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Query: EC:6.3.4.6 (
urease
)
7,490
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
urease
from the ascomycetous fission yeast Schizosaccharomyces pombe was purified about 4000-fold (34% yield) to homogeneity by acetone precipitation, ammonium sulfate precipitation, DEAE-Sepharose ion-exchange column chromatography, and if required, Mono-Q ion-exchange fast protein liquid chromatography. The enzyme was intracellular and only one species of
urease
was detected by nondenaturing polyacrylamide gel electrophoresis (PAGE). The native enzyme had a M(r) of 212 kDa (Sepharose CL6B-200 gel filtration) and a single subunit was detected with a M(r) of 102 kDa (PAGE with sodium dodecyl sulfate). The subunit stoichiometry was not specifically determined, but the molecular mass estimations indicate that the undissociated enzyme may be a dimer of identical subunits. The specific activity was 700-800 micromols urea.min-1.mg protein-1, the optimum pH for activity was 8.0, and the Km for urea was 1.03 mM. The sequence of the amino terminus was Met-Gln-Pro-Arg-Glu-Leu-His-Lys-Leu-Thr-Leu-His-Gln-Leu-
Gly
-Ser-Leu-Ala and the sequence of two tryptic peptides of the enzyme were Phe-Ile-Glu-Thr-Asn-Glu-Lys and Leu-Tyr-Ala-Pro-Glu-Asn-Ser-Pro-Gly-Phe-Val-Glu-Val-Leu-Glu-
Gly
-Glu-Ile- Glu- Leu-Leu-Pro-Asn-Leu-Pro. The N-terminal sequence and physical and kinetic properties indicated that S. pombe
urease
was more like the plant enzymes than the bacterial ureases.
...
PMID:Purification and characterization of urease from schizosaccharomyces pombe. 874 56
Arginase (EC 3.5.3.1) transcript level and activity were measured in soybean (
Glycine
max L.) embryos from the reserve deposition stage to postgermination. Using a cDNA probe for a small soybean arginase gene family, no transcript was detected in developing embryos. However, arginase transcripts increased sharply on germination, reaching a maximum at 3 to 5 d after germination. There was low but measurable in vitro arginase specific activity in developing embryos (less than 6% of seedling maximum). During germination arginase specific activity increased in parallel with the sharply increasing arginase transcript level. Seedling arginase activity was largely localized in cotyledons. Arginase activity was assayed in vivo by measuring urea accumulation in a
urease
-deficient mutant. No urea was detected in developing embryos, whereas accumulated urea paralleled arginase specific activity and transcript level in germinating seedlings. As in planta embryos, cultured cotyledons did not accumulate urea when arginine (Arg) was provided with other amino acids in a "mock" seed-coat exudate. Arg as the sole nitrogen source was converted to urea but did not support cotyledon growth. There appeared to be a lack of recruitment of the low-level arginase activity to hydrolyze free Arg in developing embryos, thus avoiding a futile urea cycle.
...
PMID:Arginase is inoperative in developing soybean embryos. 988 Mar 72
The hypothesis that soybean (
Glycine
max L. [Merrill]) catabolizes ureides to urea to a physiologically significant extent was tested and rejected. Urease-negative (eu3-e1/eu3-e1) plants were supported by fixed N2 or by 2 mM NH4NO3, so that xylem-borne nitrogen contained predominantly ureides (allantoin and allantoic acid) or amide amino acids, respectively. Seed nitrogen yield was equal on either nitrogen regime, although 35-d-old fixing plants accumulated about 6 times more leaf urea. In callus, lack of an active
urease
reduced growth on either arginine or allantoin as the sole nitrogen source, but the reduction was greater on arginine (73%) than on allantoin (39%). Furthermore,
urease
-negative cells accumulated 17 times more urea than
urease
-positive cells on arginine; for allantoin the ratio was 1.8. Urease-negative callus accumulated urea at 3% the rate of seedlings. To test whether urea accumulating in
urease
-negative seedlings was derived from ureides, seeds were first allowed to imbibe in 1 mM allopurinol, an inhibitor of ureide formation. Seedling ureides were decreased by 90%, but urea levels were unchanged. Thus, ureides are poor precursors of urea, which was confirmed in seedlings that converted no more than 5% of seed-absorbed [14C-ureido]allantoate to [14C]urea, whereas 40 to 70% of [14C-guanido]arginine was recovered as [14C]urea.
...
PMID:Urease Is Not Essential for Ureide Degradation in Soybean. 1222 87
Plant orthologs of the bacterial
urease
accessory genes ureD and ureF, which are required for the insertion of the nickel ion at the active site, have been isolated from soybean (
Glycine
max L. Merr.), tomato ( Lycopersicon esculentum) and Arabidopsis thaliana. The functionality of soybean UreD and UreF was tested by measuring their ability to complement
urease
-negative mutants of Schizosaccharomyces pombe, a eukaryote which produces a "plant-like"
urease
of ~90 kDa. The S. pombe ure4 mutant was complemented by a 12-kb fragment of S. pombe genomic DNA, which was shown by PCR to contain a putative ureD gene. However, ure4 was not complemented by a UreD cDNA soybean, expressed under the control of a strong promoter. In contrast, an S. pombe ure3 mutation was complemented by both a 10-kb fragment of S. pombe DNA containing ureF and the UreF cDNA from soybean. Soybean Eu2 is a candidate
urease
accessory gene; its product cooperates with the Eu3 protein in activating apourease in vitro. However, the sequences of UreD and UreF transcripts from two eu2/eu2 mutants, recovered as RT-PCR products, revealed no mutational alteration, suggesting that Eu2 encodes neither UreD nor UreF.
...
PMID:Activation of the urease of Schizosaccharomyces pombe by the UreF accessory protein from soybean. 1247 50
Soybean (
Glycine
max [L.] Merrill) mutant aj6 carries a single recessive lesion, aj6, that eliminates ubiquitous
urease
activity in leaves and callus while retaining normal embryo-specific
urease
activity. Consistently, aj6/aj6 plants accumulated urea in leaves. In crosses of aj6/aj6 by
urease
mutants at the Eu1, Eu2, and Eu3 loci, F(1) individuals exhibited wild-type leaf
urease
activity, and the F(2) segregated
urease
-negative individuals, demonstrating that aj6 is not an allele at these loci. F(2) of aj6/aj6 crossed with a null mutant lacking the Eu1-encoded embryo-specific
urease
showed that ubiquitous
urease
was also inactive in seeds of aj6/aj6. The cross of aj6/aj6 to eu4/eu4, a mutant previously assigned to the ubiquitous
urease
structural gene (R.S. Torisky, J.D. Griffin, R.L. Yenofsky, J.C. Polacco [1994] Mol Gen Genet 242: 404-414), yielded an F(1) having 22% +/- 11% of wild-type leaf
urease
activity. Coding sequences for ubiquitous
urease
were cloned by reverse transcriptase-polymerase chain reaction from wild-type, aj6/aj6, and eu4/eu4 leaf RNA. The ubiquitous
urease
had an 837-amino acid open reading frame (ORF), 87% identical to the embryo-specific
urease
. The aj6/aj6 ORF showed an R201C change that cosegregated with the lack of leaf
urease
activity in a cross against a
urease
-positive line, whereas the eu4/eu4 ORF showed a G468E change. Heteroallelic interaction in F(2) progeny of aj6/aj6 x eu4/eu4 resulted in partially restored leaf
urease
activity. These results confirm that aj6/aj6 and eu4/eu4 are mutants affected in the ubiquitous
urease
structural gene. They also indicate that radical amino acid changes in distinct domains can be partially compensated in the
urease
heterotrimer.
...
PMID:Interallelic complementation at the ubiquitous urease coding locus of soybean. 1291 38
Urease activation is critical to the virulence of many human and animal pathogens. Urease possesses multiple, nickel-containing active sites, and UreE, the only nickel-binding protein among the
urease
accessory proteins, activates
urease
by transporting nickel ions. We performed NMR experiments to investigate the solution structure and the nickel-binding properties of Bacillus pasteurii (Bp) UreE. The secondary structures and global folds of BpUreE were determined for its metal-free and nickel-bound forms. The results indicated that no major structural change of BpUreE arises from the nickel binding. In addition to the previously identified nickel-binding site (
Gly
(97)-Cys(103)), the C-terminal tail region (Lys(141)-His(147)) was confirmed for the first time to be involved in the nickel binding. The C-terminally conserved sequence ((144)GHQH(147)) was confirmed to have an inherent nickel-binding ability. Nickel addition to 1.6 mm subunit, a concentration where BpUreE predominantly forms a tetramer upon the nickel binding, induced a biphasic spectral change consistent with binding of up to at least three nickel ions per tetrameric unit. In contrast, nickel addition to 0.1 mm subunit, a concentration at which the protein is primarily a dimer, caused a monophasic spectral change consistent with more than 1 equivalent per dimeric unit. Combined with the equilibrium dialysis results, which indicated 2.5 nickel equivalents binding per dimer at a micromolar protein concentration, the nickel-binding stoichiometry of BpUreE at a physiological concentration could be three nickel ions per dimer. Altogether, the present results provide the first detailed structural data concerning the nickel-binding properties of intact, wild-type BpUreE in solution.
...
PMID:Structural characterization of the nickel-binding properties of Bacillus pasteurii urease accessory protein (Ure)E in solution. 1476 2
The ability of two soybean (
Glycine
max L. [Merrill]) cultivars, 'Williams 82' and 'Maple Arrow', which were reported to use different ureide degradation pathways, to degrade the ureides allantoin and allantoate was investigated. Protein fractions and total leaf homogenates from the fourth trifoliate leaves of both cultivars were examined for the ability to evolve either (14)CO(2) or [(14)C]urea from (14)C-labelled ureides in the presence of various inhibitors. (14)CO(2) evolution from [2,7-(14)C]allantoate was catalysed by 25-50% saturated ammonium sulphate fractions of both cultivars. This activity was inhibited by acetohydroxamate (AHA), which has been used to inhibit plant ureases, but not by phenylphosphorodiamidate (PPD), a more specific
urease
inhibitor. Thus, in both cultivars, allantoate may be metabolized by allantoate amidohydrolase. This activity was sensitive to EDTA, consistent with previous reports demonstrating that allantoate amidohydrolase requires manganese for full activity. Total leaf homogenates of both cultivars evolved both (14)CO(2) and [(14)C]urea from [2,7-(14)C] (ureido carbon labelled) allantoin, not previously reported in either 'Williams 82' or in 'Maple Arrow'. In situ leaf degradation of (14)C-labelled allantoin confirmed that both urea and CO(2)/NH(3) are direct products of ureide degradation. Growth of plants in the presence of PPD under fixing and non-fixing conditions caused urea accumulation in both cultivars, but did not have a significant impact on total seed nitrogen. Urea levels were higher in N-fixing plants of both cultivars. Contrary to previous reports, no significant biochemical difference was found in the ability of these two cultivars to degrade ureides under the conditions used.
...
PMID:Soybean cultivars 'Williams 82' and 'Maple Arrow' produce both urea and ammonia during ureide degradation. 1502 Jun 40
Globally, urea is the most widely used nitrogen fertilizer and is made accessible to plants via the
urease
reaction. However, sequence information for the plant enzyme is scarce. A cDNA encoding
urease
from soybean (
Glycine
max) has been cloned and sequence information has been obtained for two alleles (11 and 19 kbp, respectively) of the potato (Solanum tuberosum, cv. Desiree)
urease
gene and the corresponding cDNAs. It was found that
urease
is encoded by a single copy gene in several solanaceous species, and maps to chromosome V in potato. By contrast, the presence of two
urease
genes was reported for soybean. Comparative analysis of 11 kbp overlapping allelic DNA allowed the quantification of single nucleotide polymorphisms and revealed the presence of a truncated Ty1-copia retrotransposon in one of the alleles. Both alleles contained a copy of a terminal-repeat retrotransposon in miniature (TRIM). 25-50% of
urease
pre-mRNAs from both alleles were alternatively spliced in a variety of different ways. The retrotransposons had no effect on splicing. While
urease
is expressed in all tissues tested, its mRNA and protein are of low abundance. The TATA-less
urease
promoter appears to drive low-level housekeeping transcription. An in silico analysis showed that eukaryotic
urease
protein sequences are very similar to sequences from prokaryotic enzymes, conserving all residues of known functional importance. It is therefore likely that all known ureases are structurally similar, employing the same catalytic mechanism.
...
PMID:Analysis of two alleles of the urease gene from potato: polymorphisms, expression, and extensive alternative splicing of the corresponding mRNA. 1553 83
Short peptides resembling the Helicobacter pylori
urease
antigen (UreB F8 Ser-Ile-Lys-Glu-Asp-Val-Gln-Phe) with deleted aspartic acid and glutamic acid residues, anchored through a triazine linker via the N-terminal moiety to cellulose plate were prepared. The peptides were used for binding of antibodies from sera of patients with medically confirmed atherosclerosis. Recognition of the peptides was also tested with anti-Jack beans
urease
antibodies. The important role of a
Gly
-
Gly
spacer separating the peptides from the cellulose support was shown. Different patterns of binding of antibodies from H. pylori infected patients and anti-Jack bean
urease
antibodies were observed only in the case of pentapeptides. The peptide
Gly
-
Gly
-Leu-Val-Phe-Lys-Thr was recognized by most of the tested sera.
...
PMID:Synthetic peptides mimicking antigenic epitope of Helicobacter pylori urease. 1649 40
Cells of 20 isolates of Yersinia (Pasteurella) pestis exhibited an unusual nutritional requirement which could be fulfilled by glycine or l-threonine. Meiotrophic mutants which required neither of these amino acids (
Gly
/Thr(+)) were isolated from cultures of all 20 strains at a frequency of 10(-7). Wild-type and
Gly
/Thr(+) cells of 14 strains failed to utilize l-amino acids or urea (0.01 m) as primary sources of nitrogen and grew slowly in the presence of low concentrations of NH(4) (+) (<== 5 mm). Cells of six strains (termed N(+)) utilized certain l-amino acids and urea (0.01 m) as primary sources of nitrogen and grew rapidly in the presence of <== 5 mm NH(4) (+). N(+) but not N(-) organisms cultivated with NH(4) (+) (0.01 m) as a primary source of nitrogen excreted a complete spectrum of naturally occurring amino acids; under this condition of growth the aspartase and particulate nicotinamide adenine dinucleotide phosphate transhydrogenase activities of N(+) and N(-) cells were repressed. N(+) meiotrophs arose at a frequency of 10(-6) in cultures of all 14 N(-) isolates, and
urease
-positive meiotrophs could be selected at a frequency of 10(-7) from N(+) but not N(-) cells of all 20 strains on a medium containing urea (0.01 m) as a primary source of nitrogen. These findings illustrate a reversible loss of genetic potential which has occurred during the evolution of Y. pestis as an obligate parasite and suggest that this organism is unable to efficiently remove dispensable deoxyribonucleic acid from its chromosome.
...
PMID:Mutations Influencing the Assimilation of Nitrogen by Yersinia pestis. 1655 21
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