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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)
Most mitochondrial proteins are synthesized as precursors in the cytosol and imported through contact sites between outer and inner mitochondrial membranes. The molecular mechanism of membrane translocation of precursor proteins is largely unclear. For this report, various hybrid proteins between portions of the precursor of cytochrome b2 and the entire
dihydrofolate reductase
(
DHFR
) were accumulated in mitochondrial contact sites. We unexpectedly found that about 50 amino acid residues of the
polypeptide
chain in transit were sufficient to span both membranes. This suggests a linear translocation of the
polypeptide
chain and presents evidence for a high degree of unfolding of polypeptides traversing the mitochondrial membranes.
...
PMID:Polypeptides traverse the mitochondrial envelope in an extended state. 214 57
Herpesvirus saimiri strains can be divided into at least three subgroups (A, B, C) based on sequence divergence at the left end of viral unique sequence DNA. Strains of subgroups A and C are highly oncogenic and readily transform simian T-lymphocytes in vitro to interleukin-2 independent growth, while subgroup B strains do not. A left terminal reading frame of a H. saimiri subgroup A strain was shown previously to correlate with the oncogenic phenotype and in vitro transforming potential; the deduced
polypeptide
was termed STP-A. Furthermore, this same region contains an open reading frame (ORF) for
dihydrofolate reductase
(
DHFR
) and genes for five virus-specific U RNAs (HSURs). We now show by sequence analysis of the corresponding region in a subgroup C strain that
DHFR
and HSUR genes are present in both virus subgroups; however, no sequence homologous to the STP-A reading frame was found in this subgroup C virus. At a position and orientation similar to STP-A, two ORFs were found for peptides sharing a putative transmembrane domain. One of them encodes a peptide with collagen-like repetitions. In addition to the lack of similarity to STP-A, these two reading frames also did not show any similarity to known oncogenes. The organization of sequences at the left junction of unique L- and repetitive H-DNA of H. saimiri suggests frequent recombinational events, possibly accelerating the uptake of foreign genes by the virus.
...
PMID:The divergence between two oncogenic Herpesvirus saimiri strains in a genomic region related to the transforming phenotype. 216 Nov 48
Replication of the Chinese hamster
dihydrofolate reductase
gene (dhfr) initiates near a fragment of stably bent DNA that binds multiple cellular factors. Investigation of protein interactions with the dhfr bent DNA sequences revealed a novel nuclear protein that also binds to domain B of the yeast origin of replication, the autonomously replicating sequence ARS1. The origin-specific DNA-binding activity was purified 9,000-fold from HeLa cell nuclear extract in five chromatographic steps. Protein-DNA cross-linking experiments showed that a 60-kDa
polypeptide
, which we call RIP60, contained the origin-specific DNA-binding activity. Oligonucleotide displacement assays showed that highly purified fractions of RIP60 also contained an ATP-dependent DNA helicase activity. Covalent radiolabeling with ATP indicated that the DNA helicase activity resided in a 100-kDa
polypeptide
, RIP100. The cofractionation of an ATP-dependent DNA helicase with an origin-specific DNA-binding activity suggests that RIP60 and RIP100 may be involved in initiation of chromosomal DNA synthesis in mammalian cells.
...
PMID:Purification of RIP60 and RIP100, mammalian proteins with origin-specific DNA-binding and ATP-dependent DNA helicase activities. 217 3
In protozoa, thymidylate synthase (TS) and
dihydrofolate reductase
(
DHFR
) exist on the same
polypeptide
. The
DHFR
domain is on the amino terminus, TS is on the carboxy terminus, and the domains are separated by a junction peptide of varying size depending on the source. The native protein is a dimer of two such subunits and is 110-140 kDa. Most studies of bifunctional TS-
DHFR
have been performed with the protein from anti-folate resistant strains of Leishmania major, which show amplification of the TS-
DHFR
gene and overproduction of the bifunctional protein. The Leishmania TS-
DHFR
has also been highly expressed in heterologous systems. There is extensive communication between domains, and channeling of the H2folate product of TS to
DHFR
. Anti-folates commonly used to treat microbial infections are poor inhibitors of L. major
DHFR
. However, selective inhibitors of L. major vs human
DHFR
have been found. The TS-
DHFR
from Plasmodium falciparum has also been cloned and sequenced. Interestingly, pyrimethamine-resistant strains of P. falciparum have a common point mutation in the
DHFR
coding sequence which causes decreased binding of the folate analog. A detailed knowledge of the structure and function of protozoan TS-DHFRs will soon be available.
...
PMID:Thymidylate synthase-dihydrofolate reductase in protozoa. 217 51
Protozoa contain thymidylate synthase (TS) and
dihydrofolate reductase
(
DHFR
) on the same
polypeptide
. In the bifunctional protein, the
DHFR
domain is on the amino terminus, TS is on the carboxyl terminus, and the two domains are separated by a junction peptide of varying size depending on the source. The native protein is composed of a dimer of two such subunits and is 110-140 kDa. Most studies of the bifunctional TS-
DHFR
have been performed with the protein from anti-folate resistant strains of Leishmania major, which show amplification of the TS-
DHFR
gene and overproduction of the bifunctional protein. The Leishmania TS-
DHFR
has also been highly expressed in heterologous systems. There appears to be extensive communication among domains and channeling of the H2folate product of TS to
DHFR
. Anti-folates commonly used to treat microbial infections are poor inhibitors of L. major
DHFR
. However, selective inhibition of L. major vs. human
DHFR
does not appear difficult to achieve, and selective inhibitors are known. The TS-
DHFR
from Plasmodium falciparum has also been cloned and has recently been expressed in Escherichia coli, albeit in small amounts. Interestingly, pyrimethamine-resistant strains of P. falciparum all have a common point mutation in the
DHFR
coding sequence (Thr/Ser 108 to Asn), which causes decreased binding of the folate analog. It is suggested that if an appropriate inhibitor of the pyrimethamine-resistant P. falciparum DHFRs can be found, it may serve in combination with pyrimethamine as an antimalarial regimen with low propensity for the development of resistance. In the future, we project that we will have a detailed knowledge of the structure and function of TS-DHFRs, and have the essential tools necessary for a molecular-based approach to drug design.
...
PMID:Bifunctional thymidylate synthase-dihydrofolate reductase in protozoa. 218 Jul 68
In beta-galactosidase of Escherichia coli residues 820-934 are similar to residues in
dihydrofolate reductase
of E. coli. Dihydrofolate reductase of E. coli and chicken are also similar and have identical tertiary structures. I used the similarity of the three-dimensional structure of prokaryotic and eukaryotic dihydrofolate reductases to align the chicken
dihydrofolate reductase
and the similar residues of beta-galactosidase. The positions of introns 1 and 5 of the chicken
dihydrofolate reductase
gene correspond exactly to the start and the end of the
dihydrofolate reductase
-like domain in the beta-galactosidase
polypeptide
chain. This equivalence of intron positions in a eukaryotic gene and domain structure in a prokaryotic protein was interpreted as evidence for a common origin of both genes.
...
PMID:The border residues of the dihydrofolate reductase domain in Escherichia coli beta-galactosidase correspond to the positions of introns 1 and 5 of dihydrofolate reductase of chicken. 250 33
In a previous report it was shown that mammalian ribosomes were capable of initiating translation at a non-AUG triplet when the initiation codon of mouse
dihydrofolate reductase
(dhfr) was mutated to ACG (Peabody, D.S. (1987) J. Biol. Chem. 262, 11847-11851). In order to assess the capacity of the mammalian translation apparatus to initiate at other non-AUG triplets, the initiator AUG of
dihydrofolate reductase
was converted to GUG, UUG, CUG, AGG, AAG, AUA, AUC, and AUU. These represent (with ACG) all the possible triplets that differ from AUG by only one nucleotide. The ability of each mutant to produce
dihydrofolate reductase
was assessed by in vitro transcription/translation of the mutant dhfr sequences under control of the bacteriophage SP6 promoter. Each of the triplets (with the exceptions of AGG and AAG) was able to direct the synthesis of apparently normal
dihydrofolate reductase
. Incorporation of [35S]tRNAifMet into the products of in vitro translation indicates that in each case the non-AUG triplet is able to direct initiation of the
polypeptide
chain with methionine. The mutant dhfr sequences were also inserted into the mammalian expression vector SVGT5 for expression in cultured monkey cells. The hierarchy of relative translation efficiencies was similar in vivo and in vitro.
...
PMID:Translation initiation at non-AUG triplets in mammalian cells. 253 69
Conformations of an artificial mitochondrial precursor protein pCox IV-
DHFR
have been analyzed by CD and fluorescence spectroscopy in the presence of (cardiolipin-rich) phospholipid vesicles or SDS micelles. Binding of pCox IV-
DHFR
to phospholipid vesicles involves a conformational change, which is presequence-dependent, accompanies alteration in the secondary structure of the
DHFR
moiety, but is different from total unfolding of the
polypeptide
chain. On the other hand, a conformational change of the fusion protein on binding to the micelles of a positively charged detergent, SDS, is not presequence-dependent.
...
PMID:Conformational changes of a mitochondrial precursor protein on binding to phospholipid vesicles and SDS micelles. A circular dichroism and fluorescence spectroscopy study. 266 Dec 63
The thymidylate synthase (TS) gene from Pneumocystis carinii has been isolated from complementary and genomic DNA libraries and expressed in Escherichia coli. The coding sequence of TS is 891 nucleotides, encoding a 297-amino acid protein of Mr 34,269. The deduced amino acid sequence is similar to TS from other organisms and is most closely related to the enzyme from Saccharomyces cerevisiae with 65% identity. TS is found on a 330-kilobase-pair chromosome in P. carinii. While TS and
dihydrofolate reductase
reside on a single
polypeptide
chain in all protozoa studied to date, TS is not linked to
dihydrofolate reductase
in P. carinii. The TS gene shows the presence of four small intervening sequences, some of which interrupt the coding sequence in highly ordered structural regions of the protein. Heterologous expression of P. carinii TS in E. coli was accomplished by cloning the coding sequence into plasmid vectors under control of the lac and tac promoters. These constructs direct the synthesis of catalytically active enzyme to the extent of 2% of total soluble protein.
...
PMID:Isolation and expression of the Pneumocystis carinii thymidylate synthase gene. 267 92
The nucleotide sequence of a DNA fragment that contained the Saccharomyces cerevisiae gene DFR coding for
dihydrofolate reductase
(
DHFR
) was determined. The
DHFR
was encoded by a 633-bp open reading frame, which specified an Mr24264 protein. The
polypeptide
was significantly related to the DHFRs of chicken liver and Escherichia coli. The yeast enzyme shared 60 amino acid (aa) residues with the avian enzyme and 51 aa residues with the bacterial enzyme.
DHFR
was overproduced about 40-fold in S. cerevisiae when the cloned gene was present in the vector YEp24. As isolated from the Saccharomyces library, the DFR gene was not expressed in E. coli. When the gene was present on a 1.8-kb BamHI-SalI fragment subcloned into the E. coli vector, pUC18, weak expression in E. coli was observed.
...
PMID:Nucleotide sequence of the dihydrofolate reductase gene of Saccharomyces cerevisiae. 283 85
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