Gene/Protein Disease Symptom Drug Enzyme Compound
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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 presecretory protein preprocecropinA (which comprises 64 amino acid residues) as well as a synthetic hybrid between preprocecropinA and dihydrofolate reductase (which comprises 252 amino acid residues) are processed by and transported into mammalian microsomes. Transport of both precursor proteins can take place cotranslationally, i.e. with the aid of ribosome and signal recognition particle, or posttranslationally, i.e. independently of these ribonucleoparticles (RNPs). We investigated the role of the precursor structure with respect to competence for RNP-independent transport by constructing deletion mutants and hybrid proteins. The results demonstrate that the signal peptide is essential for RNP-independent transport. Furthermore, the signal peptide is sufficient for translocation of preprocecropinA derivatives up to 85 amino acid residues in size. However, the conformation of the precursor protein is decisive in the case of larger hybrid proteins.
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PMID:Structural requirements for transport of preprocecropinA and related presecretory proteins into mammalian microsomes. 144 83

Translocation of large presecretory proteins into the mammalian endoplasmic reticulum requires the ribonucleoparticles, signal recognition particle, and ribosome and is tightly coupled to ongoing protein synthesis. We have shown previously that small presecretory proteins can translocate post-translationally in a reaction that does not require these ribonucleoparticles. We now report that one large protein, a synthetic hybrid between preprocecropin A and dihydrofolate reductase, translocates both cotranslationally (with the aid of signal recognition particle and ribosome) and post-translationally (without the involvement of these ribonucleoparticles) during its in vitro synthesis in the presence of dog pancreas microsomes. The distinction between these two modes of translocation was made possible by adding methotrexate to the translocation reaction. Methotrexate can only form a tight complex with those preprocecropin A-dihydrofolate reductase hybrid chains that have completed their synthesis and folded, but in forming this tight complex, this drug prevents translocation of the dihydrofolate reductase domain across the membrane.
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PMID:A large presecretory protein translocates both cotranslationally, using signal recognition particle and ribosome, and post-translationally, without these ribonucleoparticles, when synthesized in the presence of mammalian microsomes. 238 Jan 97

Honeybee prepromelittin is correctly processed and imported by dog pancreas microsomes. Insertion of prepromelittin into microsomal membranes, as assayed by signal sequence removal, does not depend on signal recognition particle (SRP) and docking protein. We addressed the question as to how prepromelittin bypasses the SRP/docking protein system. Hybrid proteins between prepromelittin, or carboxy-terminally truncated derivatives, and the cytoplasmic protein dihydrofolate reductase from mouse were constructed. These hybrid proteins were analysed for membrane insertion and sequestration into microsomes. The results suggest the following: (i) The signal sequence of prepromelittin is capable of interacting with the SRP/docking protein system, but this interaction is not mandatory for membrane insertion; this is related to the small size of prepromelittin. (ii) In prepromelittin a cluster of negatively charged amino acids must be balanced by a cluster of positively charged amino acids in order to allow membrane insertion. (iii) In general, a signal sequence can be sufficient to mediate membrane insertion independently of SRP and docking protein in the case of short precursor proteins; however, the presence and distribution of charged amino acids within the mature part of these precursors can play distinct roles.
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PMID:Import of honeybee prepromelittin into the endoplasmic reticulum: structural basis for independence of SRP and docking protein. 282 Jul 22

The human transferrin receptor (TR) is a protein comprising 760 amino acid residues that spans the membrane once with its N terminus towards the cytoplasm. It is synthesized without a cleavable signal peptide. We have tested whether the signal responsible for its membrane insertion is present within its transmembrane peptide using a combined recombinant DNA/in vitro translation approach. The complete TR coding region was first reconstructed from overlapping TR cDNA clones and then engineered into an SP6-based transcription vector. In vitro transcription and subsequent translation in the presence of rough microsomes yielded TR molecules that were glycosylated and correctly inserted into the membrane. Two kinds of experiments demonstrated that the spanning region of the TR polypeptide contained the signal for translocation across the membrane of the rough endoplasmic reticulum. First, we deleted the spanning region of TR and showed that this deletion mutant could not be inserted. Second, we showed that two cytoplasmic proteins (the mouse dihydrofolate reductase and the chimpanzee alpha-globin) could be inserted into the microsomal membrane in the expected orientation when the TR transmembrane segment was added to their N termini. Thus, the spanning peptide was shown to be both necessary and sufficient for chain translocation. Further analyses demonstrated that the translocation event was dependent on the signal recognition particle.
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PMID:The transmembrane segment of the human transferrin receptor functions as a signal peptide. 301 1

The presecretory protein ppcecDHFR, a hybrid between preprocecropin A and dihydrofolate reductase, is transported into mammalian microsomes post-translationally, i.e. independently of ribosome and signal recognition particle. Upon staging the transport process, stably folded ppcecDHFR bound to mammalian microsomes and subsequently translocated across the membrane. Membrane association depended on the signal peptide but involved neither ATP nor an N-ethylmaleimide-sensitive microsomal protein. Membrane insertion of bound ppcecDHFR did not necessitate unfolding of the DHFR domain but depended on ATP and an N-ethylmaleimide-sensitive microsomal protein. Completion of translocation relied on unfolding of the DHFR domain. Thus mammalian microsomes have the capability of transporting a bound and folded precursor protein, i.e. to trigger unfolding of a precursor protein on the membrane surface.
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PMID:A stably folded presecretory protein associates with and upon unfolding translocates across the membrane of mammalian microsomes. 811 98

The presecretory protein ppcecDHFR, a hybrid between preprocecropinA and dihydrofolate reductase, is transported into mammalian microsomes post-translationally, i.e. independent of ribosome and signal recognition particle. Here, the involvement of microsomal proteins in ribonucleoparticle-independent transport of ppcecDHFR was analyzed by transport into trypsin-pretreated microsomes and by transport of a truncated version of ppcecDHFR and subsequent chemical cross-linking. We observed that post-translational transport of ppcecDHFR can occur into microsomes which had been pretreated with trypsin (final concentration, 100 micrograms/ml) and that of the known transport components only TRAMp and sec61 alpha p are still present under these conditions. Furthermore, we found that the truncated ppcecDHFR, ppcecDHFR-98mer', can be cross-linked to 36 kDa microsomal membrane proteins during post-translational transport. Therefore, the two microsomal membrane proteins with molecular masses of about 36 kDa, TRAMp and sec61 alpha p, appear to be involved in the post-translational transport of ppcecDHFR and ppcecDHFR-98mer.
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PMID:The membrane proteins TRAMp and sec61 alpha p may be involved in post-translational transport of presecretory proteins into mammalian microsomes. 813 54