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Query: EC:6.3.5.5 (
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1,262
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The early enzymes of arginine biosynthesis in Neurospora crassa are localized in the mitochondrion and catalyze the conversion of glutamate to citrulline. The final conversion of citrulline to arginine occurs via two enzymatic steps in the cytoplasm. We have devised a method for the isolation and purification of three of the mitochondrial arginine biosynthetic enzymes from a single extract. Acetylglutamate kinase and acetylglutamyl-phosphate reductase (both products of the complex arg-6 locus) were purified to homogeneity and near homogeneity, respectively. The large catalytic subunit of
carbamoyl-phosphate synthetase
was also purified to homogeneity. The three enzymes were resolved into separate fractions by chromatography on three dye-ligand affinity resins, which are specific for nucleotide binding enzymes and have a high protein binding capacity. High performance liquid chromatography was employed in the final stages of purification and was extremely effective in fractionating both
acetylglutamate kinase
and acetylglutamyl-phosphate reductase from proteins with very similar properties, which were not removed by other techniques. The purified proteins were used to raise specific antisera against these proteins. Acetylglutamate kinase and acetylglutamyl-phosphate reductase were shown to be immunologically unrelated. This finding suggests that the arg-6 locus encompasses two nonoverlapping cistrons. The antisera raised against
carbamoyl-phosphate synthetase
has been shown to cross-react with related enzymes in Saccharomyces cerevisiae, Escherichia coli, and rat liver (Ness, S. A., and Weiss, R. L. (1985) J. Biol. Chem. 260, 14355-14362). Acetylglutamate kinase is a regulatory enzyme and has been shown to be feedback-inhibited by arginine. We have determined the submitochondrial localization of
acetylglutamate kinase
and the second arg-6 product, acetylglutamyl-phosphate reductase. Both enzymes were shown to be soluble matrix enzymes. We discuss the relevance of this finding with respect to possible mechanisms for end product inhibition of a mitochondrial enzyme by a cytoplasmic effector.
...
PMID:Simultaneous purification of three mitochondrial enzymes. Acetylglutamate kinase, acetylglutamyl-phosphate reductase and carbamoyl-phosphate synthetase from Neurospora crassa. 242 Jul 93
UMP kinase (UMPK), the enzyme responsible for microbial UMP phosphorylation, plays a key role in pyrimidine nucleotide biosynthesis, regulating this process via feed-back control and via gene repression of
carbamoyl phosphate synthetase
(the first enzyme of the pyrimidine biosynthesis pathway). We present crystal structures of Pyrococcus furiosus UMPK, free or complexed with AMPPNP or AMPPNP and UMP, at 2.4 A, 3 A and 2.55 A resolution, respectively, providing a true snapshot of the catalytically competent bisubstrate complex. The structure proves that UMPK does not resemble other nucleoside monophosphate kinases, including the UMP/CMP kinase found in animals, and thus UMPK may be a potential antimicrobial target. This enzyme has a homohexameric architecture centred around a hollow nucleus, and is organized as a trimer of dimers. The UMPK polypeptide exhibits the amino acid kinase family (AAKF) fold that has been reported in carbamate kinase and
acetylglutamate kinase
. Comparison with
acetylglutamate kinase
reveals that the substrates bind within each subunit at equivalent, adequately adapted sites. The UMPK structure contains two bound Mg ions, of which one helps stabilize the transition state, thus having the same catalytic role as one lysine residue found in
acetylglutamate kinase
, which is missing from P.furiosus UMPK. Relative to carbamate kinase and
acetylglutamate kinase
, UMPK presents a radically different dimer architecture, lacking the characteristic 16-stranded beta-sheet backbone that was considered a signature of AAKF enzymes. Its hexameric architecture, also a novel trait, results from equatorial contacts between the A and B subunits of adjacent dimers combined with polar contacts between A or B subunits, and may be required for the UMPK regulatory functions, such as gene regulation, proposed here to be mediated by hexamer-hexamer interactions with the DNA-binding protein PepA.
...
PMID:The crystal structure of Pyrococcus furiosus UMP kinase provides insight into catalysis and regulation in microbial pyrimidine nucleotide biosynthesis. 1609 20
Agrobacterium tumefaciens-mediated transformation (ATMT) was used for random insertional mutagenesis to identify pathogenicity genes in the hemibiotrophic fungus Colletotrichum higginsianum. A high-throughput primary infection assay on Arabidopsis thaliana seedlings allowed the rapid screening of 8,850 transformants. Forty mutants showing reproducible pathogenicity defects on Arabidopsis and Brassica plants were obtained, and their infection phenotypes were characterized microscopically. Six mutants were impaired in appressorial melanization, fifteen had reduced penetration ability, 14 induced host papillae or hypersensitive cell death, and five were affected in the transition from biotrophy to necrotrophy. Southern blot analysis showed 58% of the transformants had single-site T-DNA integrations. Right-border flanking sequences were recovered from 12 mutants by inverse polymerase chain reaction (PCR) or thermal asymmetric interlaced PCR and were used to isolate the tagged genes from a genomic library. The putative pathogenicity genes encoded homologs of a major facilitator superfamily phosphate transporter, importin-beta2, ornithine decarboxylase, beta-1,3(4)-glucanase, ATP-binding endoribonuclease,
carbamoyl-phosphate synthetase
, and the polyprotein precursor of
N-acetylglutamate kinase
and N-acetylglutamyl-phosphate reductase. Six further loci were homologous to proteins of unknown function. None of these genes were previously implicated in the pathogenicity of any Colletotrichum species. The results demonstrate that ATMT is an effective tool for gene discovery in this model pathogen.
...
PMID:Discovery of pathogenicity genes in the crucifer anthracnose fungus Colletotrichum higginsianum, using random insertional mutagenesis. 1913 67
