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A total of 66 strains of gram-positive cocci, including 21 catalase-negative members of the family Streptococcaceae and strains of Stomatococcus mucilaginosus, were investigated for the ability to produce porphobilinogen and porphyrin from delta-aminolevulinic acid as an alternative to the benzidine test for detecting the presence of cytochromes. Production of porphobilinogen correlated 100% with membership in the family Micrococcaceae.

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The porphobilinogen (PBG) synthase catalyzed reaction requires both Zn(II) and reducing equivalents for the production of PBG from two molecules of 5-aminolevulinic acid (ALA). An early step in the reaction is the production of a Schiff's base between PBG synthase and one ALA molecule. Because both substrate molecules are chemically identical, there had been no evidence of enzyme-catalyzed partial reactions of ALA under conditions where PBG is not formed. In this study, NaBH4 was used to trap the Schiff's base formed between substrate ALA and active holo-PBG synthase, inactive apo-PBG synthase, and inactive methylmethanethiosulfonate-modified apo-PBG synthase. ALA-dependent NaBH4 inactivation of these enzyme forms was quantified at 50-62, 94-97, and 93-96% inactivation, respectively. [4-14C]ALA was used to determine the stoichiometry of Schiff's base trapping which was 2.3, 3.5-4.0, and 3.4 per octamer for holoenzyme, apoenzyme, and methylmethanethiosulfonate-modified apoenzyme, respectively. These results are consistent with four active sites per octamer or half-of-the-sites reactivity. We conclude that the production of the Schiff's base formed between one ALA molecule and the enzyme requires neither Zn(II) nor reduced enzyme sulfhydryl groups. Furthermore, the possible number of kinetic schemes for formation of the quaternary complex of enzyme, Zn(II), and two ALA moieties, one as the Schiff's base, has been reduced from 12 to 3. This is the first demonstration of a partial reaction catalyzed by PBG synthase with the natural substrate ALA under conditions which do not support PBG formation. Thus, we have opened the way toward investigating the partial reactions which may precede Zn(II) participation in the PBG synthase reaction.

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Many vitally important functions in living systems are carried out by metal ions held as complexes within organic ligands, the organic part of the molecule being a tetrapyrrolic macrocycle. Chlorophyll, haemoglobin, the cytochromes and vitamin B12 all fall into this family of 'pigments of life', a list that emphasizes their central importance in living systems. Research on the biosynthesis of these pigments has involved the synergistic combination of synthesis, structure determination, carbon nuclear magnetic resonance and isotopic labelling with radioactive and stable isotopes in conjunction with enzymology and kinetics. The lecture describes the logical series of experiments based on these approaches which have led to a step-by-step knowledge of the biosynthesis of the parent macrocycle (uroporphyrinogen-III) from which the other pigments are derived. One main pathway from the parent macrocycle involves oxidative transformations and leads eventually to protohaem required inter alia for haemoglobin and myoglobin. The second important pathway makes use of C-methylation to convert the parent macrocycle through many stages finally into vitamin B12. The biosynthetic studies on vitamin B12 are outlined with particular emphasis on the use of isotopic labelling with both radioactive and stable isotopes of carbon and hydrogen. Roughly two-thirds of the entire biosynthetic pathway to vitamin B12 has now been elucidated. The scarcity of several of the known intermediates on the pathway severely hampers future researches and progress towards the total synthesis of these key materials is reviewed. Finally, the lecture brings out the evolutionary interest of what has been discovered about the biosynthesis of the pigments of life.

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Purified 5-aminolaevulinate dehydratase (porphobilinogen synthase, EC 4.2.1.24) from human erythrocytes was incubated initially with limiting amounts of 5-amino [5-14C]laevulinate in a rapid-mixing apparatus. The single-turnover reaction with respect to the bound labelled 5-aminolaevulinate was completed by the addition of unlabelled 5-aminolaevulinate and the resulting radioactive porphobilinogen was isolated and degraded. The 14C label was found to be located predominantly at C-2 of the product, demonstrating that, of the two substrate molecules participating in the reaction, the 5-aminolaevulinate molecule initially bound to the enzyme provides the propionic acid 'side' of the porphobilinogen. The same enzyme-[14C]substrate species that yields regiospecific porphobilinogen may be trapped by reaction with NaBH4, showing that the substrate molecule initially bound to the enzyme does so in the form of a Schiff base. A conventional incubation with 5-amino[5-14C]laevulinate yielded porphobilinogen with an equal distribution of the label between C-2 and C-11. The reaction mechanism of the human erythrocyte 5-aminolaevulinate dehydratase thus follows the same course as that of other dehydratases studied in our laboratory by using single-turnover techniques.

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Biosynthesis of porphyrin in erythrocytes was studied in 48 patients, 23 of them being with acute renal insufficiency (ARI) and 25--with terminal chronic renal insufficiency (CRI), after incubation of delta-aminolevulinic acid (synthesized uro- copro- and protoporphyrin), synthesized porphobilinogen, the activity of porphobilinogen-synthesis, erythropoietic activity of serum and hematological indices. The biosynthesis of porphyrins in both groups of patients was established to be reduced, more strongly in those with CRI that could serve as one of the criteria in the differentiation of ARI from CRI. After the discontinuation of the treatment, the biosynthesis of porphyrins in the patients with ARI approached that of the clinically healthy subjects. In the patients with CRI, included in the programmed hemodialysis treatment, the biosynthesis of porphyrins was intensified and that of synthesized protoporphyrins--considerably reduced.

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Accumulation of lead in the tissues was greater after acute exposure. Most of the metal was deposited in the intestine and least in foot. After chronic exposure to lead the calcium content of the intestine decreased. After chronic and acute exposure to lead the calcium content of the digestive gland and foot was lower than control values. Lead in the digestive gland granules was higher after acute lead treatment. Less than 45% of the lead was associated with the granules. These results are discussed in view of the difference in metabolism and chemical nature of the organs investigated. ALAD activity was located in the digestive gland and it was reduced after acute treatment with lead.

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The obligately aerobic soybean root nodule bacterium Rhizobium japonicum produces large amounts of heme (iron protoporphyrin) only under low oxygen tensions, such as exist in the symbiotic root nodule. Aerobically incubated suspensions of both laboratory-cultured and symbiotic bacteria (bacteroids) metabolize delta-aminolevulinic acid to uroporphyrin, coproporphyrin, and protoporphyrin. Under anaerobic conditions, suspensions of laboratory-cultured bacteria form greatly reduced amounts of protoporphyrin from delta-aminolevulinic acid, whereas protoporphyrin formation by bacteroid suspensions is unaffected by anaerobiosis, suggesting that bacteroids form protoporphyrin under anaerobic conditions more readily than do free-living bacteria. Oxygen is the major terminal electron acceptor for coproporphyrinogen oxidation in cell-free extracts of both bacteroids and free-living bacteria. In the absence of oxygen, ATP, NADP, Mg2+, and L-methionine are required for protoporphyrin formation in vitro. In the presence of these supplements, coproporphyrinogenase activity under anaerobic conditions is 5 to 10% of that observed under aerobic conditions. Two mechanisms for coproporphyrinogen oxidation exist in R. japonicum: an oxygen-dependent process and an anaerobic oxidation in which electrons are transferred to NADP. The significance of these findings with regard to heme biosynthesis in the microaerophilic soybean root nodule is discussed.

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An improved method for the preparation of various species of porphobilinogen stereospecifically labelled with 3H in the side chains (at C-6, C-7 and C-8) is described. These labelled samples were used to study the mechanism and stereochemistry of anaerobic as well as aerobic coproporphyrinogen III oxidase of light-grown Rhodopseudomonas spheroides. It was shown that both the oxidases catalyse the conversion of the propionate side chains of coproporphyrinogen III into the vinyl groups of protoporphyrinogen IX, (formula; see text) with the labilization of the pro-S-hydrogen atom at the beta-position. These results are similar to those previously recorded for such conversions in animal and plant systems. In the light of the cumulative information available to date, mechanisms for the conversion, (formula; see text) are discussed and doubt is cast on the participation of hydroxylated intermediates in the process.

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Porphyrin biosynthesis in erythrocytes, after incubation with delta-aminolevulinic acid (DALA) was studied in 180 patients with renal diseases. A decrease of porphyrin synthesis was confirmed as early as the compensated stage of the disease with normal hematological indices. With the advancement of the renal insufficiency the biosynthesis of porphyrin and porphobilinogen was progressively decreased, as well as the percentage of DALA used in porphyrins synthesis and the activity of porphobilinogen synthesis in erythrocytes, accompanied by a progressive deterioration of the hematological indices. The correlation between the functional state of the kidneys, the indices of porphyrins metabolism and hematological indices in the patients with chronic renal diseases is underlined.

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gamma-Aminolevulinic acid (ALA) dehydratase catalyzes the synthesis of porphobilinogen (PBG) from two molecules of ALA. A semimicro method for the colorimetric determination of ALA dehydratase is presented and applied to various tissues. The enzyme activity in adult male rat liver was 2.22 and 1.94 mumol PBG formed/g liver/h for homogenates assayed with or without dithiothreitol, respectively. The assay was linear for at least 2.5 h and for up to 2.5 mg tissue per assay. The Km for ALA was 4.0 X 10(-4)M and the pH optimum was 6.2-6.4. The effects of activators and inhibitors on enzyme activity are discussed.

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1. We have studied the kinetics of the conversion of 5-aminolaevulinate into haem and haem precursors in homogenates of livers of rats and chick embryos. Homogenates of fresh liver from both species efficiently convert 5-aminolaevulinate into haem. After frozen storage for 1 year, homogenates of rat, but not chick, liver have decreased rates of formation of haem with accumulation of more protoporphyrin. The rate of haem formation after storage is restored by addition of Fe2+ and menadione. 2. At all initial concentrations of 5-aminolaevulinate tested (2 microM-1 mM), homogenates of rat liver accumulate less protoporphyrin than haem. In contrast, homogenates of chick embryo liver accumulate more protoporphyrin than haem at concentration of 5-aminolaevulinate greater than 10 microM. Conversion of protoporphyrin into haem by homogenates of fresh or frozen chick embryo liver is not increased by addition of Fe2+. 3. Homogenates of liver from both species accumulate porphobilinogen; the kinetic parameters for this process reflect those of 5-aminolaevulinate dehydratase. 4. The results show that the rate-limiting enzyme for the hepatic conversion of 5-aminolaevulinate into protoporphyrin is porphobilinogen deaminase. In addition, chick liver, compared with rat liver, has only about one-fifth the activity of ferrochelatase, the final enzyme of the haem biosynthetic pathway, which inserts Fe2+ into protoporphyrin to form haem. 5. Comparison of these results with previous studies indicates that the homogenate system described here provides physiologically and clinically relevant information for study of hepatic haem synthesis and its control.

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Porphobilinogen is the substrate of two enzymes: porphobilinogen deaminase and porphobilinogen-oxygenase. The first one transforms it into the metabolic precursors of heme and the second diverts it from this metabolic pathway by oxidizing porphobilinogen to 5-oxopyrrolinones. Rat blood is devoid of porphobilinogen-oxygenase under normal conditions while it carries porphobilinogen-deaminase activity. When the rats were submitted to hypoxia (pO2 = 0.42 atm) for 18 days, the activity of porphobilinogen-oxygenase appeared at the tenth day of hypoxia and reached the maximum at the 14-16th day. It decreased to a half after 2 days (half-life of the enzyme) and disappeared after 4 days of return to normal oxygen pressure. Porphobilinogen-deaminase activity increased after the first day of hypoxia, reached a maximum at the 14-16th day and did not decrease to normal values until the 15th day after return to normal oxygen pressure. The activities of both porphobilinogen-oxygenase and porphobilinogen-deaminase were induced by administration of erythropoietin. When rats were made anaemic with phenylhydrazine, porphobilinogen-oxygenase activity also appeared in the blood cells. Although the reticulocyte concentration was higher when compared to that obtained under hypoxia, the activities of the oxygenase obtained under both conditions were comparable. Porphobilinogen-deaminase activity was always closely related to the reticulocyte content. The appearance of porphobilinogenase-oxygenase under the described erythropoietic conditions was due to a de novo induction of the enzyme, as shown by its inhibition with actinomycin D and cycloheximide. Porphobilinogen-oxygenase as well as porphobilinogen-deaminase were present in the rat bone marrow under normal conditions. Their activities increased in phenylhydrazine treated rats. The properties and kinetics of porphobilinogen-oxygenase from the rat blood and bone marrow were determined and found it differ in several aspects.

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Biosynthesis of porphyrins in erythrocytes after incubation with delta-aminolevulinic acid was studied by the method of IDELSON in a control group of 30 healthy males and females as well as in 13 patients (7 females and 6 males) followed up during the initial stage, in remission and relapse of acute leukemia. The total amount of synthesized porphyrins was increased at the onset and in relapse as compared with healthy controls on account of the increased biosynthesis of coproporphyrin. Reversely, the amount of synthesized porphobilinogen and protoporphyrin was decreased. During the initial stage and in relapse of acute leukemia the percentage of residual delta-amino-levulinic acid displayed no significant differences while the percentage of disappeared delta-aminolevulinic acid was increased. During the stage of remission an activation of biosynthesis of porphyrins and porphobilinogen was observed as compared with the controls. The changes established are possibly associated with the pathogenesis of the anaemic syndrome in patients with acute leukemia at the initial stage, in remission and relapse.

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The biosynthesis of porphobilinogen by homogenates of the lungs, heart, liver, kidneys, spleen, pancreas and small intestinal tissues was studied in 77 intact and in 68 rats with marked lead poisoning. The activity of ALA dehydratase in the lungs was decreased by 40.3%, in the kidneys by 40%, in the heart by 38.2% and was normal in homogenates of the liver, pancreas and small intestine. In spleen homogenates, the activity was increased by 26.3%. Potential mechanisms of different ALA dehydratase reactions in organs tissues of rats with lead poisoning are discussed.

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