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

Mammalian ribonucleotide reductase is regulated by the binding of dATP and other nucleotide effectors to allosteric sites on subunit M1. Using mRNA from a mutant mouse T-lymphoma (S49) cell line, we have isolated a cDNA which encodes an altered, dATP feedback-resistant subunit M1. The mutant cDNA contains a single point mutation (a G-to-A transition) at codon 57, converting aspartic acid to asparagine. Proof that this mutation is responsible for the phenotype of dATP feedback resistance is provided by the following evidence. (i) The mutation was detected only in mutant S49 cells containing dATP feedback-resistant ribonucleotide reductase and not in wild-type or other mutant S49 cells. (ii) Transfection of Chinese hamster ovary cells with an expression plasmid containing the mutant M1 cDNA resulted in the production of dATP feedback-resistant ribonucleotide reductase. Transfected CHO cells expressing the mutant M1 cDNA exhibited a 15- to 25-fold increase in the frequency of spontaneous mutation to 6-thioguanine resistance, confirming that dATP feedback-resistant ribonucleotide reductase produces a mutator phenotype in mammalian cells. The availability of a cDNA which encodes dATP feedback-resistant subunit M1 thus provides a means of manipulating by transfection the frequency of spontaneous mutation in mammalian cells.
Mol Cell Biol 1988 Jul
PMID:Molecular cloning of the cDNA for a mutant mouse ribonucleotide reductase M1 that produces a dominant mutator phenotype in mammalian cells. 304 91

DNA including the coding sequence for the A chain of the mutant diphtheria toxin tox 176 was cloned. The cloned mature A-chain coding sequence showed a G-to-A transition at nucleotide 383 as the only difference from the wild-type sequence. This resulted in replacement of the glycine at position 128 by aspartic acid in the predicted amino acid sequence. A eucaryotic cell expression plasmid, pTH1-176, was constructed in which the tox 176 A-chain coding sequence was attached to a truncated metallothionein promoter. The toxicity of this construct, compared with that of the corresponding wild-type diphtheria toxin A-chain plasmid, pTH1, was assessed after transfection into the human 293 cell line by an indirect transient expression assay (I. H. Maxwell, F. Maxwell, and L. M. Glode, Cancer Res. 46:4660-4664, 1986). For the same effect, 15- to 30-fold more pTH1-176 than pTH1 was required, a result consistent with previous in vitro estimates of the diminished activity of the tox 176 A chain. Controlled expression of the cloned tox 176 A-chain coding sequence may provide a means of eliminating specific cell populations in an organism, for which purpose the wild-type diphtheria toxin A chain might prove too toxic.
Mol Cell Biol 1987 Apr
PMID:Cloning, sequence determination, and expression in transfected cells of the coding sequence for the tox 176 attenuated diphtheria toxin A chain. 311 May 96

A monoclonal anti-idiotype (M3.9) raised against the covalently linked Mcg lambda chain dimer binds with a similar affinity to the Mcg IgG immunoglobulin and covalent heterodimers of Mcg with other human L chains. Despite having identical amino acid sequences, the two light chains in the Mcg dimer adopt different conformations with monomer 1 acting as a heavy chain analog and monomer 2 behaving like a light chain component of an Fab. As the lambda chain in the Mcg IgG and at least one hybrid L chain dimer (Mcg X Weir) assumes a conformation similar to that of monomer 2 and the binding of anti-idiotype requires only the presence of a single Mcg lambda chain, we conclude that the idiotope is restricted to the monomer 2 type of the Mcg lambda chain conformational isomer. Cooperative binding of two molecules of rhodamine 123 in the main cavity of the Mcg dimer block the binding of the anti-idiotype whereas the binding of one molecule of bis(DNP)lysine has no significant effect on the idiotype-anti-idiotype system. Previous crystallographic analyses indicated that bound rhodamine 123 protrudes outside the rim while bis(DNP)lysine is completely immersed in the cavity. At high concns bis(DNP)lysine penetrates through the floor of the main cavity and forms a virtually irreversible complex with the dimer. Production of this complex is accompanied by conformational changes, which are presumed to be correlated with observed inhibition of binding with the anti-idiotype M3.9. Expression of the idiotope probably involves more than one linear sequence since reduction and alkylation of the intra- and inter-chain disulphide bonds in 8 M urea leads to a complete loss of binding of the anti-idiotype. The inhibition data suggest involvement of residues on or near the rim of the main cavity. Distribution of potential contact residues for rhodamine 123 is asymmetric only in the case of aspartic acid 97, which is located on the cavity rim in only one conformational isomer (monomer 2). The homologous residue in monomer 1 is directed away from the cavity and is unlikely to participate in the epitope recognized by M3.9. Attempts to define the epitope in more detail by simulation with multiple peptides have been initiated in collaboration with the laboratory of H. M. Geysen.
Mol Immunol 1987 Sep
PMID:Localization of an idiotope on the L chain dimer and intact IgG1 immunoglobulin from the patient Mcg. 311 12

L-Asparaginase activity reaches maximal values at the stationary phase of growth of Tetrahymena pyriformis and fluctuates upon the growth conditions and the composition of the medium. Most of the L-asparaginase activity (80%) is associated with the endoplasmic reticulum, and the remaining with the pellicles. Detergents either alone or in combination with NaCl up to 0.5 M concentration failed to solubilize L-asparaginase. Solubilization can be accomplished by means of either the chaotropic agents KSCN and NaClO4, or 0.1 M sodium phosphate buffer pH 8.0, following pretreatment of the particulates with 2% w/v Triton X100. L-Asparaginase has been purified to near homogeneity by hydrophobic and gel filtration chromatography. The native enzyme has a relative molecular weight of 230,000. It is a multiple subunit enzyme, with subunit size of 39,000. Its isoelectric point is at pH 6.8. It acts optimally at pH 8.6 with a Km of 2.2 mM. It does not hydrolyse L-glutamine and its reaction is inhibited competitively by D-aspartic acid and D-asparagine as well as by L-asparagine analogues with substituents at the beta position.
Mol Cell Biochem 1988 May
PMID:Purification and properties of a membrane-bound L-asparaginase of Tetrahymena pyriformis. 313 90

To study the relationship between the primary structure of transforming growth factor alpha (TGF-alpha) and some of its functional properties (competition with epidermal growth factor (EGF) for binding to the EGF receptor and induction of anchorage-independent growth), we introduced single amino acid mutations into the sequence for the fully processed, 50-amino-acid human TGF-alpha. The wild-type and mutant proteins were expressed in a vector by using a yeast alpha mating pheromone promoter. Mutations of two amino acids that are conserved in the family of the EGF-like peptides and are located in the carboxy-terminal part of TGF-alpha resulted in different biological effects. When aspartic acid 47 was mutated to alanine or asparagine, biological activity was retained; in contrast, substitutions of this residue with serine or glutamic acid generated mutants with reduced binding and colony-forming capacities. When leucine 48 was mutated to alanine, a complete loss of binding and colony-forming abilities resulted; mutation of leucine 48 to isoleucine or methionine resulted in very low activities. Our data suggest that these two adjacent conserved amino acids in positions 47 and 48 play different roles in defining the structure and/or biological activity of TGF-alpha and that the carboxy terminus of TGF-alpha is involved in interactions with cellular TGF-alpha receptors. The side chain of leucine 48 appears to be crucial either indirectly in determining the biologically active conformation of TGF-alpha or directly in the molecular recognition of TGF-alpha by its receptor.
Mol Cell Biol 1988 Mar
PMID:Transforming growth factor alpha: mutation of aspartic acid 47 and leucine 48 results in different biological activities. 328 78

The crystal structure of manganese superoxide dismutase (MnSOD) from Bacillus stearothermophilus has been solved at 2.4 A resolution by a combination of multiple isomorphous replacement and molecular replacement (1 A = 0.1 nm). The structure has been refined to a conventional R-factor for all 16,560 unique reflections at 2.4 A of 0.26, and the 2Fo-Fc density maps show features more consistent with the known amino acid sequence of MnSOD from B. stearothermophilus than with the starting model, the MnSOD from Thermus thermophilus. The molecule is a dimer of identical subunits, each with 203 amino acid residues. The polypeptide chain of the monomer is organized into two domains, one of which has an "all-alpha" structure and the other an "alpha/beta" structure, with the manganese ion bound between them. The ion is co-ordinated by three histidine residues, 26, 81 and 167, and one aspartic acid residue, 173, in a tetrahedral arrangement strongly distorted towards trigonal pyramidal. We anticipate that Tyr34, whose hydroxyl group is only 5 A from the metal, is involved in the catalytic reaction. The active site is particularly rich in aromatic amino acid residues. As in the Cu/ZnSOD there are indications that MnSOD provides electrostatic guidance to the substrate entering the active site.
J Mol Biol 1988 Feb 20
PMID:Crystal structure of manganese superoxide dismutase from Bacillus stearothermophilus at 2.4 A resolution. 335 46

Treatment of hypoxanthine-guanine phosphoribosyltransferase (HGPRT)-deficient human promyelocytic leukemia (HL-60) cells with 6-thioguanine results in growth inhibition and cell differentiation. 6-Thioguanine is a substrate for the tRNA modification enzyme tRNA-guanine ribosyltransferase, which normally catalyzes the exchange of queuine for guanine in position 1 of the anticodon of tRNAs for asparagine, aspartic acid, histidine, and tyrosine. During the early stages of HGPRT-deficient HL-60 cell differentiation induced by 6-thioguanine, there was a transient decrease in the queuine content of tRNA, and changes in the isoacceptor profiles of tRNA(His) indicate that 6-thioguanine was incorporated into the tRNA in place of queuine. Reversing this structural change in the tRNA anticodon by addition of excess exogenous queuine reversed the 6-thioguanine-induced growth inhibition and differentiation. Similar results were obtained when 8-azaguanine (another inhibitor of queuine modification of tRNA that can be incorporated into the anticodon) replaced 6-thioguanine as the inducing agent. The data suggest a primary role for the change in queuine modification of tRNA in mediating the differentiation of HGPRT-deficient HL-60 cells induced by guanine analogs.
Mol Cell Biol 1987 Oct
PMID:Guanine analog-induced differentiation of human promyelocytic leukemia cells and changes in queuine modification of tRNA. 347 81

A two-dimensional Fourier transform nuclear magnetic resonance study of the ribosomal protein E-L30 is reported. Five two-dimensional techniques, namely: nuclear magnetic resonance J-resolved spectroscopy, correlated spectroscopy, double quantum spectroscopy, relayed coherence transfer and nuclear Overhauser enhancement spectroscopy were used. Qualitative inspection of the spectra obtained by these techniques provided evidence that the E-L30 molecule has a well-defined structure in solution. This analysis indicated that, despite the fact that the protein is stable only at moderate temperatures and neutral pH, a structural analysis of the molecule would be feasible. A detailed analysis of the spectra permitted unambiguous discrimination between the spin systems of different amino acids, resulting in residue-specific resonance assignments. We were able to assign all resonances of all six threonine, four valine, five alanine, two histidine, two serine, one phenylalanine, one asparagine and one aspartic acid residue of E-L30. Complete resonance assignment was obtained for two glycine residues. Partial assignments became available for all six isoleucine, three glycine and one glutamine residue. These results form a sound basis for the structure determination of the protein described in the accompanying paper.
J Mol Biol 1986 Nov 20
PMID:Residue-specific assignments of resonances in the 1H nuclear magnetic resonance spectrum of ribosomal protein E-L30 by systematic application of two-dimensional Fourier transform nuclear magnetic resonance methods. 355 Jan 2

The role of the single carbohydrate moiety present on the HLA-A2 molecule was studied by introducing several amino acid substitutions (by site-directed mutagenesis of the HLA-A2 gene) in the consensus glycosylation sequence Asn-X-Ser. Two different amino acid substitutions of the asparagine residue at position 86 (glutamine and aspartic acid) resulted in the synthesis of ca. 39,000-molecular-weight nonglycosylated heavy chains that were detected in the cytoplasm but not on the surface of mouse L-cell transfectants. However, a low level of surface expression was detected following transfection of human (rhabdomyosarcoma) cells or mouse L cells containing human beta 2-microglobulin. The defect in surface expression was not due to the absence of the glycan moiety, since the substitution of a glycine for a serine at amino acid 88 did not have the same drastic effect in the presence of human beta 2-microglobulin. These and other data suggest that the asparagine residue may play a critical role in the conformation of the HLA heavy chain and its interaction with beta 2-microglobulin. Immunofluorescence microscopy following permeabilization of the transfectants demonstrated that the unglycosylated HLA heavy chains are sequestered in an unidentified cellular compartment that is different from the Golgi structure.
Mol Cell Biol 1987 Mar
PMID:Amino acid sequences in the alpha 1 domain and not glycosylation are important in HLA-A2/beta 2-microglobulin association and cell surface expression. 355 Apr 37

The binding of Ca2+ to troponin C (TnC) regulates skeletal muscle contraction. We have isolated a full-length cDNA clone for fast skeletal muscle TnC from a neonatal rabbit skeletal muscle library and determined its nucleic acid sequence. The amino acid sequence deduced from this clone matches the previously reported amino acid sequence (Collins, J. H., Greaser, M. L., Potter, J. D., and Horn, M. J. (1977) J. Biol. Chem. 252, 6356-6362) except at the amino terminus. According to the nucleotide sequence, the first 2 residues of TnC are threonine-aspartic acid, which is the reverse of the order reported previously. The isolation of the adult form of TnC from a neonatal library suggests that there may be no developmental isoforms of fast TnC. The protein coding region of the fast TnC clone has 67% homology with the reported nucleotide sequence for chicken slow TnC (Putkey, J. A., Carroll, S. L., and Means, A. R. (1987) Mol. Cell. Biol. 7, 549-1553). The homologies between the nucleotide sequences of TnC, calmodulin, and parvalbumin provide evidence that all three proteins were derived from a common precursor molecule which had four Ca2+-binding sites.
 ...
PMID:Isolation and sequence of a cDNA clone for rabbit fast skeletal muscle troponin C. Homology with calmodulin and parvalbumin. 368 Feb 4


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