EC:1.5.1.3 - FACTA Search

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Query: EC:1.5.1.3 (dihydrofolate reductase)
5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The major form of dihydrofolate reductase from a methotrexate-resistant mutant (strain A) of Streptococcus faecium var. Durans has been purified on a large scale. Amino acid analysis of this form of the enzyme (isoenzyme 2) reveals an absence of cystine or cysteine, and sedimentation studies indicate a molecular weight of 20,800. The NH2-terminal sequence was determined by Edman degradation of the intact protein and the COOH terminus by selective tritiation and by carboxypeptidase treatment. After the action of trypsin on the citraconylated protein, seven of the expected nine peptides were purified from the digest, and after cyanogen bromide treatment of the unmodified protein, all seven of the anticipated peptides were isolated. The amino acid composition of all of these peptides has been established as well as their complete or partial sequences. From the results it was possible to order these peptides within the sequence and to establish the sequence of the NH2-terminal 60 residues and the COOH-terminal 11 residues.
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PMID:The structure of the mutant dihydrofolate reductase from Streptococcus faecium. Partial sequence and order of the limited tryptic and cyanogen bromide peptides. 115 Jun 47

A negative regulator gene for synthesis of arylsulfatase in Klebsiella aerogenes was cloned. Deletion analysis showed that the regulator gene was located within a 1.6-kb cloned segment. Transfer of the plasmid, which contains the cloned fragment, into constitutive atsR mutant strains of K. aerogenes resulted in complementation of atsR; the synthesis of arylsulfatase was repressed in the presence of inorganic sulfate or cysteine, and this repression was relieved, in each case, by the addition of tyramine. The nucleotide sequence of the 1.6-kb fragment was determined. From the amino acid sequence deduced from the DNA sequence, we found two open reading frames. One of them lacked the N-terminal region but was highly homologous to the gene which codes for diadenosine tetraphosphatase (apaH) in Escherichia coli. The other open reading frame was located counterclockwise to the apaH-like gene. This gene was highly homologous to the gene which codes for dihydrofolate reductase (folA) in E. coli. We detected 30 times more activity of dihydrofolate reductase in the K. aerogenes strains carrying the plasmid, which contains the arylsulfatase regulator gene, than in the strains without plasmid. Further deletion analysis showed that the K. aerogenes folA gene is consistent with the essential region required for the repression of arylsulfatase synthesis. Transfer of a plasmid containing the E. coli folA gene into atsR mutant cells of K. aerogenes resulted in repression of the arylsulfatase synthesis. Thus, we conclude that the folA gene codes a negative regulator for the ats operon.
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PMID:Cloning and nucleotide sequence of a negative regulator gene for Klebsiella aerogenes arylsulfatase synthesis and identification of the gene as folA. 155 51

Chinese hamster ovary cells transformed with a hybrid expression plasmid containing both the murine interferon-gamma (MuIFN-gamma) and the murine dihydrofolate reductase-coding sequences were subjected to selection in stepwise increasing concentrations of methotrexate. By this procedure the production rate of MuIFN-gamma was increased from an initial level of approximately 20,000 to approximately 500,000 antiviral units per milliliter of culture supernatant. [35S]Methionine-labeled proteins secreted by these cells were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis with or without prior immunoprecipitation with polyclonal or monoclonal antibodies against splenocyte-derived MuIFN-gamma. Besides two major components of Mr 19,000 and 38,000, a multiplicity of minor components were immunoprecipitated. Cells treated with tunicamycin, an inhibitor of N-glycosylation, secrete two major components of Mr 14,000 and 27,000 and only two minor components of Mr 12,000 and 13,000. When the proteins were labeled with [35S]cysteine, a residue that is only present at the carboxyl terminus of the mature MuIFN-gamma, no minor components could be detected in the growth medium of tunicamycin-treated cells. The presented results indicate that the heterogeneity of the recombinant Chinese hamster ovary-produced MuIFN-gamma is due to at least three cumulative modifications of the Mr 14,000 MuIFN-gamma peptide: carboxyl-terminal proteolytic processing (the Mr 13,000 and 12,000 components), variations in N-glycosylation (components ranging in size from Mr 12,000 to 26,500), and dimerization (components ranging from Mr 27,000 to 50,000).
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PMID:Heterogeneity of Chinese hamster ovary cell-produced recombinant murine interferon-gamma. 243 86

We have made multiple replacements (alanine, arginine, cysteine, histidine, isoleucine, serine, tyrosine) of valine-75 in dihydrofolate reductase from Escherichia coli to examine the relative importance to protein folding of the position that is substituted and the specific character of the amino acid replacement. Valine-75 is part of the eight-stranded beta sheet that forms the structural core of the protein. The isopropyl side chain participates in van der Waals interactions with a number of nonpolar residues, helping to establish a large hydrophobic cluster. Equilibrium studies showed that arginine, histidine, isoleucine, serine, and tyrosine destabilize the protein by 1.9-2.8 kcal mol-1. Alanine and cysteine substitutions have little or no effect. Contrary to other recent studies of the effect of multiple replacements at a hydrophobic site, there is no observed correlation between the changes of the free energy of folding and the changes of the free energy of transfer for the individual amino acids from water to an organic solvent when they are inserted into this site. The effects observed in kinetic studies are both consistent with and extend the equilibrium results; these data indicate that position 75 participates in a rate-limiting step of folding. Some of the equilibrium and kinetic properties of the tyrosine-75 mutant deviated significantly from those of wild-type protein and the other mutants at position 75. (1) The tyrosine variant displayed a complex banding pattern when analyzed by native gel electrophoresis; the wild-type protein and all other mutants at position 75 migrated as single, discrete bands. (2) Comparison of the difference ultraviolet and circular dichroism transition curves showed that a third species is populated at equilibrium; the wild-type protein and all other mutants at position 75 follow a two-state model involving only native and unfolded forms. (3) A third kinetic phase appeared in the unfolding reaction; the wild-type protein and all other mutants at position 75 only showed two kinetic phases in unfolding. Properties 1 and 3 suggest that the tyrosine mutation significantly alters the distribution of native conformers in the protein. These effects on the equilibrium and kinetic data readily display an overriding pattern: residues that would require hydrogen bonding or lead to an expansion of the tightly packed hydrophobic environment in which valine-75 resides destabilize the protein and alter relaxation times of kinetic phases in a consistent manner.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of multiple replacements at a single position on the folding and stability of dihydrofolate reductase from Escherichia coli. 265 2

In studies on (antitumor antibody)-drug conjugates as potential antitumor agents, the amide derivatives of methotrexate (MTX) with cysteine and with 2-mercaptoethylamine (cysteamine) (MTX-Cys and MTX-MEA, respectively) were linked via a disulfide bond with a monoclonal antibody (alpha MM46) to a mouse mammary tumor MM46 with attached 3-(2-pyridyldithio) propionyl groups to give conjugates of MTX with alpha MM46 (MTX-Cys-SS-alpha MM46 and MTX-MEA-SS-alpha MM46, respectively). These two conjugates are both linked by a disulfide bond and are very similar in structure, but MTX-MEA-SS-alpha MM46 showed only weak in vitro cytotoxicity against MM46 cells, whereas MTX-Cys-SS-alpha MM46 had strong cytotoxicity. The cytotoxicity of the latter was comparable to that of the conventional direct MTX-alpha MM46 conjugate prepared with an MTX-active ester. However, this conjugate had a greater selectivity than that of the direct conjugate, calculated as the IC50 (concentration of a conjugate by MTX equivalence required for suppression of the number of viable MM46 cells to 50% of that of the untreated control) for the corresponding nonspecific conjugate divided by the IC50 for the alpha MM46 conjugate. The inhibitory activities of MTX-Cys and MTX-MEA on dihydrofolate reductase were similar. The cytotoxicity of MTX-Cys-SS-alpha MM46 was not affected by thiamine pyrophosphate, an inhibitor of the active transport of MTX across the cell membrane, but was decreased significantly by ammonium chloride, a lysosomotropic amine. However, the cytotoxicity was decreased only to a small extent by leupeptin, an inhibitor of lysosomal cysteine proteases cathepsins B, H, and L. These results suggest that the cytotoxicity is mediated by lysosomes, and may involve lysosomal enzymes other than cathepsins B, H, and L.
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PMID:Cytotoxicities of two disulfide-bond-linked conjugates of methotrexate with monoclonal anti-MM46 antibody. 278 2

A purified, artificial precursor protein was used as a transport vehicle to test the tolerance of the mitochondrial protein import system. The precursor was a fusion protein consisting of mouse dihydrofolate reductase linked to a yeast mitochondrial presequence; it contained a unique cysteine as its COOH-terminal residue. This COOH-terminal cysteine was covalently coupled to either a stilbene disulfonate derivative or, with the aid of a bifunctional cross-linker, to one of the free amino groups of horse heart cytochrome c. Coupling to horse heart cytochrome c generated a mixture of branched polypeptide chains since this cytochrome lacks a free alpha-amino group. Both adducts were imported and cleaved by isolated yeast mitochondria. The mitochondrial protein import machinery can thus transport more complex structures and even highly charged "membrane-impermeant" organic molecules. This suggests that transport occurs through a hydrophilic environment.
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PMID:Mitochondria can import artificial precursor proteins containing a branched polypeptide chain or a carboxy-terminal stilbene disulfonate. 284 48

Substitution of cysteine for proline-39 in Escherichia coli dihydrofolate reductase by oligonucleotide-directed mutagenesis positions the new cysteine adjacent to already existing cysteine-85. When the mutant protein is expressed in the E. coli cytosol, the cysteine sulfur atoms are found, by X-ray crystallographic analysis, to be in van der Waals contact but not covalently bonded to one another. In vitro oxidation by dithionitrobenzoate results in formation of a disulfide bond between residues 39 and 85 with a geometry close to that of the commonly observed left-handed spiral. Comparison of 2.0-A-refined crystal structures of the oxidized (cross-linked) and reduced (un-cross-linked) forms of the mutant enzyme shows that the conformation of the enzyme molecule was not appreciably affected by formation of the disulfide bond but that details of the molecule's thermal motion were altered. The disulfide-cross-linked enzyme is at least 1.8 kcal/mol more stable with respect to unfolding, as measured by guanidine hydrochloride denaturation, than either the wild-type or the reduced (un-cross-linked) mutant enzyme. Nevertheless, the cross-linked form is not more resistant to thermal denaturation. Moreover, the appearance of intermediates in the guanidine hydrochloride denaturation profile and urea-gradient polyacrylamide gels indicates that the folding/unfolding pathway of the disulfide-cross-linked enzyme has changed significantly.
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PMID:An engineered disulfide bond in dihydrofolate reductase. 330 20

Thymidylate synthetase (TS) and dihydrofolate reductase (DHFR) in Leishmania tropica exist as a bifunctional protein. By use of a methotrexate-resistant strain, which overproduces the bifunctional enzyme, the protein was purified 80-fold to apparent homogeneity in two steps. The native protein has an apparent molecular weight of 110 000 and consists of two subunits with identical size and charge. Available data indicate that each of the subunits possesses TS and DHFR. The TS of the bifunctional protein forms a covalent 5-fluoro-2'-deoxyuridylate (FdUMP)-(+/-)-5,10-methylenetetrahydrofolate-enzyme complex in which 2 mol of FdUMP is bound per mole of enzyme. In contrast, titration of DHFR with methotrexate indicated that only 1 mol of the inhibitor is bound per mole of dimeric enzyme. Both TS and DHFR activities of the bifunctional enzyme were inactivated by the sulfhydryl reagent N-ethylmaleimide. Substrates of the individual enzymes afforded protection against inactivation, indicating that each enzyme requires at least one cysteine for catalytic activity. Kinetic evidence indicates that most, if not all, of the 7,8-dihydrofolate produced by TS is channeled to DHFR faster than it is released into the medium. Although the mechanism of channeling is unknown, the possibility that the two enzymes share a common folate binding site has been ruled out.
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PMID:Purification and characterization of the bifunctional thymidylate synthetase-dihydrofolate reductase from methotrexate-resistant Leishmania tropica. 392 4

Three mutations of the enzyme dihydrofolate reductase were constructed by oligonucleotide-directed mutagenesis of the cloned Escherichia coli gene. The mutations--at residue 27, aspartic acid replaced with asparagine; at residue 39, proline replaced with cysteine; and at residue 95, glycine replaced with alanine--were designed to answer questions about the relations between molecular structure and function that were raised by the x-ray crystal structures. Properties of the mutant proteins show that Asp-27 is important for catalysis and that perturbation of the local structure at a conserved cis peptide bond following Gly-95 abolishes activity. Substitution of cysteine for proline at residue 39 results in the appearance of new forms of the enzyme that correspond to various oxidation states of the cysteine. One of these forms probably represents a species cross-linked by an intrachain disulfide bridge between the cysteine at position 85 and the new cysteine at position 39.
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PMID:Directed mutagenesis of dihydrofolate reductase. 635 60

The role of histidine residues of dihydrofolate reductase from Lactobacillus casei was investigated with diethyl pyrocarbonate. This enzyme has no cysteine residues and differs in this respect from many nicotinamide nucleotide dehydrogenases, which have catalytically important sulfhydryl groups. X-ray studies of this enzyme have shown that histidine residues are involved in substrate binding but not in proton transfer [Matthews et al. (1978) J. Biol. Chem. 253, 6946]. Dihydrofolate reductase was inactivated by diethyl pyrocarbonate; the second-order rate constant for the reaction was 29 M-1 min-1 at 0 degrees C. The difference spectrum of native and diethyl pyrocarbonate inactivated enzyme had a maximum near 242 nm, which indicated a reaction with histidine residues. The absence of any spectral difference near 280 nm indicated that diethyl pyrocarbonate had not reacted with tyrosine residues. Dihydrofolate reductase lost all of its enzymatic activity after about six of the seven histidine residues had been modified. No catalytic activity was lost during an initial rapid reaction with about four histidine residues, but a subsequent slower reaction involving an additional one or two residues was associated with the loss of activity. The enzyme was protected from inactivation by either of the substrates NADPH or dihydrofolate. In fact, treatment with diethyl pyrocarbonate in the presence of either substrate, but particularly with NADPH, resulted in substantially greater activity than that found with untreated enzyme. Treatment with 1 M hydroxylamine partially restored activity to dihydrofolate reductase that had been inactivated by diethyl pyrocarbonate.
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PMID:Inactivation of dihydrofolate reductase from Lactobacillus casei by diethyl pyrocarbonate. 680 28

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