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)

Ligand-induced conformational changes of GroEL alone and with bound rhodanese, citrate synthase, or dihydrofolate reductase were studied by limited proteolysis. Similar digestion patterns of GroEL, with or without bound substrate polypeptide, were obtained in the absence and presence of the chaperonin ligands, K+, Mg2+, or ATP. The rates of formation and degradation of the six produced proteolytic fragments were significantly different, however. Strikingly, only with Mg2+/ATP or K+/Mg2+/ATP an additional fragment of approximately 25 kDa was generated during digestion of GroEL alone or with bound rhodanese or dihydrofolate reductase, but not with bound citrate synthase. Most of the trypsin-sensitive sites in GroEL were localized in the flexible apical domain, which contains the putative polypeptide-binding region. Our data indicate that subtle structural changes in the trypsin-sensitive regions of GroEL occur as a result of the binding of the chaperonin ligands. However, these structural changes are influenced by the GroEL substrate polypeptides.
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PMID:Ligand-induced conformational changes of GroEL are dependent on the bound substrate polypeptide. 866 87

An unresolved key issue in the mechanism of protein folding assisted by the molecular chaperone GroEL is the nature of the substrate protein bound to the chaperonin at different stages of its reaction cycle. Here we describe the conformational properties of human dihydrofolate reductase (DHFR) bound to GroEL at different stages of its ATP-driven folding reaction, determined by hydrogen exchange labeling and electrospray ionization mass spectrometry. Considerable protection involving about 20 hydrogens is observed in DHFR bound to GroEL in the absence of ATP. Analysis of the line width of peaks in the mass spectra, together with fluorescence quenching and ANS binding studies, suggest that the bound DHFR is partially folded, but contains stable structure in a small region of the polypeptide chain. DHFR rebound to GroEL 3 min after initiating its folding by the addition of MgATP was also examined by hydrogen exchange, fluorescence quenching, and ANS binding. The results indicate that the extent of protection of the substrate protein rebound to GroEL is indistinguishable from that of the initial bound state. Despite this, small differences in the quenching coefficient and ANS binding properties are observed in the rebound state. On the basis of these results, we suggest that GroEL-assisted folding of DHFR occurs by minor structural adjustments to the partially folded substrate protein during iterative cycling, rather than by complete unfolding of this protein substrate on the chaperonin surface.
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PMID:Significant hydrogen exchange protection in GroEL-bound DHFR is maintained during iterative rounds of substrate cycling. 897 59

The analysis of clones obtained by rapid amplification of the 5' end and by primer extension of the mRNA for carrot bifunctional dihydrofolate reductase-thymidylate synthase showed transcripts of differing lengths that belonged to two sub-populations. The longer transcripts were found to contain a translation start site 147 nt upstream of, and in frame with, the one which is present in the shorter transcripts. The ORF that begins at this ATG codes for a protein of 64714 Da, which is much larger than mature DHFR-TS subunit. The N-terminus region of this polypeptide shows features typical of plant transit peptides. Immunogold labelling studies and immunorecognition of the plastid-containing sub-cellular fraction suggested a plastidial localisation of the bifunctional protein. Although plant cells were shown to contain folate pools in plastids, in mitochondria and in the cytosol, few enzymes of the folate pathway have been associated with any sub-cellular compartment. Thus, this is the first indication for the presence of an enzyme of the folate biosynthetic pathway in plastids. The longer transcripts revealed the presence of a TC microsatellite at the 5'-untranslated end.
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PMID:Multiple transcription start sites of the carrot dihydrofolate reductase-thymidylate synthase gene, and sub-cellular localization of the bifunctional protein. 913 62

We have previously shown that chick muscle extracts contain at least 10 different ubiquitin C-terminal hydrolases (UCHs). In the present studies, one of the enzymes, called UCH-1 was partially purified by conventional chromatographic procedures using (125)I-labeled ubiquitin-alphaNH-MHISPPEPESEEEEEHYC as a substrate. The purified enzyme behaved as a 35-kDa protein under both denaturing and nondenaturing conditions, suggesting that it consisted of a single polypeptide chain. It was maximally active at pHs between 8 and 9, but showed little or no activity at pH below 6 and above 11. Like other UCHs, its activity was strongly inhibited by sulfhydryl blocking reagents, such as iodoacetamide, and by ubiquitin-aldehyde. In addition to Ub-PESTc, UCH-1 hydrolyzed ubiquitin-alphaNH-protein extensions, including ubiquitin-alphaNH-carboxyl extension protein of 80 amino acids, ubiquitin-alphaNH-dihydrofolate reductase, and poly-His-tagged di-ubiquitin. This enzyme was also capable of generating free ubiquitin from mono-ubiquitin-epsilonNH-protein conjugates and from branched poly-ubiquitin chains that are ligated to proteins through epsilon NH-isopeptide bonds. These results suggest that UCH-1 may play an important role in the generation of free ubiquitin from ubiquitin-ribosomal protein fusions and linear poly-ubiquitin, as well as in recycling of Ub molecules after degradation of poly-ubiquitinated protein conjugates by the 26S proteasome.
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PMID:Purification and characterization of a new ubiquitin C-terminal hydrolase (UCH-1) with isopeptidase activity from chick skeletal muscle. 916 18

We have previously shown that chick muscle extracts contained at least 10 different ubiquitin C-terminal hydrolases (UCHs). Here we report the purification and characterization of one of the UCHs, called UCH-8, with 125I-labelled ubiquitin-alpha-NH-MHISPPEPESEEEEEHYC as a substrate. The purified UCH-8 behaved as a 240 kDa protein on a Superdex-200 column under non-denaturing conditions but as a 130 kDa polypeptide on analysis by PAGE under denaturing conditions, suggesting that the enzyme consists of two identical subunits. Thus this enzyme seems to be distinct in its dimeric nature from other purified UCHs that consist of a single polypeptide, except that UCH-6 is also a homodimer of 27 kDa subunits. UCH-8 was maximally active between pH 7.5 and 8, but showed little or no activity below pH 7 and above pH 9. Like other UCHs it was sensitive to inhibition by thiol-blocking agents such as N-ethylmaleimide, and by ubiquitin aldehyde. The purified UCH-8 hydrolysed not only ubiquitin-alpha-NH-protein extensions, including ubiquitin-alpha-NH-carboxy extension protein of 80 amino acid residues and ubiquitin-alpha-NH-dihydrofolate reductase, but also branched poly-ubiquitin that are ligated to proteins through epsilon-NH-isopeptide bonds. However, it showed little or no activity against poly-His-tagged di-ubiquitin, suggesting that UCH-8 is not involved in the generation of free ubiquitin from the linear poly-ubiquitin precursors. These results suggest that UCH-8 might have an important role in the production of free ubiquitin and ribosomal proteins from their conjugates as well as in the recycling of ubiquitin molecules after the degradation of poly-ubiquitinated protein conjugates by the 26 S proteasome.
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PMID:New de-ubiquitinating enzyme, ubiquitin C-terminal hydrolase 8, in chick skeletal muscle. 923 Jan 10

Ubiquitin-specific protease-6 (UBP6) in Saccharomyces cerevisiae was expressed in Escherichia coli and purified from the cells using 125I-labeled ubiquitin-alphaNH-MHISPPEPESEEEEEHYC as a model substrate. The purified UBP6 behaved as a 58-kDa under both nondenaturing and denaturing conditions, indicating that the enzyme comprises a single polypeptide. It was maximally active at pH levels between 8.5 and 9, but showed little or no activity at pH below 7 and above 9.5. As with other UBPs, its activity was strongly inhibited by sulfhydryl-blocking reagents, such as N-ethylmaleimide, and by ubiquitin-aldehyde. In addition to the model substrate, UBP6 hydrolyzed ubiquitin-alphaNH-protein extensions, such as the ubiquitin-alphaNH-carboxyl extension protein of 80 amino acids and ubiquitin-alphaNH-dihydrofolate reductase, but not poly-His-tagged diubiquitin. It was also capable of releasing free ubiquitin from branched polyubiquitin chains that are ligated to proteins through epsilonNH-isopeptide bonds, although to a limited extent. These results suggest that UBP6 may play an important role in the generation of free ubiquitins and certain ribosomal proteins from ubiquitin-ribosomal fusion proteins as well as in deubiquitination of certain polyubiquitinated proteins targeted for degradation by the 26S proteasomes.
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PMID:Purification and characterization of UBP6, a new ubiquitin-specific protease in Saccharomyces cerevisiae. 934 67

Dihydrofolate reductase is an essential bacterial enzyme necessary for the maintenance of intracellular folate pools in a biochemically active reduced state. In this report, the Mycobacterium avium folA gene was identified by functional genetic complementation, sequenced, and expressed for the first time. It has an open reading frame of 543 bp with a G + C content of 73%. The translated polypeptide sequence shows 58% identity to the consensus sequence of the conserved regions from eight other bacterial dihydrofolate reductases. Recombinant M. avium dihydrofolate reductase was expressed actively in Escherichia coli, and SDS-PAGE analysis revealed a 20 kDa species, agreeable with that predicted from the polypeptide sequence:
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PMID:Identification and cloning of the Mycobacterium avium folA gene, required for dihydrofolate reductase activity. 936 62

An immunological hierarchy among three H-2Db-restricted cytotoxic T lymphocyte (CTL) determinants in simian virus 40 (SV40) large T antigen (Tag) was described previously: determinants I and II/III are immunodominant, whereas determinant V is immunorecessive. To assess the immunogenicity of each determinant individually and define mechanisms that contribute to the immunorecessive nature of determinant V, we constructed a panel of recombinant vaccinia viruses (rVVs) expressing minigenes encoding these determinants in various polypeptide contexts. We found the following. (i) Immunization of mice with an rVV encoding full-length SV40 Tag resulted in priming for CTL responses to determinants I and II/III but not determinant V. (ii) rVVs encoding peptide I or II/III in the cytosol or targeted to the endoplasmic reticulum (ER) were highly antigenic and immunogenic. (iii) rVVs encoding peptide V minigenes were antigenic and immunogenic if the peptide was targeted to the ER, expressed in the cytosol with short flanking sequences, or expressed from within a self-protein, murine dihydrofolate reductase. (iv) Presentation of the nonflanked peptide V (preceded by a Met codon only) could be enhanced by using a potent inhibitor of the proteasome. (v) H-2Db-epitope V peptide complexes decayed more rapidly than complexes containing epitope I or II/III peptides. In brefeldin A blocking experiments, functional epitope V complexes were detected longer on targets expressing ER-targeted epitope V than on targets expressing forms of epitope V dependent on the transporter associated with antigen processing. Therefore, limited formation of relatively unstable cell surface H-2Db complexes most likely contributes to the immunorecessive nature of epitope V within SV40 Tag. Increasing the delivery of epitope V peptide to the major histocompatibility complex class I presentation pathway by ER targeting dramatically enhanced the immunogenicity of epitope V.
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PMID:An endoplasmic reticulum-targeting signal sequence enhances the immunogenicity of an immunorecessive simian virus 40 large T antigen cytotoxic T-lymphocyte epitope. 944 50

The thymidylate synthase (TS) and dihydrofolate reductase (DHFR) enzymes are found on a single polypeptide chain in several species of protozoa such as the parasitic Leishmania major. Earlier studies with the bifunctional TS-DHFR enzyme from L. major have suggested that this enzyme exhibits a phenomenon known as substrate channeling [Meek, T. D., et al. (1985) Biochemistry 24, 678-686]. This is a process by which a metabolite or intermediate is directly transferred from one enzyme active site to the next without being released free into solution. The crystal structure for the bifunctional TS-DHFR enzyme from L. major was recently solved, and it was shown that the TS active site was located 40 A from the DHFR active site [Knighton, D. R., et al. (1994) Nat. Struct. Biol. 1, 186-194]. On the basis of the crystal structure, a novel mechanism has been proposed for the channeling of the intermediate, dihydrofolate, from the TS active site to the DHFR active site [Knighton, D. R., et al. (1994) Nat. Struct. Biol. 1, 186-194]. They suggest that the dihydrofolate is transferred via an "electrostatic" channel on the protein surface which connects the two active sites. In this report, we describe the use of a rapid transient kinetic analysis in examining the kinetics of substrate channeling as well as domain-domain interactions in the bifunctional TS-DHFR from L. major.
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PMID:Substrate channeling and domain-domain interactions in bifunctional thymidylate synthase-dihydrofolate reductase. 972 33

In several species of protozoa, the catalytic activities for the enzymes dihydrofolate reductase (DHFR) and thymidylate synthase (TS) reside on a single polypeptide chain constituting a bifunctional thymidylate synthase-dihydrofolate reductase enzyme. In most other species, however, these enzymes occur as monofunctional catalytic activities on separate enzymes. In this study, the kinetic reaction scheme for the dihydrofolate reductase activity from the bifunctional thymidylate synthase-dihydrofolate reductase (TS-DHFR) isolated from the parasite Leishmania major is compared to that of the monofunctional DHFR purified from Escherichia coli. Examination using pre-steady-state kinetic methods reveals interesting differences between the bifunctional and monofunctional forms of the dihydrofolate reductase enzymes. The rate-limiting step in the kinetic pathway for the monofunctional E. coli enzyme is the release of product, tetrahydrofolate. In contrast, for the L. major bifunctional enzyme, the kinetic step which limits the steady-state turnover is a conformational change associated with the release of NADP+. A complete kinetic description for the dihydrofolate reductase reaction pathway for the bifunctional enzyme is presented.
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PMID:Kinetic reaction scheme for the dihydrofolate reductase domain of the bifunctional thymidylate synthase-dihydrofolate reductase from Leishmania major. 972 34

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