in phosphatidic acid, phosphatidylinositol, phosphatidylethanolamine and phosphatidylcholine of the phospholipids. Phosphatidylinositol contained 30 % of this label initially, a proportion which declined to 10 % over longer periods of germination.  相似文献   

2.
[1-14C]Octadecyl glyceryl ether did not label alkanes in the leaves of Brassica oleracea and Pisum sativum while [1-14C]octadecanol and [1-14C]octadecanoic acid readily labeled the alkanes. About 40% of the exogenous-labeled glyceryl ether was incorporated intact into choline phosphatide while 10–20% was converted into fatty acids and alcohols. [1-14C]octadecanol was not converted into alkyl glyceryl ether, but it was oxidized to the corresponding acid and then incorporated into alkanes. These results show that alkyl ether is not an intermediate in alkane biosynthesis. When [1-14C-1-3H]-octadecanol was fed to the leaves of B. oleracea and P. sativum, only the 14C and no 3H was incorporated into alkanes, ketones, and secondary alcohols. These results show that fatty alcohols are first oxidized to the acid before being incorporated into alkanes, ruling out fatty alcohol, alkyl ether, and alk-1-enyl ether as intermediates in alkane biosynthesis. The exogenous alcohols were also readily esterified into wax esters in both tissues.  相似文献   

3.
The incorporation and distribution of activity from 14CO2 was investigated under autotrophic conditions in the facultative photoautotroph, Rhodospirillum rubrum, with cells cultured on hydrogen, carbon dioxide, and ammonium sulfate. In 1 second 14CO2 fixation experiments essentially all of the activity was found in 3-phosphoglyceric acid: plotted against time percent incorporation into phosphate esters has a strikingly negative slope. These results suggest that under autotrophic conditions the reductive pentose phosphate cycle or the key reactions of the cycle play a major role in carbon metabolism in this photosynthetic bacterium. Incorporation into amino acids and into intermediates of the tricarboxylic acid cycle was quite low.  相似文献   

4.
A phytase was isolated and partially purified from pollen of cattail, Typha latifolia. Its maximum activity was at pH 8.0 and its Km value was 1.7 × 10?5 m for phytic acid in the presence of Ca2+. Among divalent cations tested only Ca2+ affected the activity, increasing it by about 120%, but an excess was inhibitory. The enzyme was specific for phytic acid except for 6% activity for p-nitrophenylphosphate. It seems to be a new type of phytase because it cleaved almost 50% of the total phosphate esters in phytic acid and was product-specific, yielding an inositol triphosphate as a final product.  相似文献   

5.
Metarhizium anisopliae is an imperfect entomopathogenic fungus. Once invading into its host,M. anisopliae needs to absorb basic nutrients such as phosphorus from the host haemolymph. A large number of phosphorylated compounds in haemolymph cannot be directly utilised by the fungal cell and must be hydrolysed into available form by phosphatase before ingested. Aims of this paper were to investigate optimum fermentation conditions for production of acid phosphatase and phosphatase isoenzymes byMetarhizium anisopliae. The optimum fermentation conditions were: glucose, 20 g/l; (NH4)2SO4, 2 g/l; casein, 4 g/l; MgSO4, 0.5 g; KCl, 0.5 g; microelement salt solution, 10 ml; inoculum size, 1×107 spores per 100 ml medium; initial medium pH, 6.0. Under these conditions, the highest total acid phosphatase activity was 3.05 U/ml in 4 days at 27 °C and 160 rpm. Synthesis of the acid phosphatase was repressed by 0.01% inorganic phosphate in culture medium. The spectrum of isoenzymes produced byM. anisopliae varied depending on the phosphorus source employed in the culture. A specific isoform with pI 9.45 was induced by casein, and another isoform of pI 8.21 was induced by phytic acid and disodium phenyl phosphate.  相似文献   

6.
The myo-inositol oxidation pathway was investigated in regard to its role as a source of carbon for products of hexose monophosphate metabolism in germinated pollen of Lilium longiflorum Thunb., cv. Ace. myo-[2-14]Inositol and d-[1-14C]glucuronate had similar distributions of radioactivity, contributing about three times more label to polysaccharide-bound glucose than myo-[2-3H]inositol. In the course of glucogenesis label from the latter appeared as tritiated water in the medium. This exchange could be enhanced by supplying d-[5R,5S-3H]xylose instead of myo-[2-3H]inositol. When the former was administered, [3H]glucose was the only labeled sugar residue found in polysaccharide products. The soluble constituents of d-[5R,5S-3H]xylose-labeled pollen contained no traces of labeled xylose despite massive uptake and utilization.  相似文献   

7.
Abscisic Acid localization and metabolism in barley aleurone layers   总被引:7,自引:6,他引:1       下载免费PDF全文
Aleurone layers of Hordeum vulgare, cv. `Himalaya' took up [14C]-abscisic acid (ABA) when incubated for various times. Radioactivity accumulated with time in a low speed, DNA-containing pellet accounting for 1.6 to 2.3% of the radioactivity recovered in subcellular fractions at 18 hours. Thin layer chromatography of ethanolic or methanolic extracts of the cytosol, which contained greater than 95% of the radioactivity taken up by layers, revealed that labeled ABA was metabolized to phaseic acid (PA) and 4′-dihydrophaseic acid (DPA) and three polar metabolites Mx1, Mx2, and Mx3. ABA was not metabolized by endosperm, incubated under conditions used for layers, indicating that metabolism was tissue-specific. Layers metabolized [3H]DPA to Mx1 and Mx2. ABA, PA, and DPA-methyl ester and epi-DPA-methyl ester inhibited synthesis of α-amylase by layers incubated for either 37 or 48 hours. These layers converted the methyl DPA and epi-methyl-DPA esters to their respective acids. DPA did not inhibit Lactuca sativa germination or root and coleoptile elongation of germinating Hordeum vulgare seeds, or coleoptile elongation of germinating Zea mays seeds.  相似文献   

8.
Supplementation with phytase is an effective way to increase the availability of phosphorus in seed-based animal feed. The biochemical characteristics of an ideal phytase for this application are still largely unknown. To extend the biochemical characterization of wild-type phytases, the catalytic properties of a series of fungal phytases, as well as Escherichia coli phytase, were determined. The specific activities of the fungal phytases at 37°C ranged from 23 to 196 U · (mg of protein)−1, and the pH optima ranged from 2.5 to 7.0. When excess phytase was used, all of the phytases were able to release five phosphate groups of phytic acid (myo-inositol hexakisphosphate), which left myo-inositol 2-monophosphate as the end product. A combination consisting of a phytase and Aspergillus niger pH 2.5 acid phosphatase was able to liberate all six phosphate groups. When substrate specificity was examined, the A. niger, Aspergillus terreus, and E. coli phytases were rather specific for phytic acid. On the other hand, the Aspergillus fumigatus, Emericella nidulans, and Myceliophthora thermophila phytases exhibited considerable activity with a broad range of phosphate compounds, including phenyl phosphate, p-nitrophenyl phosphate, sugar phosphates, α- and β-glycerophosphates, phosphoenolpyruvate, 3-phosphoglycerate, ADP, and ATP. Both phosphate liberation kinetics and a time course experiment in which high-performance liquid chromatography separation of the degradation intermediates was used showed that all of the myo-inositol phosphates from the hexakisphosphate to the bisphosphate were efficiently cleaved by A. fumigatus phytase. In contrast, phosphate liberation by A. niger or A. terreus phytase decreased with incubation time, and the myo-inositol tris- and bisphosphates accumulated, suggesting that these compounds are worse substrates than phytic acid is. To test whether broad substrate specificity may be advantageous for feed application, phosphate liberation kinetics were studied in vitro by using feed suspensions supplemented with 250 or 500 U of either A. fumigatus phytase or A. niger phytase (Natuphos) per kg of feed. Initially, phosphate liberation was linear and identical for the two phytases, but considerably more phosphate was liberated by the A. fumigatus phytase than by the A. niger phytase at later stages of incubation.  相似文献   

9.
The metabolism of myo-inositol-2-14C, d-glucuronate-1-14C, d-glucuronate-6-14C, and l-methionine-methyl-14C to cell wall polysaccharides was investigated in excised root-tips of 3 day old Zea mays seedlings. From myo-inositol, about one-half of incorporated label was recovered in ethanol insoluble residues. Of this label, about 90% was solubilized by treatment, first with a preparation of pectinase-EDTA, then with dilute hydrochloric acid. The only labeled constituents in these hydrolyzates were d-galacturonic acid, d-glucuronic acid, 4-O-methyl-d-glucuronic acid, d-xylose, and l-arabinose, or larger oligosaccharide fragments containing these units. Medium external to excised root-tips grown under sterile conditions in myo-inositol-2-14C contained labeled polysaccharide.  相似文献   

10.
Biosynthesis of the aliphatic components of suberin was studied in suberizing potato (Solanum tuberosum) slices with [1-14C]oleic acid and [1-14C]acetate as precursors. In 4-day aged tissue, [1-14C]oleic acid was incorporated into an insoluble residue, which, upon hydrogenolysis (LiA1H4), released the label into chloroform-soluble products. Radio thin layer and gas chromatographic analyses of these products showed that 14C was contained exclusively in octadecenol and octadecene-1, 18-diol. OsO4 treatment and periodate cleavage of the resulting tetraol showed that the labeled diol was octadec-9-ene-1, 18-diol, the product expected from the two major components of suberin, namely 18-hydroxyoleic acid and the corresponding dicarboxylic acid. Aged potato slices also incorporated [1-14C]acetate into an insoluble material. Hydrogenolysis followed by radio chromatographic analyses of the products showed that 14C was contained in alkanols and alkane-α,ω-diols. In the former fraction, a substantial proportion of the label was contained in aliphatic chains longer than C20, which are known to be common constituents of suberin. In the labeled diol fraction, the major component was octadec-9-ene-1,18-diol, with smaller quantities of saturated C16, C18, C20, C22, and C24-α,ω-diols. Soluble lipids derived from [1-14C]acetate in the aged tissue also contained labeled very long acids from C20 to C28, as well as C22 and C24 alcohols, but no labeled ω-hydroxy acids or dicarboxylic acids were detected. Label was also found in n-alkanes isolated from the soluble lipids, and the distribution of label among them was consistent with the composition of n-alkanes found in the wound periderm of this tissue; C21 and C23 were the major components with lesser amounts of C19 and C25. The amount of 14C incorporated into these bifunctional monomers in 0-, 2-, 4-, 6-, and 8-day aged tissue were 0, 1.5, 2.5, 0.8, and 0.3% of the applied [1-14C]oleic acid, respectively. Incorporation of [1-14C]acetate into the insoluble residue was low up to the 3rd day of aging, rapid during the next 4 days of aging, and subsequently the rate decreased. These changes in the rates of incorporation of exogenous oleic acid and acetate reflected the development of diffusion resistance of the tissue surface to water vapor. As the tissue aged, increasing amounts of the [1-14C]acetate were incorporated into longer aliphatic chains of the residue and the soluble lipids, but no changes in the distribution of radioactivity among the α-ω-diols were obvious. The above results demonstrated that aging potato slices constitute a convenient system with which to study the biochemistry of suberization.  相似文献   

11.
The distribution of 14C in the various glucose residues of maltotriose was studied as a function of time of photosynthesis of isolated chloroplasts of spinach (Spinacia oleracea L.) using 14CO2. The distribution of label showed that the reducing-end glucose residue was labeled first and the label subsequently distributed to the second and third glucose residues at approximately equal rates.  相似文献   

12.
When cells of Acanthamoeba castellanii are placed in a non-nutrient medium, they differentiate into cysts which possess cellulosic walls. In the present study, the source of the glucosyl unit for cyst wall cellulose was investigated by following the encystment of trophozoites grown in the presence of 14C-labeled fatty acids (uniformly labeled palmitate or oleate) or [3-3H]glucose. Cells were fractionated at the beginning and after 30 hr of encystment using a modified Schmidt-Tannhauser procedure. In cells grown on fatty acids, 90% of the labeled material was in the lipid fractions both before and after encystment with the total amount of label/cell changing very little. Both partial and complete acid hydrolysis of the glycogen of the acidsoluble fraction and the alkali-insoluble residue of the cyst wall indicated that the glucose of both fractions was not radioactive, although Acanthamoeba is known to have a functional glyoxylate pathway.Fractionation data of cells grown on [3H]glucose indicated a sevenfold increase in radioactivity in the wall insoluble fraction and a fivefold decrease in the acid-soluble fraction with the cpm/cell of the other fractions changing very little after 30 hr of encystment. Approximately 70% of the 3H-labeled material was recovered as glucose from the 30-hr wall insoluble fraction following complete acid hydrolysis. The specific radioactivity of glucose in the cyst wall insoluble fraction was the same as that of glycogen glucose isolated from the acid soluble fraction of trophozoites. Electron microscopic autoradiography showed that the majority of nonlipid radioactivity was due to glycogen in trophozoites. Autoradiograms failed to reveal Golgi bodies or any particular region of the cell as being the specialized site of cellulose synthesis. The results of the fractionation and autoradiographic studies are consistent with the concept that glycogen is a precursor of cyst wall cellulose, and that glucosyl units of glycogen and/or other glucose derivatives are converted to cellulose without significant dilution under the experimental conditions used.  相似文献   

13.
In order to determine the feasibility of using radioactive precursors as markers for membrane phospholipids in Acanthamoeba palestinensis, the characteristics of phospholipids labeled with choline-14C and glycerol-3H were examined. Choline-14C was found to be a specific label for phosphatidyl choline. There was a turnover of the radioactive moiety of phosphatidyl choline at a rate that varied with the concentration of nonradioactive choline added to the growth medium. Radioactivity was lost from labeled phosphatidyl choline into the acid-soluble intracellular pool and from the pool into the extracellular medium. This loss of radioactivity from cells leveled off and an equilibrium was reached between the label in the cells and in the medium. Radioactive choline was incorporated into phosphatidyl choline by cell-free microsomal suspensions. This incorporation leveled off with the attainment of an equilibrium between the choline-14C in the reaction mixture and the choline-14C moiety of phosphatidyl choline in the microsomal membranes. Therefore, a choline exchange reaction may occur in cell-free membranes, as well as living A. palestinensis. In contrast to choline-14C, the apparent turnover of glycerol-3H-labeled phospholipids was not affected by large concentrations of nonradioactive choline or glycerol in the medium. The radioactivity in lipids labeled with glycerol-3H consisted of 33% neutral lipids and 67% phospholipids. Phospholipids labeled with glycerol-3H turned over slowly, with a concomitant increase in the percentage of label in neutral lipids, indicating a conversion of phospholipids to neutral lipids. Because most (~96%) of the glycerol-3H recovered from microsomal membranes was in phospholipids, whereas only a minor component (~2%) of the glycerol-3H was in the phospholipids isolated from nonmembrane lipids, glycerol-3H was judged to be a specific marker for membrane phospholipids.  相似文献   

14.
Phytic acid and raffinose series oligosaccharides (RFOs) have anti-nutritional properties where phytic acid chelates minerals and reduces their bioavailability to humans and other animals, and RFOs cause flatulence. Both phytic acid and RFOs cannot be digested by monogastric animals and are released as pollutant-wastes. Efforts are being made to reduce the contents of these factors without affecting the viability of seeds. This will require a thorough understanding of their metabolism in different crops. Biosynthetic pathways of both metabolites though are interlinked but not well described. This study was made on metabolism of these two contents in developing chickpea (Cicer arietinum L cv GL 769) seeds. In this study, deposition of RFOs was found to occur before deposition of phytic acid. A decline in inorganic phosphorus and increase in phospholipid phosphorus and phytic acid was observed in seeds during development. Acid phosphatase was the major phosphatase in seed as well as podwall and its activity was highest at early stage of development, thereafter it decreased. Partitioning of 14 C label from 14 C-glucose and 14 C-sucrose into RFOs and phytic acid was studied in seeds in presence of inositol, galactose and iositol and galactose, which favored the view that galactinol synthase is not the key enzyme in RFOs synthesis.  相似文献   

15.
Methanobacterium espanolae, an acidiphilic methanogen, required acetate for maximal growth on H2-CO2. In the presence of 5 to 15 mM acetate, at a growth pH of 5.5, the μmax was 0.05 h-1. M. espanolae consumed 12.3 mM acetate during 96 h of incubation at 35°C with shaking at 100 rpm. At initial acetate levels of 2.5 to 10.0 mM, the amount of biomass produced was dependent on the amount of acetate in the medium. 13C nuclear magnetic resonance spectra of protein hydrolysates obtained from cultures grown on [1-13C]- or [2-13C]acetate indicated that an incomplete tricarboxylic acid pathway, operating in the reductive direction, was functional in this methanogen. The amino acids were labeled with a very high degree of specificity and at greater than 90% enrichment levels. Less than 2% label randomization occurred between positions primarily labeled from either the carboxyl or methyl group of acetate, and very little label was transferred to positions primarily labeled from CO2. The labeling pattern of carbohydrates was typical for glucogenesis from pyruvate. This methanogen, by virtue of the properties described above and its ability to incorporate all of the available acetate (10 mM or lower) from the growth medium, has advantages over other microorganisms for use in the production of specifically labeled compounds.  相似文献   

16.
Thiocapsa floridana strain 1711 andChromatium strains 1211 and 1611 utilize sulphide, thiosulphate, and elementary sulphur as electron donors for growth; sulphite can be used only byChromatium strain 1611. In contrast to the other strains, thiosulphate utilization inChromatium strain 1211 is inducible and not constitutive: thiosulphate is consumed only after an induction period of about 20 hours. The turnover rate of different sulphur compounds is controlled by the CO2 fixation rate. Using differently labeled35S thiosulphates in short term experiments in a special stirred cuvette, it was shown that the maximum amount of stored intracellular sulphur depends on the strain as well as on the experimental conditions like pH and thiosulphate concentration. WhileChromatium strain 1211 showed a maximum storage of only 10% from sulphane-labeled thiosulphate at pH 6.7, and of 25.7% at pH 6.2,Thiocapsa floridana accumulated 75–90% of the radioactivity into the cells at pH 6.7. While in theChromatium strains the labeling of the cells remained at a constant level until all thiosulphate was consumed, inThiocapsa floridana a defined peak of radioactivity storage was obtained, followed by a steady but 3–4 times slower rate of excretion. With sulphonelabeled thiosulphate no significant accumulation of radioactivity occurred in the cells. During dark-incubation ofThiocapsa floridana (free of intracellular sulphur) in phosphate buffer, pH 6.5, with thiosulphate a production of sulphide could be measured while sulphite was not detected; no sulphide was produced by disrupted cells under the same conditions. The results obtained withThiocapsa floridana strongly support the concept of an initial cleavage of thiosulphate. The present observations do not allow a decision concerning the enzymatic mechanism of the cleavage itself.  相似文献   

17.
Burst titration experiments conducted on a highly purified isoenzyme of wheat germ acid phosphatase under conditions where [S]o > Km indicate that there is one titratable active site per molecule of enzyme of molecular weight 59,000. The enzyme is labeled to only a small extent with inorganic [32P]phosphate ion. Incubation of wheat germ acid phosphatase with 32P-labeled substrates such as p-nitrophenyl phosphate or inorganic pyrophosphate followed by quenching in alkali results in the stoichiometric trapping of a base-stable, acid-labile phosphorylated protein. The extent of 32P incorporation parallels the degree of purity of the enzyme and corresponds to the incorporation of 1 mol of phosphate per mole of enzyme. The incorporation is eliminated by the simultaneous presence of excess unlabeled phosphate ion (a competitive inhibitor) and is not observed when a noncatalytic protein (such as bovine serum albumin) is substituted for the enzyme. Complete alkaline hydrolysis of the labeled protein results in the recovery of an 85% yield of τ-phosphohistidine, identified by ion-exchange chromatography, high-voltage paper electrophoresis, and comparison with a synthetic sample. A 32P-labeled tryptic tetradecapeptide was isolated following hydrolysis of the labeled, reduced, and carboxymethylated protein with trypsin at pH 8.3, separation of the labeled peptide, and purification by two methods including a novel variant of a diagonal electrophoresis technique. The end groups and composition of the peptide are reported. The data are consistent with the interpretation that a phosphohistidine-enzyme intermediate is formed as an obligatory intermediate in the catalytic reaction involving this enzyme.  相似文献   

18.
The processes of lipid synthesis and decomposition in Aspergillus niger under conditions of heat shock (HS) were studied in a pulse-chase experiment with 14C-labeled sodium acetate. HS (60 min) resulted in the synthesis of phospholipids and sphingolipids intensified compared to the control, as was evident from incorporation of the labeled substrate. The same pattern was observed for neutral lipids, especially for triacylglycerides, while incorporation of the label into sterols remained almost the same. Further cultivation for 3 h in the medium without the labeled substrate resulted in a significant decrease of the label content in the membrane lipids of both the control and the experiment, although under HS conditions this decrease was much more pronounced, especially for phosphatidylcholines and phosphatidylethanolamines. A threefold increase of the label content in phosphatidic acids was observed only under HS conditions. These results indicate more intense metabolism of the membrane lipids under heat shock and suggest the degradation of the major cell phospholipids as the factor responsible for the increased level of phosphatidic acids in A. niger mycelium.  相似文献   

19.
The pyridoxal phosphate-binding site of rabbit muscle aldolase   总被引:5,自引:0,他引:5  
Under appropriate conditions pyridoxal phosphate forms a Schiff-base derivative with a specific lysine residue in rabbit muscle aldolase, with the incorporation of slightly less than 1 equiv of pyridoxal phosphate per enzyme subunit. Reduction of the Schiff base with tritium-labeled borohydride introduces a radioactive label at this site. A tryptic peptide containing the labeled lysine residue has been isolated and found to possess the following sequence: Gly-Gly-Val-Val-Gly-Ile-Lys1-Val-Asp-Lys, where the asterisk indicates the modified lysine residue.  相似文献   

20.
Chick ciliary ganglion neurons grown in dissociated cell culture have a high affinity uptake mechanism for choline that has the properties expected for cholinergic neurons. The uptake has an apparent Km of ca. 0.3 μM and is blocked by addition of 10 μM hemicholinium-3 or replacement of Na+ by Li+ in the uptake medium. When the choline uptake mechanism is used to label ciliary ganglion neuron-myotube cultures autoradiographically, over 99% of the neurons are labeled. A few cells with neuronal morphologies in such cultures (<1%) are labeled by γ-[3H]aminobutyric acid uptake. The number of [3H]choline-labeled neurons and the amount of Na+-dependent choline uptake is the same for ciliary ganglion neurons grown with and without skeletal myotubes. Rat superior cervical ganglion neurons, grown in cell culture under conditions that induce them to synthesize acetylcholine and form cholinergic synapses, are labeled by [3H]choline uptake, though not as heavily as ciliary ganglion neurons. In contrast, chick dorsal root ganglion neurons, a presumed population of noncholinergic neurons, are not labeled by [3H]choline uptake. Thus high affinity choline uptake can be used to label autoradiographically the cholinergic neurons tested, while at least one population of noncholinergic neurons remains unlabeled.  相似文献   

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