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1.
Two biosynthetic routes to the heme, chlorophyll, and phycobilin precursor, δ-aminolevulinic acid (ALA) are known: conversion of the intact five-carbon skeleton of glutamate, and ALA synthase-catalyzed condensation of glycine plus succinyl-coenzyme A. The existence and physiological roles of the two pathways in Cyanidium caldarium were assessed in vivo by determining the relative abilities of [2-14C]glycine and [1-14C]glutamate to label protoheme and heme a. Glutamate was incorporated to a much greater extent than glycine into both protoheme and heme a, even in cells that were unable to form chlorophyll and phycobilins. The small incorporation of glycine could be accounted for by transfer of label to intracellular glutamate pools, as determined from amino acid analysis. It thus appears that C. caldarium makes all tetrapyrroles, including mitochondrial hemes, solely from glutamate, and there is no contribution by ALA synthase in this organism.  相似文献   

2.
Chick embryo liver cells, when cultured for 41 h in the presence of [2-14C]mevalonic acid, took up label and incorporated radioactivity into heme a, but not into protoheme. Incubation of cells with delta-[4-14C]aminolevulinic acid (ALA) resulted in uptake of label and incorporation of radioactivity into both protoheme and heme a. These results show that both protoheme and heme a are synthesized during the incubation period, and that mevalonic acid is a specific precursor of the farnesyl moiety of heme a. Incubation of cells with [1,2-14C]acetate plus N-methyl mesoporphyrin IX, an inhibitor of heme synthesis, resulted in negligible incorporation of label into protoheme and heme a, although cellular lipids were highly labeled. This result indicates that the heme purification methods employed were capable of separating hemes from lipids, and that the measured incorporation of label into hemes from [14C]mevalonic acid and [14C]ALA was not due to lipid contamination.  相似文献   

3.
Pigment mutant C-2A′ of the unicellular green alga Scenedesmus obliquus develops only traces of chlorophyll and has no detectable amount of δ-aminolevulinic acid (ALA) when grown in the dark. In light it develops ALA and in the presence of levulinic acid (LA), a competitive inhibitor of ALA dehydratase, it accumulates 0.18 mmoles of ALA per 10 microliters of packed cell volume per 12 hours. This amount could be increased up to 15 times by feeding precursors and cofactors.

Incubation with [U-14C]glutamate, [1-14C]glutamate, and [2-14C]glycine yielded significantly labeled ALA, whereas [1-14C]glycine did not label the ALA specifically. Thus, two pathways using either glycine/succinyl-coenzyme A or incorporating the whole C-5-skeleton of glutamate into ALA are present in this alga. The efficiency of the glycine/succinyl-coenzyme A pathway seems to be three times higher than that of the glutamate pathway. Incubation with [5-14C]2-ketoglutarate, which can serve both pathways as a precursor, resulted in radioactivity of ALA as high as the sum of both labeling with [1-14C]glutamate and [2-14C]glycine.

Since the newly synthesized chlorophyll was radioactive regardless of labeled substrate employed, both pathways culminate in chlorophyll formation.

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4.
The 13C NMR spectra were analyzed in bacteriochlorophyll a and magnesium protoporphyrin methyl ester formed in Rhodopseudomonas spheroides S. in the presence of L-[1-13C]glutamate and [2-13C]glycine. After reassignment of three alpha-pyrrolic carbons (C-9, -14 and -16) of bacteriochlorophyll a, the spectra showed that C-2 of glycine was preferentially incorporated into the eight-carbon atoms in these tetrapyrrole macrocycles derived from C-5 of 5-aminolevulinic acid (ALA). C-2 of glycine was also incorporated specifically into methyl ester carbon of magnesium protoporphyrin IX methyl ester and methoxyl carbon of methoxycarbonyl group attached to isocyclic ring of bacteriochlorophyll a. No enrichment of these nine-carbon atoms was observed in the spectrum of bacteriochlorophyll formed in the presence of L-[1-13C]glutamate, showing exclusive operation of ALA synthase on bacteriochlorophyll biosynthesis.  相似文献   

5.
Alpha-ketoglutarate metabolism by cytochrome-containing anaerobes   总被引:1,自引:0,他引:1  
During growth in the presence of tracer amounts of exogenously supplied alpha-keto[1-14C]glutarate (AKG) or alpha-keto [5-14C]glutarate, cytochrome-containing Bacteroides fragilis strain 2044 and Bacteroides vulgatus strain 8482 incorporated extremely small amounts of radioactivity into cell macromolecules and protoheme. Under identical conditions, Bacteroides "l" strain 7CM and Bacteroides buccae strain J1 incorporated substantial label from [5-14C]AKG, but not [1-14C]AKG, into cellular macromolecules and protoheme. Bacteroides succinogenes strain S85 incorporated radioactivity from both [1-14C]AKG and [5-14C]AKG into cell macromolecules, but only label from [5-14C]AKG appeared in protoheme. Selenomonas ruminantium strain HD1 and Butyrivibrio fibrisolvens strain D1, both of which are devoid of cytochromes, incorporated substantial label from both [1-14C]AKG and [5-14C]AKG into cell macromolecules, but failed to incorporate label from either position into protoheme. Bacteroides ruminicola sp. brevis strain GA33 incorporated label from both [1-14C]AKG and [5-14C]AKG into both cell macromolecules and protoheme. A substantial portion of the heme synthesized by this organism may be formed by the "plant" pathway involving the intact use of the AKG carbon skeleton. Major differences exist in the manner and extent of AKG utilization among cytochrome-containing anaerobes and between these organisms and bacteria devoid of cytochromes obtained from similar environments.  相似文献   

6.
The 13C-nuclear magnetic resonance (NMR) spectra of chlorophyll a formed in dark-grown Scenedesmus obliquus (Turp.) Kützing in the presence of [1-13C]glutamate, [2-13C]- and [1-13C]glycineshowed that the 13C of glutamate was specifically incorporated into the eight-carbon atoms in the tetrapyrrole macrocycles derived from C-5 of 5-aminolevulinic acid (ALA), while the C-2 of glycine was only incorporated into the methyl carbon of the methoxycarbonyl group attached to the isocyclic ring of chlorophyll a. No specific enrichment of these nine carbon atoms was observed in the spectrum of chlorophyll a formed in the presence of [1-13C]-glycine. These labeling patterns provide evidence for the operation of the C5-pathway and against the operation of the ALA synthase pathway for chlorophyll formation in darkness.  相似文献   

7.
Two biosynthetic pathways are known for the universal tetrapyrrole precursor, -aminolevulinic acid (ALA). In the ALA synthase pathway which was first described in animal and some bacterial cells, the pyridoxal phosphate-dependent enzyme ALA synthase catalyzes condensation of glycine and succinyl-CoA to form ALA with the loss of C-1 of glycine as CO2. In the five-carbon pathway which was first described in plant and algal cells, the carbon skeleton of glutamate is converted intact to ALA in a proposed reaction sequence that requires three enzymes, tRNAGlu, ATP, Mg2+, NADPH, and pyridoxal phosphate. We have examined the distribution of the two ALA biosynthetic pathways among various genera, using cell-free extracts obtained from representative organisms. Evidence for the operation of the five-carbon pathway was obtained by the measurement of RNase-sensitive label incorporation from glutamate into ALA, using 3,4-[3H]glutamate or 1-[14C]glutamate as substrate. ALA synthase activity was indicated by RNase-insensitive incorporation of label from 2-[14C]glycine into ALA. The distribution of the two pathways among the bacteria tested was in general agreement with their previously established phylogenetic relationships and clearly indicates that the five-carbon pathway is the more ancient process, whereas the pathway utilizing ALA synthase probably evolved much later. The five-carbon pathway is apparently the more widely utilized one among bacteria, while the ALA synthase pathway seems to be limited to the subgroup of purple bacteria.Abbreviations ALA -aminolevulinic acid - DTT dithiothreitol - PALP pyridoxal phosphate - SDS sodium dodecyl sulfate - tricine N-tris-(hydroxymethyl)methylglycine  相似文献   

8.
The 13C-NMR spectra of bacteriochlorophyll a formed in the presence of L-[1-13C]glutamate and [2-13C]glycine in Chromatium vinosum strain D were analyzed. The isotope in the glutamate was specifically incorporated into eight carbon atoms in the tetrapyrrole macrocycle derived from the C-5 of 5-aminolevulinic acid (ALA), and the 13C in glycine was incorporated into the methyl carbon of the methoxycarbonyl group attached to the isocyclic ring of bacteriochlorophyll a. These labeling patterns provide evidence for the exclusive operation of the C5 pathway in ALA biosynthesis in the bacterium. The 13C chemical shifts of two quaternary carbons (C-9 and C-16) of bacteriochlorophyll a were reassigned in the present study.  相似文献   

9.
Synthesis of the tetrapyrrole precursor 5-aminolevulinate (ALA) in plants starts with glutamate and is a tRNA-dependent pathway consisting of three enzymatic steps localized in plastids. In animals and yeast, ALA is formed in a single step from succinyl CoA and glycine by aminolevulinate synthase (ALA-S) in mitochondria. A gene encoding a fusion protein of yeast ALA-S with an amino-terminal transit sequence for the small subunit of ribulose bisphosphate carboxylase was introduced into the genome of wild-type tobacco and a chlorophyll-deficient transgenic line expressing glutamate 1-semi-aldehyde aminotransferase (GSA-AT) antisense RNA. Expression of ALA-S in the GSA-AT antisense transgenic line provided green-pigmented co-transformants similar to wild-type in chlorophyll content, while transformants derived from wild-type plants did not show phenotypical changes. The capacity to synthesize ALA and chlorophyll was increased in transformed plants, indicating a contribution of ALA-S to the ALA supply for chlorophyll synthesis. ALA-S activity was detected in plastids of the transformants. Preliminary evidence is presented that succinyl CoA, the substrate for ALA-S, can be synthesized and metabolized in plastids. The transgenic plants formed chlorophyll in the presence of gabaculine, an inhibitor of GSA-AT. Steady-state RNA and protein levels and, consequently, the enzyme activity of GSA-AT were reduced in plants expressing ALA-S. In analogy to the light-dependent ALA synthesis attributed to feedback regulation, a mechanism at the level of intermediates or tetrapyrrole end-products is proposed, which co-ordinates the need for heme and chlorophyll precursors and restricts synthesis of ALA by regulating GSA-AT gene expression. The genetically engineered tobacco plants containing the yeast ALA-S activity demonstrate functional complementation of the catalytic activity of the plant ALA-synthesizing pathway and open strategies for producing tolerance against inhibitors of the C5 pathway.  相似文献   

10.
5-Aminolevulinic acid synthesis in Escherichia coli.   总被引:9,自引:11,他引:9       下载免费PDF全文
A hemA mutant of Escherichia coli containing a multicopy plasmid which complemented the mutation excreted 5-aminolevulinic acid (ALA) into the medium. [1-14C]glutamate was substantially incorporated into ALA by this strain, whereas [2-14C]glycine was not. Periodate degradation of labeled ALA showed that C-5 of ALA was derived from C-1 of glutamate. The synthesis of ALA by two sonicate fractions which had been processed by gel filtration and dialysis, respectively, was dependent on glutamate, ATP, NADPH, tRNA(Glu), and pyridoxal phosphate. tRNA(Glu) stimulated ALA synthesis in a concentration-dependent manner. Pretreatment with RNase reduced this stimulation. The amino acid sequence of the cloned insert, derived from the nucleotide sequence (J.-M. Li, C. S. Russell, and S. D. Cosloy, J. Cell Biol. 107:617a, 1988), showed no homology with any ALA synthase sequenced to date. These results suggest that E. coli synthesizes ALA by the C5 pathway from the intact five-carbon chain of glutamate.  相似文献   

11.
α-Hydroxypyridine methane sulphonic acid (HPMS), isonicotinyl hydrazide (INH) and nialamide inhibit chlorophyll synthesis in etiolated barley leaves exposed to light. HPMS lowered the rate of protochlorophyllide regeneration but had little effect on the synthesis of protochlorophyll (P630) from exogenous δ-aminolaevulinic acid (ALA). The addition of glycine to HPMS treated leaves partially overcame the inhibition of chlorophyll synthesis. Glycine-[14C] was readily incorporated into ALA in dark-grown leaves. HPMS treatment increased the sp. act. of ALA in leaves fed glycine-[14C]. Glycollate oxidation was lower in extracts from HPMS treated leaves. Plants may therefore have two pathways for ALA production with the glutamate pathway becoming more important in conditions where photorespiration is high.  相似文献   

12.
Hemin treatment of mouse Friend virus-transformed cells in cultured caused a dose-dependent increase in hemoglobin synthesis. By the addition of radioactively labeled hemin and by the analysis of the radioactive heme in hemoglobin, only 60 to 70% of heme in the newly synthesized hemoglobin was accounted for by the exogenously added hemin. In keeping with this finding, hemin treatment increased the activity of two enzymes in the heme biosynthetic activity, i.e. delta-aminolevulinate (ALA) dehydratase and uroporphyrinogen-I (URO) synthase in these cells. Incorporation of [2(-14C)]glycine, [14C]ALA, and 59Fe into heme was also significantly increased in the cells treated with hemin, suggesting that essentially all enzyme activities in the heme biosynethetic pathway were increased after hemin treatment. These results indicate that heme in the newly synthesized hemoglobin in hemin-treated Friend cells derives both from hemin added to the culture and from heme synthesized intracellularly. In addition, these results suggest that the stimulation of heme biosynthesis by hemin in Friend virus-transformed cells is in contrast to the hemin repression of heme biosynthesis in liver cells.  相似文献   

13.
Heme oxygenase has been considered to be involved in the predominant pathway of heme degradation in vivo. However, alternative pathways involving cytochrome P-450 reductase, and lipid peroxidation, have previously been demonstrated in vitro, and studies with cultured rat hepatocytes were interpreted to show a majority of endogenous hepatic heme breakdown by non-heme oxygenase pathways. To clarify the pathway of heme breakdown in hepatocytes and the role of heme oxygenase in this process, cultured hepatocytes were pre-labelled with 5-[5-14C]aminolevulinate [( 14C]ALA). Radioactivity in heme, carbon monoxide, and bile pigments was measured for 8-24 h after the removal of [14C]ALA. In cultured chick embryo hepatocytes, which lack biliverdin reductase, the rate of production of biliverdin IXa was closely similar to the rate of catabolism of exogenous heme and radioactivity in carbon monoxide and biliverdin IXa was similar to the loss of radioactivity from endogenous heme. These results support the conclusion that heme breakdown occurred predominantly, if not solely, by heme oxygenase. Also, no evidence of non-heme oxygenase pathways was found in the presence of tin protoporphyrin, an inhibitor of heme oxygenase or mephenytoin, an inducer of both cytochrome P-450 and heme oxygenase. Similarly, in untreated cultured rat hepatocytes, radioactivity in carbon monoxide corresponded with loss of radioactivity in endogenous heme. In other experiments with chick hepatocyte cultures, rates of heme synthesis and breakdown were measured, and data were fitted to various models of hepatic heme metabolism. The results observed were consistent only with models in which an appreciable fraction (control cells, 17%, mephenytoin treated cells, 41%) of the newly synthesized heme was degraded rapidly to biliverdin.  相似文献   

14.
Heme is an essential prosthetic group or substrate for many proteins, including hemoglobin, and hemo enzymes such as nitric oxide synthase, soluble guanylyl cyclase, and heme oxygenase (HO). HO is responsible for the breakdown of heme into equimolar amounts of biliverdin, iron, and carbon monoxide, the latter of which is thought to play a role in the regulation of vascular tone. It is not clear whether the source of heme for cardiovascular functions is derived from uptake from the extracellular milieu or synthesis. In this study, we tested the hypothesis that blood vessels obtain their supply of heme for HO through de novo synthesis. Adult male Sprague-Dawley rat aorta was incubated at 37 degrees C in Krebs' solution with 1 micro M [14C]delta-aminolevulinic acid (ALA). [14C]ALA uptake was linear for about 30 min and reached a plateau at approximately 100 min. The radioactivity was incorporated into porphyrins and heme as determined by esterification of 14C-labelled metabolites and thin-layer chromatography. The first and rate-limiting step of heme biosynthesis is catalyzed by ALA synthase (ALA-S), the activity of which was determined in rat aorta using a radiometric assay, approximately 250 nmol x (g wet mass)(-1) x h(-1). Inducing HO-1 in rat aorta with S-nitroso-N-acetylpenicillamine (500 micro M) did not increase ALA-S activity as compared with basal activity levels of the enzyme. It appears that there is a sufficient amount of heme available under basal ALA-S activity conditions to meet the increased demand for heme resulting from HO-1 induction. These observations indicate that the complete enzymatic pathway for de novo heme biosynthesis resides in rat aorta and furthermore indicate that de novo heme synthesis is capable of supplying a substantial portion of the heme substrate for HO in the aorta.  相似文献   

15.
The cyanobacterium (blue-green alga) Synechococcus 6301 incorporated a large amount of isotope from [1-14C] and [2-14C]acetate into phaeophorbide a obtained from chlorophyll a and into glutamatein cell protein; very little radioactivity was present in aspartate in cell protein. This distribution of isotope indicates that aspartate and the tetrapyrrole of chlorophyll a are not derived from a common C4, precursor. The ratios of the specific radioactivities of phaeophorbide a to glutamate for organisms grown in the presence of 1-14C] and [2-4C ] acetate were 2.5:1 and 10:1 respectively. These are close to the theoretical values for the C5, route to δ-aminolaevulinate which indicates that this is the only pathway to the tetrapyrrole precursor in Synechococcus 6301.  相似文献   

16.
Formation of the heme precursor δ-aminolevulinic acid (ALA) was studied in soybean root nodules elicited by Bradyrhizobium japonicum. Glutamate-dependent ALA formation activity by soybean (Glycine max) in nodules was maximal at pH 6.5 to 7.0 and at 55 to 60°C. A low level of the plant activity was detected in uninfected roots and was 50-fold greater in nodules from 17-day-old plants; this apparent stimulation correlated with increases in both plant and bacterial hemes in nodules compared with the respective asymbiotic cells. The glutamate-dependent ALA formation activity was greatest in nodules from 17-day-old plants and decreased by about one-half in those from 38-day-old plants. Unlike the eukaryotic ALA formation activity, B. japonicum ALA synthase activity was not significantly different in nodules than in cultured cells, and the symbiotic activity was independent of nodule age. The lack of symbiotic induction of B. japonicum ALA synthase indicates either that ALA formation is not rate-limiting, or that ALA synthase is not the only source of ALA for bacterial heme synthesis in nodules. Plant cytosol from nodules catalyzed the formation of radiolabeled ALA from U-[14C]glutamate and 3,4-[3H]glutamate but not from 1-[14C]glutamate, and thus, operation of the C5 pathway could not be confirmed.  相似文献   

17.
The 13C NMR spectra of the pheophorbide of bacteriochlorophyll c, formed in the presence of L-[1-13C]glutamate and [2-13C]glycine and [13C]bicarbonate in Prosthecochloris aestaurii, were analysed. The isotope in the glutamate was specifically incorporated into the eight carbon atoms in the tetrapyrrole macrocycle derived from the C-5 of 5-aminolevulinic acid, while no specific enrichment of these eight carbon atoms was observed in the spectrum of the pigment formed in the presence of [2-13C]glycine. These labelling patterns provide evidence for the operation of the C5 pathway of 5-aminolevulinic acid synthesis for bacteriochlorophyll c formation in the bacterium. The labelling of bacteriochlorophyll c by [13C]bicarbonate is consistent with its formation from 5-[1,4,5-13C]aminolevulinic acid formed by the C5 pathway from [1,2,5-13C]glutamic acid. It is proposed that this glutamate is the transamination product of 2-[1,2,5-13C]oxoglutaric acid, arising by carboxylation of [1,4-13C]succinyl-CoA with 13CO2 catalysed by 2-oxoglutaric acid synthase activity, and that the labelled succinyl-CoA is, in turn, derived by the fixation of 13CO2 by the reductive tricarboxylic acid cycle. The 13C chemical shifts of two sp2 quaternary carbons of bacteriopheophorbide c methyl ester (C-2 and C-4) were reassigned.  相似文献   

18.
《Plant science》1986,45(1):9-17
Euglena gracilis is capable of forming the heme and chlorophyll precursor δ-aminolevulinic acid (ALA) by two routes: from glutamate via the five-carbon path in the chloroplasts, and by ALA synthase-mediated condensation of succinyl-CoA and glycine, probably in the mitochondrion. 5-Amino-1,3-cyclohexadienyl carboxylic acid (gabaculine), a powerful inhibitor of ALA formation via the five-carbon path, was administered to E. gracilis Klebs strain Z Pringsheim cells growing in the light or dark, and its effects on growth, chlorophyll accumulation and extractable ALA synthase activity were measured. Gabaculine had no effect in vitro on ALA synthase or ALA dehydratase, even at 100 μM. Administration of 100 μM gabaculine to wild-type cells growing in the light slowed growth, inhibited chlorophyll accumulation, and induced an increase in extractable ALA synthase activity. Chlorophyll accumulation in the light was abolished by prior administration of the compound to growing cells for 6 h in the dark, whereas chlorophyll accumulation in cells without gabaculine began immediately after transfer to light. Extractable ALA synthase activity from gabaculine-pretreated dark-grown cells was initially lower than the activity from untreated cells, but it did not undergo a further decline after transfer of the cells to the light, whereas the activity from untreated cells dropped to less than one eighth the dark level after 2 h in the light, and by 4 h had fallen to a level five times lower than that extractable from gabaculine-treated cells. These results suggest that suppression of ALA synthase activity by light in untreated cells is related to light-induced activation of the five-carbon ALA biosynthetic pathway in the plastids, and may result from a contribution by a product of the five-carbon pathway to non-plastid tetrapyrrole pools in the light.  相似文献   

19.
δ-Aminolevulinic acid (ALA), a key precursor of the tetrapyrroles heme and chlorophyll, is capable of being synthesized by two different routes in cells of the unicellular green alga Euglena gracilis: from the intact carbon skeleton of glutamate, and via the condensation of glycine and succinyl CoA, mediated by the enzyme ALA synthase. The regulatory properties of ALA synthase were examined in order to establish its role in Euglena.

Partially purified Euglena ALA synthase, unlike the case with the bacterial or animal-derived enzyme, does not exhibit allosteric inhibition by the tetrapyrrole pathway products heme, protoporphyrin IX, and porphobilinogen, at concentrations up to 100 micromolar.

In aplastidic mutant cells, extractable ALA synthase activity is constant during exponential growth, and decreases to low levels as the cells reach the stationary state. Rapid exponential decline of ALA synthase (t1/2 = 55 min) occurs after administration of 43 micromolar cycloheximide, but not 6.2 millimolar chloramphenicol. These results suggest that, as in other eukaryotic cells, ALA synthase is synthesized on cytoplasmic ribosomes and is subject to rapid turnover in vivo.

Extractable ALA synthase activity increases 2.5-fold within 6 hours after administration of 100 millimolar ethanol, a stimulator of mitochondrial development, and 4.5-fold within 12 hours after administration of 1 millimolar 4,6-dioxoheptanoic acid, which blocks ALA utilization, suggesting that activity is controlled in vivo by a feedback induction-repression mechanism, coupled with rapid enzyme turnover.

In heterotrophically grown wild-type cells, low levels of ALA synthase rapidly increase 4.5-fold within 12 hours after cells are transferred from the light to the dark, and decrease exponentially (t1/2 = 75 min) when cells are transferred from the dark to light. The dark levels are equal to those in light- or dark-grown aplastidic mutant cells. The low level occurring in light-grown wild-type cells is not altered by the presence of 10 micromolar 3-(3,4-dichlorophenyl)-1,1-dimethylurea, which blocks photosynthetic O2 production. The decrease that occurs on dark-to-light transfer can be diminished by 12- or 24-hour prior incubation with 6.2 millimolar chloramphenicol, which also retards chlorophyll synthesis after the transfer to light.

The positive relationship of ALA synthase activity to degree of mitochondrial expression, and the inverse relationship to plastid development and chlorophyll synthesis, suggests that ALA synthase functions to provide precursors to nonplastid tetrapyrroles in Euglena. In light-grown, wild-type cells, the diminished levels of ALA synthase may be due to the ability of developing plastids to export heme or a heme precursor to other cellular regions, which thereby supplants the necessity for ALA formation via the ALA synthase route.

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20.
Isolated ganglia from Aplysia californica rapidly took up [14C]glycine or [14C]aspartate from a sea-water medium. Approximately 20% of the tissue radioactivity was recovered in the peptides beta-aspartylglycine and glutathione after incubation with [14C]glycine. Compared with other individual cells isolated from the abdominal ganglion, the glycine-containing white cells (R3-R14) incorporated less [14C]glycine into beta-aspartylglycine, but similar amounts into glutathione. In contrast, [14C]aspartate was metabolized primarily to nonamino dicarboxylic acids and relatively little radioactivity was incorporated into beta-aspartylglycine.  相似文献   

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