Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Published data on adsorption and condensation of amino acids, purine and pyrimidine bases, sugars, nucleosides, and nucleotides are analyzed in connection with Bernal's hypothesis that clays and other minerals may have provided the most likely surface for adsorption and condensation of these molecules in prebiotic times. Using surface concentration and reaction rate as the main criteria for the feasibility of condensation reactions, four types of prebiotic environments were analyzed: (1) an ocean-sediment system, (2) a dehydrated lagoon bed produced by evaporation, (3) the surface of a frozen sediment, and (4) a fluctuating system where hydration (rainstorms, tidal variations, flooding) and dehysration (evaporation) take place in a cyclic manner. With the possible exception of nucleotides, low adsorption of organomonomers on sediment surfaces of a prebiotic ocean (pH 8) is expected, and significant condensation is considered unlikely. In dehydrated and frozen systems, high surface concentrations are probable and condensation is more likely. In fluctuating environments, condensation rates will be enhanced and the size distribution of the oligomers formed during dehydration may be influenced by a "redistribution mechanism" in which adsorbed oligomers and monomers are desorbed and redistributed on the solid surface during the next hydration-dehydration cycle.
J Mol Evol 1976 Dec 30
PMID:The possible role of solid surface area in condensation reactions during chemical evolution: reevaluation. 1 25

This paper describes a purification procedure and some properties of a nonspecific nucleoside phosphotransferase of chick embryo, an activity which catalyzes the transfer of chick embryo, an activity which catalyzes the transfer of the phosphate ester from a deoxyribonucleotide or a pyrimidine ribonucleotide to a deoxyribonucleoside acceptor. The enzyme is very unstable to heat, dilution and dialysis and it is almost entirely inactivated by DEAE-cellulose chromatography or gel filtration. A marked enhancement in its stability is caused by numerous nucleotides. In these experiments at least 920-fold purification was obtained by using dTTP (50 microM) as nucleotide protector. The enzyme, purified in presence of dTTP, has a molecular weight about 270,000, an isoelectric point of 6.27, a pH optimum of 8.8 and is stable at 37 degrees C at least for 10 min. In absence of nucleotide protector, nucleoside phosphofranserferase is connected at 37 degrees C or by gel filtration in a very small active form with a lower molecular weight (about 30,000) and a pH optimum of 7.6.
Mol Cell Biochem 1979 Jun 15
PMID:Nucleoside phosphotransferase of chick embryo. 3 50

Mutants resistant to 5-fluorouracil, 5-fluorouridine and 5-fluorodeoxyuridine have been selected in Aspergillus nidulans. Growth tests combined with genetic analysis showed that mutations conferring resistance to fluoropyrimidines could occur in at least seven genes. Three of these fulE, fulF and furA were concerned with either the uptake of pyrimidines or their conversion to uridine monophosphate. The other four genes did not affect these functions. Mutations in fulA probably confer resistance by lowering ornithine transcarbamoylase, thereby making the normally arginine-specific carbamoyl phosphate pool available for increased uracil synthesis. Mutations in fulD may make the arginine-specific carbamoyl phosphate synthetase insensitive to inhibition or repression by arginine, and so lead to increased carbamoyl phosphate pool sizes, and increased uracil synthesis. Both fulA and fulD mutants suppress pyrA mutants which lack the uracil-specific carbamoyl phosphate synthetase. Mutations in fulB and fulC do not suppress pyrA, and so may act more directly to increase uracil synthesis. The synthesis of aspartate carbamoyl transferase in fulB7 strains is not repressed by uracil. fulC mutants are closely linked to the pyrA, B, C, N region which codes for the first two enzymes of pyrimidine biosynthesis, and may result in these enzymes being less sensitive to inhibition by uracil.
Mol Gen Genet 1975 Sep 29
PMID:Pyrimidine biosynthesis in Aspergillus nidulans. Isolation and characterisation of mutants resistant to fluoropyrimidines. 12 29

On the basis of the results of an analysis of frequencies of pyrimidine oligonucleotides, the degree of pyrimidine clustering of DNA in species from different taxa has been determined. A tendency for an increase in the index of clustering of DNA was revealed in the sequence: invertebrates, fishes, amphibians, reptiles, birds, mammals. A mechanism is postulated, according to which the increase in the degree of clustering of DNA d-ring the evolution may be associated with the accumulation of mutations, Purine equalibrium Pyrimidine transversions, resulting in a selective enrichment of one of the chains of DNA with pyrimidines and the other- with purines, i.e. in an increase in the degree of purine-pyrimidine imbalance (asymmetry) of DNA complementary chains. This mechanism of DNA evolution is supported by the presence of positive correlation between the degree of clustering and the degree of the chain asymmetry of natural DNAs, as well as the character of the amino acid substitutions in cytochromes c in different species. The progressive evolution of different groups of organisms on the whole may have been accompanied by an acceleration of the rates of evolution of the DNA structure. On the basis of the amino acid sequence of cytochromes c in different species the degree of clustering and the degree of the chain asymmetry of the corresponding structural genes of DNA was found to have a general tendency towards an increase in the following order: invertebrates, fishes, amphibians, reptiles, birds, mammals. Thus, evolution of cytochrome c cistron is a vector process based on a selection of mutations which, on the one hand, are neurtral to protein, and, on the other hand, result in the sense chain of DNA being enriched with pyrimidines and the nonsense one (and the corresponding mRNA)- with purines. Hence, it is the polynucleotide template rather than protein, that must have been the "object of selection". The frequency of substitutions in cytochromes c cistron for vertebrates is 1.56x13(-9) per nucleotide per year. It is believed that the evolutionary modification of the DNA structure may be associated with an increase in the interference resistance of the translation, i.e. with selection for codons of highest readout stability.
J Mol Evol 1976 Oct 27
PMID:Evolution of DNA structure: direction, mechanism, rate. 18 97

The purimidine-3 locus of Neurospora crassa specifies two enzyme activities, pyrimidine-specific carbamyl phosphate synthetase (CPSpyr) and aspartate transcarbamylase (ATC). ATC is translationally distal. CPSpyr, but not ATC, is subject to feedback inhibition by uridine triphosphate (UTP). To investigate the location of the feedback-specific region within the locus, inhibition of a number of pyr-3 alleles by UTP was investigated. All CPS+ ATC- polar alleles, revertants of CPS- ATC- polar alleles, and 5-fluorouracil-resistant mutants had normal UTP response. The location of the feedback-specific region is in or close to the CPS-specific region.
Mol Gen Genet 1976 Aug 02
PMID:The location of the feedback-specific region with the pyrimidine-3 locus of Neurospora crassa. 18 23

The abilities of purine- and pyrimidine-requiring mutants to produce six orthophosphate repressible extracellular enzymes, alkaline phosphatase, 5'-nucleotidase, acid phosphatase, two nucleases and ribonuclease N1 were examined by culturing these mutants in low and high phosphate media containing nucleotide or nucleoside. All the purine requiring mutants produced significantly reduced amounts of alkaline phosphatase, 5'-nucleotidase, acid phosphatase, alkaline nuclease and acid nuclease ranging 0.5-4.2, 5.0-17.4, 25.0-100, 20.3-67.5 and 6.2-48.5%, respectively. Production of ribonuclease N1 was found to be rather stimulated (150-564%) in these mutants. Essentially the same results were obtained for pyrimidine requiring mutants. Among those mutants ad-2 and ad-9 showed relatively high enzyme producing activity. Especially the production of ribonuclease N1 in ad-2 and ad-9 ranged to 4.9- and 5.6-fold that in the wild type. Though nuc-1 mutant (A1) has no ability to produce all these six repressible enzymes, double mutants A1ad-2 and A1ad-9 produced a significant amount of ribonuclease N1 in low and high phosphate media and acid phosphatase in low phosphate media.
Mol Gen Genet 1977 Feb 28
PMID:Control of the Production of orthophosphate repressible extracellular enzymes in Neurospora crassa. 19 39

The combined phosphorylation of uridine and cytidine by a partially purified preparation of uridine-cytidine kinase has been studied with dual-substrate kinetics. The kinetic patterns obtained are consistent with the theoretical analysis for two competing, alternate substrates interacting with a single enzyme. Thus, despite feedback regulation of the kinase by both UTP and CTP, the results allow a clear conclusion that both nucleosides are phosphorylated by the same enzyme, and probably at a single site, rather than by two closely related isozymes, each specific for one pyrimidine.
Mol Cell Biochem 1977 Oct 07
PMID:Uridine-cytidine kinase. III. Competition between uridine and cytidine for a single enzyme. 20 Aug 38

The pyrimidine-3 locus of Neurospora crassa specifies a multienzyme complex comprising pyrimidine-specific carbamoyl phosphate synthase (CPSpyr) and aspartate carbamoyl transferase (ACT). It appears to be divided into a translationally proximal CPS-specific region and a distal ACT-specific region. Levels of complementation for ACT activity between pairs of four pyr-3 CPS+ ACT- mutants showed a range from 12% to 68% of the wild-type level of the enzyme. This is interpreted as interallelic complementation, contradicting certain earlier suggestion of two dissimilar ACT subunits. Proteolysis of an extract from a heterokaryon formed from two of the above CPS+ ACT- alleles (alpha and beta) did not lead to loss of ACT activity, but led to the formation of a fragment with ACT activity with a similar molecular weight (92,000 daltons) to that produced in extracts of wild type strain. The pyr-3 polar mutant 43-174 which is enzymatically CPS+ ACT- and which fails to complement with any other CPS+ ACT- alleles, thus suggesting its location towards the proximal end of the ACT region, has CPS activity associated with a form of 180,000 daltons molecular weight. These findings are used to contruct a model for structure of the native enzyme complex.
Mol Gen Genet 1978 May 31
PMID:A possible model for the structure of the Neurospora carbamoyl phosphate synthase-aspartate carbamoyl transferase complex enzyme. 20 7

The high resolution 1H and 31P NMR spectra of the (dG-dC)8 duplex have been recorded in low- and high-salt solutions in order to evaluate the structural aspects of the salt-induced transition of oligo(dG-dC) in solution [Pohl, F. M. & Jovin, T. M. (1972) J. Mol. Biol. 67, 375-396]. The NMR data require that the (dG-dC)8 duplex in 4 M NaCl adopt an "alternating B-DNA" conformation for which the symmetry unit repeats every two base pairs. By contrast, the oligomer duplex in low-salt solution is of the regular B-DNA type in solution. The chemical shift parameters for oligo(dG-dC) in high-salt solution demonstrate that every other glycosidic torsion angle and phosphodiester linkage adopts a different conformation from that observed in regular B-DNA. We demonstrate further that the generation of the "alternating B-DNA" structure is facilitated by introduction of halogen atoms at the 5 position of pyrimidine and that this probably reflects the greater overlap of this position with adjacent base pairs in high salt solution. An "alternating B-DNA" model has recently been proposed for alternating deoxy purine-deoxy pyrimidine polynucleotides based on the x-ray structure of pdA-dT-dA-dT [Klug, A., Jack, A., Viswamitra, M.A., Kennard, O., Shakked, Z. & Steitz, T.A. (1979) J. Mol. Biol., in press].
 ...
PMID:"Alternating B-DNA" conformation for the oligo(dG-dC) duplex in high-salt solution. 28 40

Base composition, content of pyrimidine isopliths and the degree of methylation of mitochondrial DNA (mtDNA) and nuclear DNA (nDNA) from various vertebrates and protozoon Crithidia oncopelti have been studied. MtDNAs from mammals (ox, rat) do not differ in fact in the GC content from the respective nDNA. The GC content in mtDNA from fishes (sheat fish) and birds (duck, chicken) is 1.5-2.5 mole % higher than in the respective nDNA. Kinetoplast DNA (kDNA) from Crithidia oncopelti (GC = 42.9 mole %) differs significantly in base composition from nDNA (GC = 51.3 mole %). All the mtDNA and kDNA studied differ from the respective nDNA by a lower degree of pyrimidine clustering. The amount of mono and dipyrimidine fragments in mtDNA is more than 30 mole %, whereas in nDNA it does not exceed 23 mole %. The quantity of long pyrimidine clusters (hexa and others) is 2-4 times lower in mtDNA than in nDNA. The lower degree of clustering of pyrimidine nucleotides seems to be a specific feature of all the mtDNA studied. This may be indicative of common traits in the organization and origin of mtDNA. All mtDNA of vertebrates contain 5-methylcytosine as a 'minor' base (1.5- 3.15 mole %) and surpass by 1.5-2 times the respective nDNA in the methylation degree. It has been found that in animals mtDNA is species specific as far as the 5-methyl-cytosine content is concerned. In mitochondria and nuclei of rat liver certain DNA methylase activity has been detected, which provides in vitro the methylation of cytosine residues both in homologous DNA and various heterologous DNAs. The specificity of methylation in vitro of cytosine residues in the same heterologous DNA from E. coli B varies with the source of enzymes. The mitochondrial enzyme methylates cytosine as the lone monopyrimidine residue, whereas the nuclear enzyme methylase cytosine in the di- and tripyrimidine fragments.
Mol Cell Biochem 1977 Feb 04
PMID:The structure of animal mitochondrial DNA (base composition, pyrimidine clusters, character of methylation). 32 87


1 2 3 4 5 6 7 8 9 10 Next >>