Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Mouse thyroid tissue was dissociated with collagenase, fixed in periodate-lysine-paraformaldehyde (PLP), and further dissociated with EDTA and trypsin to yield cell suspensions containing mainly follicle epithelial cells and vascular endothelial cells. H-2 complex antigens were detected on the vascular endothelial cells at about the same high density as on peritoneal macrophages, and at a lower concentration on the laterobasal membranes of follicle epithelial cells. Neither of these cell types expressed detectable Ia antigens, but a minor cell type was presented that showed dense expression of Ia antigens. This cell type was probably a passenger leukocyte. It showed ultrastructural characteristics closely resembling those of spleen dendritic cells, which are known to express Ia antigens and to be potent stimulator cells in mixed lymphocyte culture. Dissociation of thyroid glands that had been cultured in vitro for 14 days yielded only follicle epithelium, and these cells showed the same labeling density of H-2 complex antigens as on uncultured cells. Dissociation of islets of Langerhans yielded capillary endothelial cells and beta cells, neither of which expressed detectable Ia antigens. The labeling results are discussed in relation to the cellular changes that occur during culture in vitro and the altered behavior of cultured allografts.
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PMID:H-2 complex and Ia antigens on cells dissociated from mouse thyroid glands and islets of Langerhans. 701 Jul 10

Human IgE was found to bind to the human macrophage line U937. Binding was specific for IgE in that it was inhibited by 3 different human IgE myeloma proteins and by Fc fragments prepared from IgE, but not by IgE Fab fragments or by myeloma proteins representative of the 4 IgG subclasses or by a rat IgE myeloma protein. Dissociation and association rates were rapid, with estimated t1/2 of less than 1 min. The Ka was 4.15 X 10(7) liter/mol. Between 53,000 and 93,000 sites per cell were calculated. The U937 receptor for IgE was trypsin sensitive, whereas the receptor for IgG on the same cell was relatively trypsin resistant.
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PMID:Macrophage receptors for IgE: binding of IgE to specific IgE Fc receptors on a human macrophage cell line, U937. 701 19

Effects of trypsin treatment on insulin and concanavalin A binding to, and glucose and proline transport in, dissociated R3230AC mammary adenocarcinoma cells were examined. Reduction of binding of 125I-labelled insulin was dependent on the amount of trypsin used, the temperature and the time of the incubation period. Under conditions that reduced insulin binding by greater than 75%, transport of glucose and proline was reduced by less than 15%. Scatchard analysis of insulin binding after trypsin treatment yielded slopes similar to those from cells not exposed to trypsin, assuming either two classes of receptors or an average affinity, Ke. Dissociation of bound insulin from untreated or trypsin-treated cells was enhanced by addition of excess unlabelled ligand. Insulin added in vitro, which decreased glucose transport in untreated cells, produced a decrease in glucose transport in cells treated with trypsin for 5 min (insulin binding was decreased 35%), but not in cells treated for 45 min (insulin binding was decreased 90%). Binding of the plant lectin concanavalin A was also reduced by trypsin treatment, but to a lesser extent and with a different time-course than for insulin. Scatchard analysis of the binding of concanavalin A in untreated and trypsin-treated cells yielded comparable values for Kd. The insulinomimetic actions of concanavalin A on glucose transport were abolished after brief exposure to trypsin. Pre-treatment of cells with concanavalin A reduced insulin binding and partially protected insulin receptors from trypsin digestion, but the inability to remove all of the concanavalin A precluded its use as a method to protect insulin receptors. Thus, in this rat mammary tumor, the number, but not the affinity or functional activity, of insulin receptors can be reduced by trypsin treatment without significant effects on glucose or A system amino acid transport.
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PMID:Effects of trypsin on binding of insulin and concanavalin A and on glucose and proline transport in the R3230AC mammary adenocarcinoma. 703 58

An oocyte-specific antigen was detected by an antiserum produced in isogenic Lewis rats. The antigen was sensitive to trypsin treatment. Dissociation-reorganization experiments in vitro, using ovarian cells demonstrated that the antigen is required for the interaction of germ cells and somatic cells. A physiologic role is suggested for this differentiation antigen in follicular morphogenesis and ovarian function.
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PMID:An oocyte-specific antigen and its possible role in the organization of the ovarian follicle of the rat. 704 Jan 50

Tubulin purified from rat brain was labeled by conjugation with N-succinimidyl 3-(4-hydroxy[5-125I]iodophenyl)propionate. Mitochondrial fraction prepared by centrifugation on sucrose density gradient was enriched about 4-fold in cytochrome c oxidase as compared to total liver homogenate. Contamination by plasma membranes was estimated to be about 5%. Radioiodinated pure tubulin bound to purified rat liver mitochondria; binding was time- and temperature-dependent: maximum binding was obtained after 45 min of incubation at 37 degrees C. Under conditions of binding, mitochondria retained their normal characteristics for phosphate accumulation. That binding actually occurs on mitochondria was demonstrated by the co-sedimentation of the tubulin binding and cytochrome c oxidase activities on sucrose gradient. Radioiodinated tubulin binding to mitochondria was specific and saturable. Saturation of binding was obtained using tubulin concentration ranging from 0.02 to 200 micrograms/ml. Hill plot and double reciprocal plot of binding data yielded values of 6 X 10(-8) M for an apparent KD and a maximal binding capacity of 1.4 nmol of tubulin/mg of mitochondrial protein. The Hill coefficient was 0.98 indicating that radioiodinated tubulin bound to a single class of noninteracting sites. The interaction between tubulin and mitochondria was reversible. Dissociation of the complex was obtained by dilution and by lowering the temperature. The dissociation of tubulin-mitochondria complexes was insensitive to ionic strength (0.1 to M NaCl). Mild treatment of mitochondria by trypsin (5 min at 37 degrees C) decreased of tubulin binding, suggesting that protein component(s) of membranes are involved in the interaction of tubulin with mitochondria.
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PMID:Interaction of tubulin with rat liver mitochondria. 708 18

The eukaryotic multicatalytic proteinase complex (proteasome) is a high molecular mass enzyme which contains 13-15 nonidentical subunits of similar size (molecular masses of 21-31 kDa), but differing widely in net charge (isoelectric points ranging from 3 to 10). At least four catalytic components termed chymotrypsin-like, trypsin-like, peptidylglutamyl peptide-hydrolyzing, and caseinolytic are associated with the proteinase. The catalytic nature of the components is unknown, since sequences of cloned subunits bear no homology to known proteinases and proteolytically active subunits have not been isolated. Analysis of the relationship between structure and catalytic function would be greatly facilitated if a means for reversibly dissociating and reassociating the proteinase were available. We provide the first evidence of reassembly of dissociated multicatalytic proteinase complex into a functional molecule. Incubation with the organic mercurial, p-chloromercuribenzoic acid disrupts in a concentration-dependent manner the quaternary structure of the enzyme, leading to formation of a heterogeneous population of subunits. Dissociation of the complex coincides with progressive loss of chymotrypsin-like, trypsin-like, and peptidylglutamyl peptide hydrolyzing activities. The caseinolytic activity of the residual undissociated enzyme is markedly activated. Exposure of the dissociated enzyme to dithiothreitol restores the catalytic profile and reassociates the enzyme. Evidence for catalytically active subcomplexes was not obtained indicating that structural integrity may be necessary for expression of all defined activities.
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PMID:Dissociation and reassociation of the bovine pituitary multicatalytic proteinase complex. 827 61

Combinations of cultured and uncultured epidermal and dermal cell preparations from newborn and perinatal mice were grafted onto the backs of athymic nude mouse hosts to elucidate the cellular requirements for skin appendage formation. All epidermal populations studied, including a total epidermal keratinocyte preparation from trypsin-split skin, developing hair follicle buds isolated from epidermis, and preformed hair follicles isolated from dermis, make haired skin when grafted with fresh dermal cells. Only pre-formed hair follicles produce haired skin on grafts without an additional dermal component. Hair follicle buds grafted alone or with cultured dermal cells will reconstitute skin but without appendage formation. Thus, cells or factors present in fresh, but not cultured, dermal cells are essential for supporting hair growth from budding follicles, whereas more developed (pre-formed) follicles appear to contain all the necessary components for hair formation. Dissociation of isolated hair follicles by trypsin/ethylenediaminetetraacetic acid prior to grafting is permissive for hair growth, suggesting that follicle cells can be re-induced or reassociate in vivo. Dermal papilla cells, microdissected from rat vibrissal follicles and cultured for up to 14 passages, stimulate hair growth from follicle buds and influence the quality of hair growth from pre-formed hair follicles. Thus, dermal papilla cells maintain inductive capacity in culture and contribute to the reconstituted skin. This reconstitution model should be useful for identifying cell populations within the hair follicle compartment necessary for hair growth and for examining the effects of specific gene products on hair follicle growth and development in vivo.
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PMID:Reconstitution of hair follicle development in vivo: determination of follicle formation, hair growth, and hair quality by dermal cells. 844 Aug 92

The hormone binding domain (HBD) of the glucocorticoid receptor (GR) contains five cysteine residues, with three of them being spaced close to one another in the steroid binding pocket. The HBD also contains the contact region for the chaperone protein hsp90, which must be bound to the GR for it to have a steroid binding conformation. Binding of hsp90 to the receptor through its HBD inactivates the DNA binding domain (DBD). The DBD contains a number of cysteines essential to its DNA binding activity. Here, we assess the effects of hsp90 binding on the accessibility of cysteine residues in both the HBD and DBD to derivatization by a thiol-specific reagent. We report that N-iodoacetyltyrosine (IAT) inactivates steroid binding activity of the immunopurified, untransformed GR.hsp90 complex in a manner that is prevented by the sulfhydryl reagents cysteine and dithiothreitol but is not reversed by them. The 125I-labeled IAT derivative N-iodoacetyl-3-[125I]iodotyrosine ([125I]IAIT) covalently labels the immunopurified, hsp90-bound receptor in a thiol-specific manner. Dissociation of hsp90 leads to an approximately 2-fold increase in [125I]IAIT labeling of the full-length, 100-kDa GR. The increase in thiol labeling is related to the presence of hsp90 because it is blocked by molybdate, which prevents hsp90 dissociation. Cleavage of the [125I]IAIT-labeled receptor with trypsin yields a 15-kDa labeled fragment containing the DBD and a 30-kDa labeled fragment containing all of the cysteines in the HBD and the contact region for hsp90. Dissociation of hsp90 from the GR results in a 2.3-fold increase in [125I]IAIT labeling of the 15-kDa fragment and a 50% decrease in labeling of the 30-kDa fragment. These data are consistent with the proposal that dissociation of hsp90 from the GR produces a conformational change in the HBD such that some of the thiols that are exposed in the GR*hsp90 complex become buried and are no longer accessible to the [125I]IAIT probe. In contrast, binding of the GR to hsp90 restricts access of cysteines in the DBD to this small thiol-derivatizing agent, a restriction that is relieved as a result of unmasking or conformational change accompanying hsp90 dissociation.
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PMID:Use of the thiol-specific derivatizing agent N-iodoacetyl-3-[125I]iodotyrosine to demonstrate conformational differences between the unbound and hsp90-bound glucocorticoid receptor hormone binding domain. 862 22

Neomycin is a potent inhibitor of skeletal muscle sarcoplasmic reticulum (SR) calcium release. To elucidate the mechanism of inhibition, the effects of neomycin on the binding of [3H]ryanodine to the Ca2+ release channel and on its channel activity when reconstituted into planar lipid bilayer were examined. Equilibrium binding of [3H]ryanodine was partially inhibited by neomycin. Inhibition was incomplete at high neomycin concentrations, indicating noncompetitive inhibition rather than direct competitive inhibition. Neomycin and [3H]ryanodine can bind to the channel simultaneously and, if [3H]ryanodine is bound first, the addition of neomycin will slow the dissociation of [3H]ryanodine from the high affinity site. Neomycin also slows the association of [3H]ryanodine with the high affinity binding site. The neomycin binding site, therefore, appears to be distinct from the ryanodine binding site. Dissociation of [3H]ryanodine from trypsin-treated membranes or from a solubilized 14 S complex is also slowed by neomycin. This complex is composed of polypeptides derived from the carboxyl terminus of the Ca2+ release channel after Arg-4475 (Callaway, C., Seryshev, A., Wang, J. P., Slavik, K., Needleman, D. H., Cantu, C., Wu, Y., Jayaraman, T., Marks, A. R., and Hamilton, S. L. (1994) J. Biol. Chem. 269, 15876-15884). The proteolytic 14 S complex isolated with ryanodine bound produces a channel upon reconstitution into planar lipid bilayers, and its activity is inhibited by neomycin. Our data are consistent with a model in which the ryanodine binding sites, the neomycin binding sites, and the channel-forming portion of the Ca2+ release channel are located between Arg-4475 and the carboxyl terminus.
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PMID:Interaction between ryanodine and neomycin binding sites on Ca2+ release channel from skeletal muscle sarcoplasmic reticulum. 862 37

At least part of the gamma subunit of the catalytic portion of the chloroplast ATP synthase (CF1) is present in the middle of the alpha3beta3 heterohexamer. Interactions of the alpha/beta subunits with the gamma subunit stabilize the hexameric structure. Surprisingly, neither reduction of the gamma disulfide nor selective proteolysis of alpha, beta and gamma affects the thermal stability of EDTA-treated CF1 preparations, as determined by differential scanning calorimetry. Dissociation of the enzyme in the cold may be monitored by loss of the ATPase activity of CF1 subunit depleted of its epsilon subunit [CF1(-epsilon)]. The rate of cold inactivation of ATPase activity of reduced and alkylated CF1(-epsilon) treated with trypsin in solution was much faster than that CF1(-epsilon)(8.1 versus 38.7 min, respectively, for 50% loss of activity). The increased cold liability of the trypsin-treated enzyme was not a consequence of the cleavage of the gamma. CF1 incubated with trypsin under conditions in which gamma is not cleaved was as cold labile as CF1 with cleaved gamma. Instead, loss of the delta subunit and a few residues from the C-terminal of the beta subunits were responsible for the increased cold liability of the enzyme.
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PMID:Structural stability of chloroplast coupling factor 1 determined by differential scanning calorimetry and cold inactivation. 866 76


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