Radiation chemistry of overirradiated aqueous solutions of hydrogen cyanide and ammonium cyanide

Summary The radiolysis of aqueous solutions (O₂-free) of HCN and NH₄CN was examined at very large doses of⁶⁰Co gamma radiation (up to 230 Mrad). In this dose range the cyanide initially present (0.12 M) is decomposed and only its radiolytic products participate in the radiation-induced chemical process. It has been found that the weight of the dry residue containing the mixture of nonvolatile radiolytic products increases as doses increase up to 40 Mrad (up to about 4 g/l), but with further dose increases remains practically unchanged (NH₄CN) or decreases slightly (HCN). Carboxylic and amino acids are present in overirradiated samples. At increasing doses their concentrations decrease, with the exception of oxalic and malonic acids, which are continually produced and accumulate. This is also the case with the abundant NH₃ and CO₂, as well as with several other products that were generated at lower radiation-chemical yields. The molecular weights of the radiolytic products are up to 20,000 daltons throughout the dose range studied. Their amounts gradually change with increasing doses above 30 Mrad: The compounds with M_w between 2,000 and 6,000 daltons become more abundant, while the amounts of polymers with M_w between 6,000 and 20,000 decrease. The relevance of these findings for studies of chemical evolution is considered.     

The radiolysis of aqueous acetonitrile: Compounds of interest to chemical evolution studies

Summary Oxygen-free aqueous solutions of CH₃CN (0.1 M, pH 6) were exposed to gamma rays from a⁶⁰Co source, the mixture of nonvolatile radiolytic products was fractionated and the fractions were analysed. Succinic, maleic, fumaric, malonic and pyruvic acids were identified. Glycol aldehyde, glucose and probably ribose were observed in the hydrolysate of fractionated material. It has been suggested that an oligomer is formed which has a fragment with the polyhydroxy structure and on hydrolysis releases the carbohydrates. Radiolytic products which release amino acids on hydrolysis were found in several fractions. The amino acid contents of the hydrolysates were up to about 2.8% of the fraction mass. The presence of several protein and nonprotein amino acids suggests that their origin should be in a peptidic structure, which is probably a fragment of an oligomer radiolytically produced. A direct analysis of the irradiated solution shows the presence of acetaldehyde, propionaldehyde, glyoxal and of biacetyl. Experimental findings are discussed and a free-radical mechanism is proposed to account for the chemical changes observed.     

Pulse radiolysis of aromatic amino acids — State of the art

Summary The pulse radiolysis method as well as the primary processes of water radiolysis and the spectroscopic characteristics of H, OH, HO₂/O₂ ^– and e _aq ^- are briefly presented. Subsequently, kinetic and spectroscopic data of the transients resulting from the resolved multi site attack on aromatic amino acids are discussed. The reactivity of H and e _aq ^- with the same substrates, as well as the effect of oxygen on the major radiolytic processes are reviewed. Finally, the formation of tryptophan radical cation is mentioned shortly. The presented radiation mechanisms are the fundamentals for radiolytic processes occurring in proteins, enzymes and hormones in the living cells.     

Chemical and biological evaluation of some new antipyrine derivatives with particular properties

Starting from 4-amino-antipyrine, six new compounds were synthesized and characterized. The new compounds contain moieties with particular properties, such are ionophore (benzo-15-crown-5), fluorescent (nitrobenzofurazan), stable free radical (nitroxide), or other types of biological active residues, like nitroderivatives, antipyrine or isoniazid residues. They were fully characterized by appropriate means (¹H and ¹³C NMR, IR, UV–Vis, fluorescence, EPR, elemental analysis) and some of their biological properties were evaluated. Hydrophobicity (R_M0, log P), total antioxidant capacity (TAC), and antimicrobial properties are also presented and discussed.     

Radiation chemistry of an aqueous solution of glycine: compounds of interest to chemical evolution studies

Summary We have examined the radiolysis of an O₂-free aqueous solution of glycine at absorbed doses of⁶⁰Co gamma-radiation of up to 20 Mrad. At least 20 compounds are formed during radiolysis, among them several amino acids, an oligoamine, and the nitrogen-free polymers (M_w28,000 daltons). When dicyandiamide is present in the solution of glycine, various nitrogen-containing products, including some polymers (M_w12,000 daltons), are synthesized along with radiolytic products of glycine; polyglycines are not formed. We have determined the radiation-chemical yields of radiolytic-product formation and of decomposition of glycine, and have considered possible free-radical reactions leading to the radiation-induced changes observed.     

Radiation chemistry of a multicomponent aqueous system relevant to chemistry of cometary nuclei

Summary We have examined a water-dominated multicomponent system after irradiation in the multimegarad dose range with gamma rays from a⁶⁰Co source at both 77 and 310 K. The constituents were simple organic compounds in the proportions in which they appear in a dense interstellar cloud: HCN/CH₃OH/CH₃CN/C₂H₅CN/HCOOH=10.60.20.10.05. The total amounts were adjusted to correspond to a carbon to nitrogen ratio of 1.8 and a water content of about 50% in a cometary nucleus where the dust to volatiles ratio is 1; the total amount of CN-bearing compounds was taken to correspond to 0.4% of the cometary mass. In experiments at 310 K about 40 radiolytic products are identified, among them aldehydes and amino and carboxylic acids. Abundant polymeric material (M_w up to 80,000 daltons) is formed. The basic aspects of radiolysis of the liquid system are present also at 77 K, although at radiation-chemical yields that are lower by one to two orders of magnitude. We have considered the relevance of the present findings to the chemistry of a liquid-water core and the icy layers of a cometary nucleus.     

Relationship between leaf development and primary photosynthetic products in the C4 plant Portulaca oleracea L.

Summary The photosynthetic products of Portulaca oleracea differ greatly depending on leaf age and length of exposure to ¹⁴CO₂. Mature leaves of P. oleracea fix ¹⁴CO₂ primarily into organic and amino acids during a 10-s exposure period. Less than 2% of the ¹⁴CO₂ fixed appears in phosphorylated compounds. In contrast, incorporation into amino acids can account for over 60% of the total ¹⁴CO₂ fixed by young leaves in an equal time period, and incorporation into alanine alone can account for up to one half of this amount. Senescent leaves display a quantitative shift of primary products toward phosphorylated compounds with a concomitant reduction of the label residing in malate and asparate. About 8 times more phosphoglyceric acid is produced in senescent leaves than in mature leaves. The aspartate/ malate ratio is not constant and depends on the length of time the leaves are exposed to ¹⁴CO₂ and the age of the leaves under study. It appears as if the stage of leaf development is one of the most important factors determining the operation of a particular enzyme system in C₄ plants.     

The γ-irradiation of aqueous solutions of urea. Implications for chemical evolution

0.05 mole dm^–3, O₂-free aqueous solutions of urea were studies after receiving various doses of⁶⁰Co gamma rays (0.14–600 kGy). Urea was found to be relatively stable under radiation; its radiation chemical yield of decomposition was 0.47. Hydrogen (G=0.50), carbon dioxide (G=0.44), ammonia (G=0.22), oxalic acid (G=0.0054), malonic acid (G=0.000064) and three unidentified oligomers were found to be the main radiolytic products. The origin of these products is explained by free radical reactions initiated by the transients from water radiolysis (H·,·OH,e _aq ^– ).     

Uptake of atmospheric 15NO2 and its incorporation into free amino acids in wheat (Triticum aestivum)

Five-week-old wheat plants were exposed, under controlled environmental conditions, to 60 nl 1^?115NO₂ or to purified air. After 48 and 96 h of exposure, leaves, stalks and roots were analysed for ¹⁵N-enrichment in α-amino nitrogen of soluble, free amino acids. In addition, the in vitro nitrate reductase (NR, EC 1.6.6.1) and nitrite reductase (NIR, EC 1.7.7.1) activities were determined in the leaves. NR activity in the leaves decreased continously during the 96-h exposure to purified air. In the leaves exposed to ¹⁵NO₂, NR activity increased within the first 24 h, then decreased, and reached the level of controls after 96 h. NiR activity in leaves exposed to purified air was almost constant during the 96-h exposure. In leaves exposed to ¹⁵NO₂, NiR activity increased within the first 48 h, then decreased, and reached the level of controls after 72 h, Exposure to ¹⁵NO₂ enhanced the total content of soluble, free amino acids in all tissues analysed. Most of this increase was attributed to Glu in the leaves and to Asn plus Gln the α-amino group of soluble, free amino acids was observed in the leaves, the lowest enrichment in the roots. The main labelled amino compounds were Glu (with 8.0%¹⁵N enrichment compared to the control), γ-aminobutyric acid (GABA; 7.9%), Ala (7.2%). Ser (6.8%), Asp (5.5%) and Gln (4.6%). Appreciable incorporation of ¹⁵ into Asn was not found. After 96 h exposure to ¹⁵NO₂ the ¹⁵N enrichment in the α-amino group of soluble, free amino acids in the leaves declined as compared to the values obtained after 48 h fumigation. The possible pathway and the time course of ¹⁵N incorporation into soluble, free amino acids from the ¹⁵NO₂ absorbed are discussed.     

On the metabolic activation of the carcinogen N-hydroxy-N-2-acetylaminofluorene : III. Oxidation with horseradish peroxidase to yield 2-nitrosofluorene and N-acetoxy-N-2-acetylaminofluorene

Previous studies have shown that the carcinogen N-hydroxy-2-acetylaminofluorene is converted by one-electron oxidants to a free nitroxide radical which dismutates to N-acetoxy-2-acetylaminofluorene and 2-nitrosofluorene. The present study shows that the same oxidation can be achieved with horseradish peroxidase and H₂O₂. The free radical intermediate was detected by its ESR signal, and the yields of N-acetoxy-2-acetylaminofluorene and of 2-nitrosofluorene were determined under a number of conditions. Addition of tRNA to the reaction mixture containing N-acetoxy-N-2-acetyl[2′-³H]aminofluorene yielded tRNA-bound radioactivity; addition of guanosine yielded a reaction product which appears to be N-guanosin-8-yl)-2-acetylaminofluorene. The latter compound has previously been identified as a reaction product of N-acetoxy-2-acetylaminofluorene and guanosine. Preliminary attempts to demonstrate the formation of a nitroxide free radical or its dismutation products with rat liver mixed function oxidase systems were not successful.     

Biotransformation of plantain pseudostem fibres using local enzyme sources; analysis of their potential as commercial poultry feed

Plantain pseudo-stem fibres (PPS) were valorized in this study by subjecting to simultaneous saccharification and fermentation (SSF) and afterwards, their complex carbohydrates and monosaccharides, mycotoxins, protein qualities, and free radical scavenging potentials were compared to those of commercial poultry feeds (CPF). The SSF of PPS was achieved using digestive juice of the snail; Archachatina marginata, and yeast, while standard methods like HPLC-UV, HPLC-DAD, monosaccharides and mycotoxin kits, and UV-VIS spectrophotometry were used for analysis. The cellulose, hemicellulose, pectin, lignin, extractives, and acetyl contents of PPS were significantly (p?<?.05) reduced when subjected to SSF. Glucose (41.1%), galactose (11.2%), mannose (1.7%), and fucose (1.8%) contents of the SSF-PPS were higher than those of the PPS and CPF while CPF showed higher contents of arabinose (8.2%), fructose (18.3%), and rhamnose (1.7%). No mycotoxin was detected in the PPS, while all aflatoxins (B₁, B₂, G₁, and G₂), citrinin, fumonisin B₁, and B₂, ochratoxin A and B contents of SSF-PPS were equivalent to those for CPF. Patulin (5.52×10^?4?µg/kg) and zearalenone (7.76×10^?6?µg/kg) contents of the SSF-PPS were lower than those for CPF (1.50×10^?3?µg/kg and 1.13×10^?5?µg/kg respectively). The total amino acids (TAA), total non-essential and essential amino acids (TNEAA and TEAA), total basic and branched chain amino acids (TBAA and TBCAA) of the SSF-PPS were higher than those of the PPS and CPF while the free radical scavenging potentials of the SSF-PPS were mostly concentration dependent, and showed significantly higher ABTS, DPPH, Ferric, OH, lipid peroxide, and superoxide radical scavenging potentials than the standards used. This study has shown that the valorization of the agricultural residue using SSF, improves carbohydrate, protein, mycotoxins, and in-vitro antioxidant properties suitable enough for poultry feeding.     

The Fate of l-Phenylalanine Fed to Germinating Pea Seeds, Pisum sativum (L.) var. Alaska, during Imbibition

Radioactive l-phenylalanine-l-¹⁴C or -U-¹⁴C was fed to pea seeds during imbibition. More than 95% was imbibed. Less than 1% of the radioactivity was respired as CO₂. Of the radioactivity taken into the embryos, 80% was still in the cotyledons by 3 days. About half of this was unchanged phenylalanine: 5% free, 10 to 20% in soluble proteins, 1 to 6% in cell wall proteins, and 14% released by mild acid hydrolysis. No other radioactive amino acid was found. About 0.3% of the radioactivity was identified as free caffeic, ferulic, and coumaric acids or their glycosides, and a further 5% was released by mild acid hydrolysis into a phenolic acid fraction. About half of the radioactivity in the cotyledons was lost in the fractionation procedures.     

Radiolysis of aqueous solutions of hydrogen cyanide (pH∼6): Compounds of interest in chemical evolution studies

Summary Oxygen-free aqueous solutions of hydrogen cyanide, 0.1 M and pH∼6, were exposed to gamma rays from a⁶⁰Co source, the mixture of nonvolatile products was fractionated and the fractions were analysed. It has been found that the complex mixture contains oligomers and polymers with molecular weights up to 20,000 daltons, mainly polyamides with urea and peptidic fragments. Among the constituents are carbamyl glycinonitrile and carbamyl glycinamide that represent 6.4% and 3.1% of the total of unfractionated material respectively. Urea content is 2.6%, but the derivatives of urea are more abundant. Acid hydrolysis releases several amino acids. Glycine is the most abundant (75% or more of total amino acid content), and its concentration considerably increases in some fractions when the hydrolysis is carried out at 130°C. The role of free radicals in reactions leading to the formations of radiolytic products is considered. Some comparisons are made between findings in the present work, at initial pH∼6, and an earlier study of ammonium cyanide at pH 9.     

Effect of Glutamate and Inhibitors of Various Pathways of Free Radical Production on Na+,K+-ATPase Activity and Accumulation of Lipids Peroxidation Products in Rat Brain Cortex Synaptosomes

It has been shown that treatment of the rat brain cortex synaptosomes with glutamate produced both a significant reduction in Na⁺,K⁺-ATPase activity and accumulation of products of lipid peroxidation (LPO) like malone dialdehyde, dienoic conjugates, and Schiff bases. A suppression of different routes of free radical production in cytosol by quinacrine, indomethacin, and allopurinol (blockers of phospholipase A₂, cyclooxygenases, and xanthine oxidases, respectively) as well as by MK-801 (a antagonist of MDA-receptors) prevented or lowered significantly the effect of glutamate on Na⁺,K⁺-ATPase activity. No significant effect of glutamate on the Na⁺,K⁺-ATPase activity was also observed in the presence of L-NAME (inhibitor of NO-synthase). Inhibitors of the arachidonate and NO-synthase pathway of free radical production also prevented accumulation of LPO end products in the rat brain cortex under the effect of glutamate. In the presence of rotenone and olygomycin (blockers of mitochondrial electron transport and ATP synthase, respectively), glutamate led to even a greater inactivation of Na⁺,K⁺-ATPase and accumulation of malone dialdehyde. The data obtained suggest that at early stages of ischemia the neurotoxic effect of glutamate is due to an inflow of calcium ions through NMDA receptors and activation of different pathways of free radical production in cytosol of nerve cells. At these stages, protective functions of mitochondria appear to predominate due to their ability to accumulate calcium ions and to prevent an excessive increase of the cytosol calcium concentration under the effect of excitatory amino acids.     

Dynamics of simple carbon compounds in two forest soils as revealed by soil solution concentrations and biodegradation kinetics

Simple compounds in soil such as organic acids, amino acids and monosaccharides are believed to be important in regulating many aspects of terrestrial ecosystem functioning (e.g. C cycling, nutrient acquisition). Understanding the fate and dynamics of these low molecular weight (MW) compounds is therefore essential for predicting ecosystem responses to disturbance. Our aim was to quantify the amounts of these compounds in two podzolic forest soil profiles (O, E, Bs and C horizons) and to quantify their contribution to total soil respiration. The total concentration of organic acids, amino acids and monosaccharides in soil solution comprised on average 15?±?10% of the total dissolved organic C (DOC), with declining concentrations in the deeper soil layers. Dissolved organic N (DON) was the dominant form of N in soil solution and free amino acids contributed to 34% of this pool. The mineralization behaviour of glucose and galactose was described by parabolic (Michaelis–Menten) type kinetics with V _max and K _M values in the range of <1–250 μmol kg^?1 h^?1 and 15–1,100 μM, respectively. Assuming that (1) microbially mediated substrate turnover follows Michaelis–Menten kinetics, and (2) steady state soil solution concentrations, we calculated the rate of CO₂ efflux attributable to the mineralisation of the three classes of low MW compounds. Our results indicated that in the O horizon, the turnover of these substrates could comprise ~100% of the basal, heterotrophic, soil respiration. In contrast, in the deeper mineral soil <20% of total soil respiration could be attributable to the mineralization of these compounds. Our compound-specific approach has identified the main substrates contributing to soil respiration in forest topsoils. However, our results also suggest that soil respiration in subsoils may be attributable to compounds other than organic acids, amino acids and monosaccharides.     

Photolysis of N-methyl and N-acetyl substituted amino acids

Summary Experiments on the production of free radicals in aqueous solutions of N-methyl and N-acetyl substituted amino acids by UV light are reported. The ESR spectra observed at 77 K show that the bond of the CH_3–group of these substances is ruptured to a great deal compared with other bond ruptures producing paramagnetic centres. But in N-methyl substituted amino acids the methyl radical is less predominant than in N-acetyl substituted ones. At temperatures higher than 200 K the ESR spectra of all substances studied in our experiments are similar. It is supposed that a radical is formed with an unpaired spin near an oxygen atom.A part of this paper was reported at a Congress in Freiburg i. Br. (Germany) organized by the Deutsche Gesellschaft für Biophysik, October 2–4, 1974.     

Metabolism of absorbed aspartate,asparagine, and arginine by rat small intestine in vivo

l-[U-¹⁴C]aspartate, l-[U-¹⁴C]asparagine, and l-[U-¹⁴C]arginine were administered luminally into isolated segments of rat jejunum in situ, and the radioactive products appearing in venous blood from the segment were identified and quantified, in a continuation of similar studies with l-glutamate and l-glutamine (Windmueller H.G. and Spaeth, A. E. (1975) Arch. Biochem. Biophys. 171, 662–672). Aspartate, administered alone (6 mm) or with 18 other amino acids plus glucose, was absorbed more rapidly than glutamate, but, as with glutamate, less than 1% was recovered intact in intestinal venous blood. More than 50% of aspartate carbon was recovered in CO₂, 24% in organic acids, mostly lactate, 12% in other amino acids (alanine, glutamate, proline, ornithine, and citrulline), and 10% in glucose, apparently the first demonstration of gluconeogenesis by intestine in vivo. In contrast to aspartate and glutamine, nearly all asparagine was absorbed intact, less than 1% being catabolized. About 4% of the absorbed dose was incorporated into the acid-insoluble fraction of intestine, as was the case with all the amino acids studied. In conventional or germ-free rats, only 60% of arginine was absorbed intact, while 33% was hydrolyzed to ornithine and urea. The urea and 38% of the ornithine were released into the blood; the remaining ornithine was metabolized further by intestine to citrulline, proline, glutamate, organic acids, and CO₂. Catabolism of several amino acids from the lumen plus glutamine from arterial blood may provide an important energy source in small intestine.     

One-electron redox reactions of free radicals in solution. Rate of electron transfer processes to quinones

A large number of biologically-important organic and inorganic free radicals have been produced in aqueous solutions, using the fast-reaction technique of pulse radiolysis and kinetic absorption spectrophotometry. The reactions of these free radicals with menaquinone (vitamin K₃, E₀ = 0.42 V) were followed by observing the formation kinetics of the semiquinone radical anion of menaquinone, •MK⁻. The absorption spectrum of •MK⁻ has maxima at 395 nm and 300 nm, with extinction coefficients of 1.1·10⁴ and 1.25·10⁴ M⁻¹·cm⁻¹, respectively. The pK_a of the radical •MK⁻-H⁺ is 4.6±0.1. The free radicals were produced by a one-electron oxidation or reduction of various compounds by hydroxyl radicals and solvated electrons, e_aq⁻. Alcohols, sugars, carboxylic acids, amino acids, peptides, aliphatic amines and amides, aromatic and heterocyclic molecules, pyridine derivatives (nicotinamide, NAD⁺), and transition metal ions have been examined. Significant differences have been observed in both the efficiency (expressed in percentage) and the rate constants of the electron transfer reactions from these free radicals to menaquinone. Absolute rates of electron transfer from approx. 5·10⁸–5·10⁹ M⁻¹·s⁻¹ have been observed for most of the free radicals studied. Information relating to the nature of the radicals and the acid-base properties of these radicals for effective one-electron redox reactions with quinones is indicated.     

Intermediates Of Photosynthesis in Acetabularia mediterranie Chloroplasts

The chloroplast fraction isolated from Acetabularia mediterranie was exposed to ¹⁴CO₂ as NaH¹⁴CO₃ in light and darkness, and soluble radioactive compounds were analyzed at frequent intervals. The behavior of Calvin cycle intermediates indicates that this cycle was responsible for much of the carbon fixation in the chloroplasts. However, a substantial part of recently fixed carbon was metabolized via glycolic and glyceric acids. Possible pathways for their metabolism are discussed. Some carboxylation of C₃ acids was suggested by the behavior of phosphoenolpyruvate and malate. A number of amino acids were formed. Small amounts of such compounds as citrate, succinate, and fumarate not usually associated with photosynthesis might have been derived from a low level of mitochondrial contamination. About one-third of the carbon fixed in light was present in acid-labile insoluble compounds other than polysaccharides or proteins. Dark fixation of CO₂ was very small compared with photosynthesis.     

Electron paramagnetic resonance probes of the radical decomposition of cumene hydroperoxide initiated by metmyoglobin

Electron paramagnetic resonance studies have provided evidence for metmyoglobin initiation of the radical decomposition of cumene hydroperoxide, carried out in buffered aqueous solutions at ambient temperatures. The radicals formed oxidize aminopyrine to a free radical, readily detected at acidic pH, or react with the spin trap nitrosobenzene. The only species so trapped was the cumyl radical (optimal pH, 9.0), previously observed in a similar spin-trapping study of the chemical decomposition of cumene hydroperoxide in organic solvents. The earlier proposal that the cumyl radical arises from breakdown of an initially formed, unstable phenylcumyloxy nitroxide is consistent with the experimental findings of this study. Moreover, it was shown that the decomposition of cumene hydroperoxide initiated by ferrous ion or by other heme compounds occurs by the same mechanism. Thus, the very low peroxidatic activities of several hemeproteins with cumene hydroperoxide involve oxidizing free radicals, unlike H₂O₂-dependent oxidations catalyzed by true hemeprotein peroxidases, in which enzyme species are the functional oxidants.