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1.
The enzyme 5-enolpyruvylshikimate-3-phosphate (EPSP) synthase (EC 2.5.1.19), the target of the herbicide glyphosate [N-(phosphonomethyl)glycine], exists in two molecular forms in Euglena gracilis. One form has previously been characterized as a monofunctional 59 kDa protein. The other form constitutes a single domain of the multifunctional 165 kDa arom protein. The two enzyme forms are inversely regulated at the protein and mRNA levels during light-induced chloroplast development, as demonstrated by the determination of their enzyme activities after non-denaturing polyacrylamide gel electrophoresis and Northern hybridization analysis with a Saccharomyces cerevisiae ARO1 gene probe. The arom protein and its mRNA predominate in dark-grown cells, and the levels of both decline upon illumination. In contrast, the monofunctional EPSP synthase and its mRNA are induced by light, the increase in mRNA abundance preceding accumulation of the protein. The two enzymes are localized in different subcellular compartments, as demonstrated by comparing total protein patterns with those of isolated organelles. Glyphosate-adapted wild-type cells and glyphosate-tolerant cells of a plastid-free mutant of E. gracilis, W10BSmL, were used for organelle isolation and protein extraction, as these cell lines overproduce EPSP synthase and the arom protein, respectively. Evidence was obtained for the cytosolic localization of the arom protein and the plastid compartmentalization of the monofunctional EPSP synthase. These conclusions are further supported by the observation that EPSP synthase precursor, produced by in vitro translation of the hybrid-selected mRNA, was efficiently taken up and processed to mature size by isolated chloroplasts from photoautotrophic wild-type E. gracilis cells, while the in vitro-synthesized arom protein was not sequestered by isolated Euglena plastids.Dedicated to Prof. Dr. A. Trebst on the occasion of his 65th birthday  相似文献   

2.
3.
The pentafunctional AROM protein in Aspergillus nidulans and other fungi catalyses five consecutive enzymatic steps leading to the production of 5-enolpyruvylshikimate 3-phosphate (EPSP) in the shikimate pathway. The AROM protein has five separate enzymatic domains that have previously been shown to display a range of abilities to fold and function in isolation as monofunctional enzymes. In this communication, we report (1) the stable overproduction of a bifunctional protein containing the 3-dehydroquinate (DHQ) synthase and EPSP synthase activities in Escherichia coli to around 10% of the total cell protein; (2) that both the DHQ synthase and EPSP synthase activities in the over-produced fragment are enzymatically active as judged by their ability to complement aroA and aroB mutants of E. coli; (3) that the EPSP synthase domain is only enzymatically active when covalently attached to the DHQ synthase domain (the cis arrangement). When DHQ synthase and EPSP synthase are produced concomitantly by transcribing sequences encoding the individual domains from separate plasmids in the same bacterial cell (the trans arrangement) no overproduction or enzyme activity can be detected for the EPSP synthase domain; (4) the EPSP synthase domain can be stably overproduced as a fusion protein with glutathione S-transferase (GST), however the EPSP synthase in this instance is enzymatically inactive; (5) a protein containing an enzymatically inactive DHQ synthase domain in the cis arrangement with EPSP synthase domain is stably overproduced with enzymatically active EPSP synthase; (6) the two C-terminal domains of the AROM protein specifying the 3-dehydroquinase and shikimate dehydrogenase domains can be overproduced in A. nidulans using a specially constructed expression vector. This same bi-domain fragment however is not produced in E. coli when identical coding sequences are transcribed from a prokaryotic expression vector. These data support the view that multifunctional/multidomain proteins do not solely consist of independent units covalently linked together, but rather that certain individual domains interact to varying degrees to stabilise enzyme activity.  相似文献   

4.
5.
The pentafunctional AROM protein in Aspergillus nidulans and other fungi catalyses five consecutive enzymatic steps leading to the production of 5-enolpyruvylshikimate 3-phosphate (EPSP) in the shikimate pathway. The AROM protein has five separate enzymatic domains that have previously been shown to display a range of abilities to fold and function in isolation as monofunctional enzymes. In this communication, we report (1) the stable overproduction of a bifunctional protein containing the 3-dehydroquinate (DHQ) synthase and EPSP synthase activities in Escherichia coli to around 10% of the total cell protein; (2) that both the DHQ synthase and EPSP synthase activities in the over-produced fragment are enzymatically active as judged by their ability to complement aroA and aroB mutants of E. coli; (3) that the EPSP synthase domain is only enzymatically active when covalently attached to the DHQ synthase domain (the cis arrangement). When DHQ synthase and EPSP synthase are produced concomitantly by transcribing sequences encoding the individual domains from separate plasmids in the same bacterial cell (the trans arrangement) no overproduction or enzyme activity can be detected for the EPSP synthase domain; (4) the EPSP synthase domain can be stably overproduced as a fusion protein with glutathione S-transferase (GST), however the EPSP synthase in this instance is enzymatically inactive; (5) a protein containing an enzymatically inactive DHQ synthase domain in the cis arrangement with EPSP synthase domain is stably overproduced with enzymatically active EPSP synthase; (6) the two C-terminal domains of the AROM protein specifying the 3-dehydroquinase and shikimate dehydrogenase domains can be overproduced in A. nidulans using a specially constructed expression vector. This same bi-domain fragment however is not produced in E. coli when identical coding sequences are transcribed from a prokaryotic expression vector. These data support the view that multifunctional/multidomain proteins do not solely consist of independent units covalently linked together, but rather that certain individual domains interact to varying degrees to stabilise enzyme activity.  相似文献   

6.
《Process Biochemistry》2007,42(4):592-598
The Pseudomonas aeruginosa aroA gene encodes an enzyme called 5-enol-pyruvylshikimate-3-phosphate (EPSP) synthase, which has been shown as the primary target of the herbicide glyphosate. We have cloned this gene and constructed a system for the high level expression of a recombinant form of this enzyme by amplifying the aroA gene from the P. aeruginosa genomic DNA and subcloning into a vector suitable for expression in Escherichia coli. The resulting plasmid, pTrcPA, produced the EPSP synthase in large quantities which has been purified to homogeneity. Furthermore, the site-directed mutants of P. aeruginosa ESPS synthase have been constructed in order to compare in vitro glyphosate sensitivity between the wild-type and the mutant enzymes. The kcat and Km values for substrates in both forward and reverse reactions were obtained from both wild-type and mutant EPSP synthases.  相似文献   

7.
5-Enolpyruvylshikimate-3-phosphate (EPSP) synthase (3-phospho-shikimate 1-carboxyvinyltransferase; EC 2.5.1.19) was purified 1300-fold from etiolated shoots of Sorghum bicolor (L.) Moench. Native polyacrylamide gel electrophoresis revealed three barely separated protein bands staining positive for EPSP synthase activity. The native molecular weight was determined to be 51,000. Enzyme activity was found to be sensitive to metal ions and salts. Apparent Km values of 7 and 8 micromolar were determined for the substrates shikimate-3-phosphate and phosphoenolpyruvate (PEP), respectively. The herbicide glyphosate was found to inhibit the enzyme competitively with respect to PEP (Ki = 0.16 micromolar). Characterization studies support the conclusion of a high degree of similarity between EPSP synthase from S. bicolor, a monocot, and the enzyme from dicots. A similarity to bacterial EPSP synthase is also discussed. Three EPSP synthase isozymes (I, II, III) were elucidated in crude homogenates of S. bicolor shoots by high performance liquid chromatography. The major isozymes, II and III, were separated and partially characterized. No significant differences in pH activity profiles and glyphosate sensitivity were found. This report of isozymes of EPSP synthase from S. bicolor is consistent with other reports for shikimate pathway enzymes, including EPSP synthase.  相似文献   

8.
C. C. Smart  N. Amrhein 《Planta》1987,170(1):1-6
Recently we have shown that cultured cells of the higher plant Corydalis sempervirens Pers., adapted to growth in the presence of high concentrations of the herbicide glyphosate, a potent specific inhibitor of the shikimate pathway enzyme 5-enolpyruvylshikimic acid 3-phosphate (EPSP) synthase (EC 2.5.1.19, 3-phosphoshikimate 1-carboxyvinyltransferase) oversynthesize the EPSP synthase protein (Smart et al., 1985, J. Biol. Chem. 260, 16338–16346). We now report that the EPSP synthase protein can be detected in cells of the adapted as well as of the non-adapted strain by the use of protein A-colloidal gold immunocytochemistry. The overproduced EPSP synthase in the glyphosate-adapted cells is located exclusively in the plastid and we find no evidence for the existence of extra-plastidic EPSP synthase in either strain.Abbreviations EPSP 5-enolpyruvylshikimic acid 3-phosphate  相似文献   

9.
Chorismate synthase was purified 1200-fold from Euglena gracilis. The molecular mass of the native enzyme is in the range of 110 to 138 kilodaltons as judged by gel filtration. The molecular mass of the subunit was determined to be 41.7 kilodaltons by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Purified chorismate synthase is associated with an NADPH-dependent flavin mononucleotide reductase that provides in vivo the reduced flavin necessary for catalytic activity. In vitro, flavin reduction can be mediated by either dithionite or light. The enzyme obtained from E. gracilis was compared with chorismate synthases purified from a higher plant (Corydalis sempervirens), a bacterium (Escherichia coli), and a fungus (Neurospora crassa). These four chorismate synthases were found to be very similar in terms of cofactor specificity, kinetic properties, isoelectric points, and pH optima. All four enzymes react with polyclonal antisera directed against chorismate synthases from C. sempervirens and E. coli. The closely associated flavin mononucleotide reductase that is present in chorismate synthase preparations from E. gracilis and N. crassa is the main difference between those synthases and the monofunctional enzymes from C. sempervirens and E. coli.  相似文献   

10.
Plasmodium falciparum, the causative agent of human malaria, is totally dependent on de novo pyrimidine biosynthetic pathway. A gene encoding P. falciparum dihydroorotase (pfDHOase) was cloned and expressed in Escherichia coli as monofunctional enzyme. PfDHOase revealed a molecular mass of 42 kDa. In gel filtration chromatography, the major enzyme activity eluted at 40 kDa, indicating that it functions in a monomeric form. This was similarly observed using the native enzyme purified from P. falciparum. Interestingly, kinetic parameters of the enzyme and inhibitory effect by orotate and its 5-substituted derivatives parallel that found in mammalian type I DHOase. Thus, the malarial enzyme shares characteristics of both type I and type II DHOases. This study provides the monofunctional property of the parasite DHOase lending further insights into its differences from the human enzyme which forms part of a multifunctional protein.  相似文献   

11.
12.
A proteolytic activity isolated from Neurospora crassa is shown to be responsible for the variable stability observed in vitro for enzymes involved in aromatic amino acid metabolism. For example, the activity of kynurenine formamidase was insensitive to the action of this protease preparation over a 24-h period of incubation at 25 °C, whereas chorismate synthase, anthranilate synthase, kynureninase, and the five activities of the arom multienzyme system were inactivated during this time. Anthranilate synthase and two of the arom system activities (dehydroquinate synthase and shikimate kinase) were inactivated by the protease preparation within 2 h. Phenylmethanesulfonylfluoride and a specific proteolytic inhibitor from N. crassa prevented inactivation of these enzymes. Spontaneous loss of activity at 25 °C of purified samples of anthranilate synthase, dehydroquinate synthase and shikimate kinase was also prevented by the inhibitors. A method for purifying the inhibitor from N. crassa is described, and its use as a reagent in the analysis of proteolytic action is demonstrated.  相似文献   

13.
We have cloned the first bifunctional gene dihydrofolate reductase-thymidylate synthase (DHFR-TS) from a free-living, ciliated protozoan,Paramecium tetraurelia, and determined its macronuclear sequence using a modified ligation-mediated polymerase chain reaction (PCR) that can be of general use in cloning strategies, especially where cDNA libraries are limiting. While bifunctional enzyme sequences are known from parasitic protozoa, none had previously been found in free-living protozoa. The AT-rich (68%) coding region spanning 1386 bp appears to lack introns. DHFR-TS localizes to a ≈500 kb macronuclear chromosome and is transcribed as an mRNA of ≈1.66 kb, predicted to encode a 53 kDa protein of 462 residues. The N-terminal one-third of the protein is encoded by DHFR, which is joined by a short junctional peptide of ≈12 amino acids to the highly conserved C-terminal TS domain. Among known DHFR-TS sequences, theP. tetraurelia gene is most similar to that fromToxoplasma gondii, based on primary sequence and parsimony analyses. The predicted secondary protein structure is similar to those of previously crystallized monofunctional sequences.  相似文献   

14.
Flavanone synthase was isolated and purified ca 62-fold from cell suspension cultures of Haplopappus gracilis. The enzyme preparation catalysed the formation of naringenin from 4-coumaryl-CoA and malonyl-CoA with a pH optimum of ca 8. The same enzyme was also capable of synthesizing eriodictyol from caffeyl-CoA and malonyl-CoA; in this case the pH optimum lay between 6.5 and 7. The homogeneous flavanone synthase from cell suspension cultures of parsley showed the same dependence of the pH optimum on the nature of the cinnamyl-CoA. It can be concluded that both naringenin and eriodictyol are natural products of the synthase reaction.  相似文献   

15.
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.

  相似文献   

16.
Treatment of isogenic suspension-cultured cells of Nicotiana silvestris Speg. et Comes with glyphosate (N-[phosphonomethyl]glycine) led to elevated levels of intracellular shikimate (364-fold increase by 1.0 millimolar glyphosate). In the presence of glyphosate, it is likely that most molecules of shikimate originate from the action of 3-deoxy-d-arabino-heptulosonate 7-phosphate (DAHP) synthase-Mn since this isozyme, in contrast to the DAHP synthase-Co isozyme, is insensitive to inhibition by glyphosate. 5-Enolpyruvylshikimate 3-phosphate (EPSP) synthase (EC 2.5.1.19) from N. silvestris was sensitive to micromolar concentrations of glyphosate and possessed a single inhibitor binding site. Rigorous kinetic studies of EPSP synthase required resolution from the multiple phosphatase activities present in crude extracts, a result achieved by ion-exchange column chromatography. Although EPSP synthase exhibited a broad pH profile (50% of maximal activity between pH 6.2 and 8.5), sensitivity to glyphosate increased dramatically with increasing pH within this range. In accordance with these data and the pKa values of glyphosate, it is likely that the ionic form of glyphosate inhibiting EPSP synthase is COOCH2NH2+CH2PO32−, and that a completely ionized phosphono group is essential for inhibition. At pH 7.0, inhibition was competitive with respect to phosphoenolpyruvate (Ki = 1.25 micromolar) and uncompetitive with respect to shikimate-3-P (Ki′ = 18.3 micromolar). All data were consistent with a mechanism of inhibition in which glyphosate competes with PEP for binding to an [enzyme:shikimate-3-P] complex and ultimately forms the dead-end complex of [enzyme:shikimate-3-P:glyphosate].  相似文献   

17.
18.
Cell cultures of Corydalis sempervirens adapted to growth in the presence of 5 millimolar glyphosate overproduce the herbicide's target enzyme, 5-enolpyruvylshikimate 3-phosphate (EPSP) synthase, 30- to 40-fold. In vitro translation of total RNA and poly(A)-RNA coupled with immunoprecipitation showed that the protein is synthesized as a precursor of relative molecular weight (Mr) 53900 ± 900 as compared to Mr 45500 ± 1000 of the mature enzyme. Translatable activity of mRNA for EPSP-synthase in glyphosate-adapted cultures is tenfold higher than in nonadapted cultures.  相似文献   

19.
Only UV light below 345 nm stimulates anthocyanin formation in dark grown cell suspension cultures of Haplopappus gracilis. A linear relationship between UV dose and flavonoid accumulation, as found previously with parsley cell cultures, was not observed with the H. gracilis cells. Only continuous irradiation with high doses of UV was effective. Drastic increases in the activities of the enzymes phenylalanine ammonia-lyase, chalcone isomerase and flavanone synthase were observed under continuous UV light. The increase in enzyme activities paralleled anthocyanin formation.  相似文献   

20.
1-Aminocyclopropane-l-carboxylate (ACC) synthase from applefruits was purified over 5,000-fold by conventional column chromatography.By immunizing mice with this partially purified enzyme preparation,8 hybridoma lines producing monoclonal antibodies against appleACC synthase were isolated. While all 8 clones immunoprecipitatednative ACC synthase, only two clones recognized the putative(48 kDa) ACC synthase on Western blots. When a partially purifiedACC synthase preparation was incubated with S-adenosyl-L-[carboxyl-14C]methionine(AdoMet), only one radioactive protein of 48 kDa was detectedon sodium dodecyl sulfate-poly-acrylamide gel electrophoresis.This radioactive protein was specifically immunoprecipitatedby the monoclonal antibodies, indicating that apple ACC synthaseis specifically radiolabeled by its substrate AdoMet, as istomato ACC synthase. Thus, the monoclonal antibodies recognizedboth native and AdoMet-inactivated forms of ACC synthase. Whilethese antibodies failed to im-munoprecipitate ACC synthase isolatedfrom ripe tomato fruits, ripe avocado fruits or auxin-treatedmungbean hypocotyls, they were effective in immunoprecipitatingthe enzyme isolated from ripe pear fruits. (Received August 11, 1990; Accepted October 17, 1990)  相似文献   

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