EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatitis B virus precore and core proteins are related. The precore protein contains the entire sequence of the core protein plus an amino-terminal extension of 29 amino acids. The amino-terminal extension of the precore protein contains a signal sequence for the secretion of the precore protein. This signal sequence is removed after the translocation of the precore protein across the endoplasmic reticulum membrane to produce the precore protein derivative named P22. We demonstrate that both P22 and the core protein can be phosphorylated in cells. Microsomal fractionation and trypsin digestion experiments demonstrate that a fraction of phosphorylated P22 is located in the endoplasmic reticulum lumen. Phosphorylation of P22 likely occurs in the carboxy terminus, since the P22 derivative P16, which lacks the carboxy terminus of P22, is not phosphorylated. Linking the carboxy terminus of the precore-core protein to heterologous secretory and cytosolic proteins led to the phosphorylation of the resulting chimeric proteins. These results indicate that phosphorylation of P22 and the core protein is likely mediated by cellular kinases.
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PMID:Phosphorylation of hepatitis B virus precore and core proteins. 185 14

Crystals of benzamidine-inhibited trypsin from the North Atlantic salmon (Salmo salar) have been grown from ammonium sulphate solution at pH 5.0. Two crystal forms suitable for X-ray structure analysis, obtained from a hanging-drop experiment, have been characterized. Both belong to space-group P22(1)2(1) with cell dimensions a = 39.2 A, b = 62.4 A, c = 84.6 A and a = 31.4 A, b = 74.8 A, c = 83.5 A, for forms I and II, respectively. Intensity data to 1.82 A have been collected for crystal form I on a CAD4 diffractometer, and initial phases have been obtained by molecular replacement methods. The conventional R-factor after two rounds of model building and subsequent refinement is 0.25 for data between 6.0 and 2.0 A. So far no water molecules have been included in the model.
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PMID:Crystallization and preliminary X-ray crystallographic studies of benzamidine-inhibited trypsin from the North Atlantic salmon (Salmo salar). 238 Sep 85

Separate groups of rats with unilateral 6-OHDA lesions of the nigrostriatal pathway received intrastriatal foetal (E14) substantia nigra suspension grafts, intrastriatal postnatal (P22-25) adrenal medulla suspension grafts using either collagenase- or trypsin-based dissociation procedures, intraventricular adrenal medulla grafts, or remained with lesions alone. Rats with nigral or adrenal suspension grafts, but not rats with adrenal solid grafts, showed reduced apomorphine-induced rotation in comparison with lesion rats. The nigral graft group alone showed substantial reduction of amphetamine-induced rotation, and this was the only group manifesting good long-term graft survival. These results indicate that nigral and adrenal grafts do not have comparable mechanisms of functional action, and suggest that adrenal grafts can ameliorate apomorphine-induced rotation by a non-specific mechanism.
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PMID:Comparison of adrenal and foetal nigral grafts on drug-induced rotation in rats with 6-OHDA lesions. 251 78

The c2 repressor of bacteriophage P22 can be digested with trypsin, chymotrypsin, or elastase to yield stable fragments. Purified NH2-terminal fragments, like intact repressor, bind specifically to P22 operator DNA and also mediate positive and negative control of transcription. COOH-terminal fragments of repressor do not bind operator DNA but do undergo a concentration-dependent oligomerization similar to that observed with intact repressor. These results suggest that P22 repressor, like the related cI repressor of phage lambda, contains two structural domains which mediate different functions of the intact molecule.
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PMID:P22 c2 repressor. Domain structure and function. 655 78

Secretion of beta-lactamase was studied in Salmonella typhimurium infected with P22 phage carrying wild-type and mutant alleles of the structural gene. Cellular location of precursor and mature products of wild-type and temperature-sensitive and chain-terminating mutants was analyzed by cell fractionation and by trypsin accessibility in intact and lysed spheroplasts. The precursors of wild-type and all these mutants (none of which alter the signal peptide) are found sequestered within the cell, while all the mature forms have at least partially been translocated across the inner membrane. Thus most beta-lactamase molecules traverse the membrane after completion of their translation. It seems that the carboxyl terminus of beta-lactamase is not required for translocation across the inner membrane but is required for the protein to appear in the periplasm as a soluble species.
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PMID:Evidence for posttranslational translocation of beta-lactamase across the bacterial inner membrane. 675 92

As part of a genetic analysis of the in vivo folding and subunit assembly of the P22 tail spike endorhamnosidase, we have studied the maturation of the newly synthesized 76,000-dalton polypeptide chains into thermostable tail spike oligomers. Four of 15 temperature-sensitive mutations in the structural gene for this protein result in electrophoretically distinct tail spikes. Cells mixedly infected with wild type and an electrophoretic variant produce two hybrid species, with mobilities intermediate between the parental species, indicating that the native tail spike is a trimer. Mature trimers are resistant to denaturation by sodium dodecyl sulfate (SDS): at room temperature the trimer migrates in an SDS gel as if it were not binding significant amounts of SDS, whereas the heat-denatured chain migrates as expected of an SDS-polypeptide complex. The mature trimer is also resistant to trypsin digestion. Lysates of infected cells contain SDS and trypsin-sensitive forms of the newly synthesized tail spike polypeptide chains. These are probably incompletely or incorrectly folded chains. SDS and trypsin resistance were used to measure the efficiency of in vivo folding and subunit assembly of the mature trimer from its polypeptide chains. This decreased from 90% at 27 degrees C to only 15% at 42 degrees C. These results are consistent with the existence or a labile intermediate or step in the folding or subunit assembly of the thermostable tail spike protein. We discuss the possibility that the achievement of certain structural features of mature proteins may entail difficulties in their folding pathways.
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PMID:Maturation of the tail spike endorhamnosidase of Salmonella phage P22. 704 14

The neurodegenerative process in Alzheimer's disease (AD) has been suggested to occur as a consequence of microtubule disruption and subsequent loss of intracellular transport. Structural microtubule-associated proteins (MAPs) have been investigated for their role in the etiology of AD, but dynein, a force-producing MAP which mediates intracellular transport, has not been examined. In this report, dynein (MAP1C) immunoreactivity in AD brain tissue homogenates was observed increased 3.7-fold compared with control brain homogenate preparations. Similarly, NGF-differentiated PC12 cells cultured in the presence of soluble extracts prepared from AD brain tissue homogenates, exhibited an approximate 15-fold increase in dynein immunoreactivity compared to that of control brain tissue extracts. In contrast, AD clarified extracts had little effect upon "kinesin-like" protein immunoreactivity increased (approximately 2-fold); whereas, tau immunoreactivity was observed to be moderately increased (5-fold) over that of control brain extract treated PC12 cells. Chemical dephosphorylation and alkaline phosphatase treatment of AD extract-treated PC12 cell lysate prior to Western blotting resulted in complete loss of immunoreactivity, suggesting the dynein being monitored is a phosphorylated isoform. Furthermore, treatment of clarified brain tissue extracts with trypsin and (NH4)2SO4 suggests the endogenous elements giving rise to increased PC12 cell dynein intermediate chain immunoreactivity to be proteinaceous in nature. The observed increase in dynein intermediate-chain dynein immunoreactivity following exposure of neuronal cells to endogenous elements of AD brain may be reflective of dynein-microtubular array differences. Such an approach may be useful in assessing the effect of endogenous biomolecules on retrograde axonal transport in neuronal culture models.
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PMID:Effect of Alzheimer's brain extracts on dynein immunoreactivity in PC12 cells. 940 50

A trypsin-like serine proteinase was purified from the incubation medium of rat brain slices by gelatin zymography. The purification consisted of ammonium sulfate precipitation, benzamidine-Sepharose 6B affinity chromatography, and carboxymethyl-cellulose and gel filtration chromatographies. The gelatinolytic activity, identified at 22 kDa (P22) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions, was eluted as one active peak throughout the purification, and the final preparation gave a single protein peak on reverse-phase HPLC. Diisopropyl fluorophosphate, benzamidine, p-toluenesulfonyl-L-lysine chloromethyl ketone, and aprotinin completely inhibited the activity of P22, whereas phenanthroline, p-toluene-sulfonyl-L-phenylalanine chloromethyl ketone, and elastinal did not. P22 efficiently digested the extracellular matrix proteins laminin and type IV collagen. P22 produced an increase in intracellular Ca2+ concentration in A172 glioblastoma, which was desensitized through prior stimulation with protease-activated receptor-2 agonist peptide SLIGKV, indicating that P22 can stimulate protease-activated receptor-2. Rat brain penetration injury induced gelatinolytic activity in the lesioned area whose molecular size was consistent with that of P22. These results indicated that on incubation of rat brain slices, a trypsin-like serine proteinase was secreted into the medium that was capable of digesting extracellular matrix and stimulating protease-activated receptor-2. It is suggested that the gelatinolytic activity induced by brain injury might be that of P22.
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PMID:Purification and characterization of a trypsin-like serine proteinase from rat brain slices that degrades laminin and type IV collagen and stimulates protease-activated receptor-2. 1073 32

The P22 tailspike adhesin is an elongated thermostable trimer resistant to protease digestion and to denaturation in sodium dodecyl sulfate. Monomeric, dimeric, and protrimeric folding and assembly intermediates lack this stability and are thermolabile. In the native trimer, three right-handed parallel beta-helices (residues 143-540), pack side-by-side around the three-fold axis. After residue 540, these single chain beta-helices terminate and residues 541-567 of the three polypeptide chains wrap around each other to form a three-stranded interdigitated beta-helix. Three mutants located in this region -- G546D, R563Q, and A575T -- blocked formation of native tailspike trimers, and accumulated soluble forms of the mutant polypeptide chains within cells. The substitutions R563Q and A575T appeared to prevent stable association of partially folded monomers. G546D, in the interdigitated region of the chain, blocked tailspike folding at the transition from the partially-folded protrimer to the native trimer. The protrimer-like species accumulating in the G546D mutant melted out at 42 degrees C and was trypsin and SDS sensitive. The G546D defect was not corrected by introduction of global suppressor mutations, which correct kinetic defects in beta-helix folding. The simplest interpretation of these results is that the very high thermostability (T(m) = 88 degrees C), protease and detergent resistance of the native tailspike acquired in the protrimer-to-trimer transition, depends on the formation of the three-stranded interdigitated region. This interdigitated beta-helix appears to function as a molecular clamp insuring thermostable subunit association in the native trimer.
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PMID:The interdigitated beta-helix domain of the P22 tailspike protein acts as a molecular clamp in trimer stabilization. 1191 25

Several serine proteases including thrombin, tissue-type plasminogen activator and urokinase-type plasminogen activator have been well characterized in the brain. In this article, we review the brain-related trypsin and trypsin-like serine proteases. Accumulating evidence demonstrates that trypsin and trypsin-like serine proteases play very important roles in neural development, plasticity, neurodegeneration and neuroregeneration in the brain. Neuropsin is able to hydrolyze the extracellular matrix components by its active site serine, and regulates learning and memory in normal brain. The mutant neurotrypsin contributes to mental retardation in children. Neurosin seems to be involved in the pathogenesis of neurodegenerative disorders, like Alzheimer's disease, Parkinson's disease or multiple sclerosis. Although mesotrypsin/trypsin IV is also implicated in neurodegeneration, its functional significance still remains largely unknown. Particularly, mesotrypsin/trypsin IV, P22 and neurosin exert their physiological and pathological functions through activation of certain protease-activated receptors (PARs). In the brain, the presence of serpins controls the activity of serine proteases. Therefore, understanding the interaction among brain trypsin, serpins and PARs will provide invaluable tools for regulating normal brain functions and for the clinical treatment of neural disorders.
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PMID:Trypsin and trypsin-like proteases in the brain: proteolysis and cellular functions. 1796 32

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