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)

A hybrid precursor protein constructed by fusing the mitochondrial matrix-targeting signal of rat preornithine carbamyl transferase to murine cytosolic dihydrofolate reductase (designated pO-DHFR) was expressed in Escherichia coli. Following purification under denaturing conditions, pO-DHFR was capable of membrane translocation when diluted directly into import medium containing purified mitochondria but lacking cytosolic extracts. This import competence was lost with time, however, when the precursor was diluted and preincubated in medium lacking mitochondria, unless cytosolic proteins (provided by rabbit reticulocyte lysate) were present. Identical results were obtained for purified precursor made by in vitro translation. The ability of the cytosolic proteins to maintain the purified precursor in an import-competent state was sensitive to protease, N-ethylmaleimide (NEM), and was heat labile. Further, this activity appeared to be signal sequence dependent. ATP was not required for the maintenance of pO-DHFR competence, nor did purified 70-kDa heat shock protein (the constitutive form of Hsp70) substitute for this activity. Interestingly, however, purified Hsp70 prevented aggregation of the precursor in an ATP-dependent manner and, as well, retarded the apparent rate and extent of pO-DHFR folding. Partial purification of reticulocyte lysate proteins indicated that competence activity resides within a large mass protein fraction (200-250 kDa) that contains Hsp70. Sucrose density gradient analysis revealed that pO-DHFR reversibly interacts with components of this fraction. Pretreatment of the fraction with NEM, however, significantly stabilized the subsequent formation of a complex with the precursor. The results indicate that Hsp70 can retard precursor polypeptide folding and prevent precursor aggregation; however, by itself, Hsp70 cannot confer import competence to pO-DHFR. Maintenance of import competence correlates with interactions between the precursor and an NEM-sensitive cytosolic protein fraction. Efficient dissociation of the precursor from this complex appears to require a reactive thiol moiety on the cytosolic protein(s).
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PMID:Mitochondrial precursor protein. Effects of 70-kilodalton heat shock protein on polypeptide folding, aggregation, and import competence. 219 31

The molecular karyotypes of four isolates of Plasmodium chabaudi, three of the subspecies P. chabaudi adami and one P. chabaudi chabaudi, as well as P. berghei and P. vinckei were studied by means of pulsed field gradient (PFG) gel electrophoresis. Each species appears to have 14 chromosomes, ranging in size from approximately 730 kb to greater than 2000 kb. The three P. chabaudi adami isolates did not appear any more similar to each other than to the P. c. chabaudi isolate. The chromosome locations of genes for a heat shock protein (hsp) 70, ribosomal RNA (rRNA), the precursor to the major merozoite surface proteins, dihydrofolate reductase and P. falciparum antigen 352 as well as four cloned DNA markers and a telomere probe were determined. However, a number of probes representing cloned P. falciparum antigens failed to hybridize to P. chabaudi DNA. Hence genes for malaria antigens appear to be much more divergent than genes for housekeeping functions.
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PMID:Molecular karyotyping of the rodent malarias Plasmodium chabaudi, Plasmodium berghei and Plasmodium vinckei. 265 17

A novel method has been developed for modulating the expression of an endogenous chromosomal gene in a higher eukaryote, by competitive inhibition at the level of gene transcription. The gene studied was the hsp70 gene, which encodes a 72-kilodalton (kD) heat shock protein that is synthesized after thermal stress. The 5' control region of the hsp70 gene was inserted on a plasmid containing the eukaryotic gene for dihydrofolate reductase. The hybrid plasmid was then introduced into a Chinese hamster ovary cell line and elevated in copy number approximately 20,000-fold by selection of cells with methotrexate. Heat-inducible expression from the intact hsp70 gene was reduced by at least 90% in the modified cells when compared with the induction in control cells, and the modified cells also displayed elevated thermosensitivity. The change in heat shock protein synthesis is presumably caused by competition among the increased number of binding sites for the heat-shock transcription factor, leading to altered expression from the native heat shock gene. These results support a role for heat shock protein in the recovery of mammalian cells from acute thermal stress.
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PMID:Competitive inhibition of hsp70 gene expression causes thermosensitivity. 320 Dec 44

We isolated a panel of 20 DNA probes that hybridize specifically to chromosome No. 4 of Plasmodium falciparum and used them to construct a restriction map of chromosome No. 4 in the FCR3 strain. These probes were partially sequenced and had an insert size range of 70-310 bp (average 160 bp) and a GC content range of 19-53% (average 35%). Three probes were identical to previously described P. falciparum sequences. Two probes were homologous to an 18-bp repetitive sequence in a previously cloned P. falciparum gene but were not homologous to other parts of the gene. One probe sequence is a homologue of the heat shock protein, DnaJ. The location of these probes and four previously cloned probes on chromosome No. 4 were determined by using eight restriction enzymes that recognize 6-bp sites containing only G or C and 10 restriction enzymes that recognize 6-bp sites containing four G or C and two A or T. The locations of the probes were well distributed along the chromosome. Three probes were located at two sites and two probes were found at at least four sites on chromosome No. 4. Maps of chromosome No. 4 of the FCR3 strain, and three laboratory-selected, pyrimethamine-resistant derivative strains were constructed. Two of the strains, FCR3-D81 and FCR3-D85, each had two polymorphic forms of chromosome No. 4. Each of those polymorphic chromosomes had a duplicated part of the center of the chromosome making the cell diploid for the genetic material in that region. Those chromosomes also had an amplification and probable intrachromosomal translocation of a 50-kb fragment of chromosome No. 4. One strain derived from FCR3-D7, FCR3-D7-1 contained 20 copies of a tandemly amplified fragment carrying the dihydrofolate reductase-thymidylate synthase gene and an amplification of an unrelated part of the chromosome.
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PMID:Establishing a physical map of chromosome No. 4 of Plasmodium falciparum. 796 62

Mdj1p, a novel member of the DnaJ family, is a heat shock protein that is associated with the inner membrane of mitochondria of Saccharomyces cerevisiae. Disruption of the MDJ1 gene resulted in a petite phenotype, loss of mitochondrial DNA, and inviability at 37 degrees C. Import of precursor proteins was not affected by a lack of Mdj1p, but folding of newly imported proteins was markedly impaired. The efficiency of refolding of a tester protein, dihydrofolate reductase, was significantly reduced in mitochondria lacking Mdj1p after incubation at elevated temperature. We conclude that Mdj1p is an important mitochondrial chaperone that participates in the folding of newly imported proteins and in the protection of proteins against heat denaturation and aggregation.
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PMID:Mdj1p, a novel chaperone of the DnaJ family, is involved in mitochondrial biogenesis and protein folding. 816 33

A cDNA clone encoding a cognate 70-kDa heat shock protein from the spinach chloroplast outer envelope (SCE70) was recently characterized (Ko, K., Bornemisza, O., Kourtz, L., Ko, Z. W., Plaxton, W. C., and Cashmore, A. R. (1992) J. Biol. Chem. 267, 2986-2993). Initial studies revealed that SCE70 is targeted to the chloroplast outer envelope membrane without further processing. To determine whether SCE70 possesses a "targeting domain," we tested the targeting ability of SCE70 proteins with various carboxyl- and amino-terminal deletions. Carboxyl-terminal deletions of up to 60% of the protein had no apparent effect on the targeting ability of SCE70. Amino-terminal deletions abolished targeting to the chloroplast except when the extreme NH2-terminal 48-amino acid sequence was retained. We further assessed the chloroplast-targeting ability of the NH2-terminal 48 amino acids by fusing to the foreign protein, mouse dihydrofolate reductase (DHFR). The resulting fusion protein, SCE70-DHFR, was localized to the outer envelope membrane of isolated chloroplasts. SCE70-DHFR exhibited targeting characteristics similar to native SCE70. The targeting of SCE70-DHFR was inhibited effectively by anti-SCE70 antibodies. Immunoprecipitation and chemical cross-linking experiments revealed that SCE70-DHFR is targeted to the same complex as SCE70 in the chloroplast envelope. These results suggest that the extreme NH2 terminus of SCE70 is required for directing SCE70 to a destination in the chloroplast outer envelope membrane, possibly through assembling the polypeptide into a protein complex.
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PMID:Identification of an uncleavable targeting signal in the 70-kilodalton spinach chloroplast outer envelope membrane protein. 836 85

To test the hypothesis that 70-kD mitochondrial heat shock protein (mt-hsp70) has a dual role in membrane translocation of preproteins we screened preproteins in an attempt to find examples which required either only the unfoldase or only the translocase function of mt-hsp70. We found that a series of fusion proteins containing amino-terminal portions of the intermembrane space protein cytochrome b2 (cyt. b2) fused to dihydrofolate reductase (DHFR) were differentially imported into mitochondria containing mutant hsp70s. A fusion protein between the amino-terminal 167 residues of the precursor of cyt. b2 and DHFR was efficiently transported into mitochondria independently of both hsp70 functions. When the length of the cyt. b2 portion was increased and included the heme binding domain, the fusion protein became dependent on the unfoldase function of mt-hsp70, presumably caused by a conformational restriction of the heme-bound preprotein. In the absence of heme the noncovalent heme binding domain in the longer fusion proteins no longer conferred a dependence on the unfoldase function. When the cyt. b2 portion of the fusion protein was less than 167 residues, its import was still independent of mt-hsp70 function; however, deletion of the intermembrane space sorting signal resulted in preproteins that ended up in the matrix of wild-type mitochondria and whose translocation was strictly dependent on the translocase function of mt-hsp70. These findings provide strong evidence for a dual role of mt-hsp70 in membrane translocation and indicate that preproteins with an intermembrane space sorting signal can be correctly imported even in mutants with severely impaired hsp70 function.
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PMID:Presequence and mature part of preproteins strongly influence the dependence of mitochondrial protein import on heat shock protein 70 in the matrix. 840 92

Tim44 is an essential component of the mitochondrial inner membrane protein import machinery. In this study we asked if Tim44 is of relevance in intramitochondrial protein folding. We investigated the role of Tim44 in the biogenesis of the authentic mitochondrial protein Yfh1p, the yeast homolog of mammalian frataxin, which was recently implicated in Friedreich ataxia. After inactivation of Tim44, binding of mitochondrial heat shock protein (mtHsp)70 to translocating Yfh1p and subsequent folding to the native state was nearly completely blocked. Residual amounts of imported Yfh1p showed an increased tendency to aggregate. To further characterize the functions of Tim44 in the matrix, we imported dihydrofolate reductase (DHFR) as a model protein. Depletion of Tim44 allowed import of DHFR, although folding of the newly imported DHFR was delayed. Moreover, the depletion of Tim44 caused a strongly reduced binding of mtHsp70 and Mge1 to the translocating polypeptide. Subsequent dissociation of mtHsp70 from imported DHFR was delayed, indicating that mtHsp70-substrate complexes formed independently of Tim44 differ from the complexes that form under the control of Tim44. We conclude that Tim44 not only plays a role in protein translocation but also in the pathways of mitochondrial protein folding.
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PMID:Biogenesis of the yeast frataxin homolog Yfh1p. Tim44-dependent transfer to mtHsp70 facilitates folding of newly imported proteins in mitochondria. 1082 1

Although heat shock protein Hsp72 confers resistance to oxidative injury, the mechanisms are unknown. These studies demonstrate that Hsp72 protects dihydrofolate reductase (DHFR) against injury caused by the thiol oxidant monochloramine (NH(2)Cl). When exposed to NH(2)Cl, DHFR catalytic activity is impaired and SDS-PAGE migration retarded. These may be blocked by prior addition of Hsp72 or the folate analog methotrexate. Methotrexate binding to DHFR is diminished by oxidant treatment, preventable by prior Hsp72 incubation. Hsp72 also protects DHFR in IEC-18 cells following oxidant exposure. Hsp72 co-immunoprecipitates with DHFR, especially after partial oxidation. The DHFR-Hsp72 interaction is modulated by cofactor/substrate binding for both Hsp72 (ATP) and DHFR (methotrexate). Thiol oxidation of DHFR increases susceptibility for tryptic proteolysis. Preincubation of DHFR with Hsp72 prevents the NH(2)Cl-induced sensitivity to proteolysis. Thus, Hsp72 binds DHFR through enhanced protein-chaperone interactions upon oxidant exposure, a process that may protect against irreversible modification of DHFR catalytic and structural integrity.
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PMID:Heat shock protein 72 binds and protects dihydrofolate reductase against oxidative injury. 1467 16

The Clostridium botulinum C2 toxin is the prototype of the family of binary actin-ADP-ribosylating toxins. C2 toxin is composed of two separated nonlinked proteins. The enzyme component C2I ADP-ribosylates actin in the cytosol of target cells. The binding/translocation component C2II mediates cell binding of the enzyme component and its translocation from acidic endosomes into the cytosol. After proteolytic activation, C2II forms heptameric pores in endosomal membranes, and most likely, C2I translocates through these pores into the cytosol. For this step, the cellular heat shock protein Hsp90 is essential. We analyzed the effect of methotrexate on the cellular uptake of a fusion toxin in which the enzyme dihydrofolate reductase (DHFR) was fused to the C-terminus of C2I. Here, we report that unfolding of C2I-DHFR is required for cellular uptake of the toxin via the C2IIa component. The C2I-DHFR fusion toxin catalyzed ADP-ribosylation of actin in vitro and was able to intoxicate cultured cells when applied together with C2IIa. Binding of the folate analogue methotrexate favors a stable three-dimensional structure of the dihydrofolate reductase domain. Pretreatment of C2I-DHFR with methotrexate prevented cleavage of C2I-DHFR by trypsin. In the presence of methotrexate, intoxication of cells with C2I-DHFR/C2II was inhibited. The presence of methotrexate diminished the translocation of the C2I-DHFR fusion toxin from endosomal compartments into the cytosol and the direct C2IIa-mediated translocation of C2I-DHFR across cell membranes. Methotrexate had no influence on the intoxication of cells with C2I/C2IIa and did not alter the C2IIa-mediated binding of C2I-DHFR to cells. The data indicate that methotrexate prevented unfolding of the C2I-DHFR fusion toxin, and thereby the translocation of methotrexate-bound C2I-DHFR from endosomes into the cytosol of target cells is inhibited.
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PMID:Cellular uptake of Clostridium botulinum C2 toxin: membrane translocation of a fusion toxin requires unfolding of its dihydrofolate reductase domain. 1469 Apr 38

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