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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A group A streptococcal strain rich in Fc receptors was selected by an immunoblotting technique and used as the source for isolation of a functionally active Fc receptor. A variety of extraction techniques were compared including (1) heat extraction at neutral, acid or alkaline pH, (2) treatment with the enzymes mutanolysin, hyaluronidase, trypsin, papain or phage lysin, or (3) autoclaving or heating in the presence of sodium dodecyl sulfate. The most homogeneous receptor was recovered following heat extraction and contained two molecular weight forms. The major form had a molecular weight of 56 000 daltons and the minor form had a molecular weight of 38 000 daltons. These two proteins could be isolated without loss of activity by binding to and elution from a column of immobilized human IgG. An antibody prepared against a single form of the affinity purified receptor demonstrated reactivity with both molecular weight forms of the heat extracted receptor. The group A receptor was found to be both antigenically and physicochemically distinct from either the type I receptor found on the majority of Staphylococcus aureus strains or the type III Fc receptors found on the majority of group C streptococcal strains.
Mol Cell Biochem 1986 Apr
PMID:Isolation and partial characterization of a type II Fc receptor from a group A streptococcus. 352 Feb 93

Data on properties, structure and biological functions of a variety of thiol (cysteine) peptide hydrolases from animal tissues have been summarized. This large group of diverse intracellular enzymes involves both endo- and exopeptidases. Best studied are lysosomal thiol peptide hydrolases: cathepsins B, H and L, the primary structure of which is deciphered. They present a family of homologous proteins, structurally similar to papain. Ca2+-dependent neutral proteinases is another family of related proteins. The biological functions of various thiol peptide hydrolases are considered: their participation in protein turnover, post-translational processing, regulation of unidirectional biological processes and metabolic refolding. Data on endogenous inhibitors of thiol peptide hydrolases and on regulation of enzymic activity are presented.
Mol Biol (Mosk)
PMID:[Thiol peptide hydrolases from animal tissues, their structure and function]. 353 46

Four monoclonal antibodies (MAbs) directed against the P1 blood group antigen were produced by hybridomas obtained from mouse immunized with turtle-dove avomucoid. One of the MAb (154 IX B6) selected as a blood typing reagent agglutinated native P1 and Pk1 red cells with a high titer but was inactive against native P2, Pk2 and p erythrocytes. After papain treatment the reactivity towards P1 and Pk1 erythrocytes was enhanced whereas p erythrocytes remained unreactive. A weak cross-reactivity of the MAb with the Pk antigen was suspected since enzyme-treated Pk2 erythrocytes became significantly agglutinated. Further analysis of the antibody specificity was established by binding studies using neutral glycolipids prepared from P1 and P2 erythrocytes, affinity immunoabsorbents carrying known oligosaccharide structures and hapten inhibition with synthetic oligosaccharides. The MAb bound weakly to the Gal alpha 1-4Gal structure common to P1 and Pk antigens but had a marked preference for the P1 determinant (Gal alpha 1-4 Gal beta 1-4 GlcNAc) and the binding was abolished by prior treatment of oligosaccharide antigens by alpha(not beta)-galactosidase, which supports evidence that a terminal alpha-galactose residue is involved in the blood group P1 and Pk specificities. The MAb has a slightly broader specificity than the human anti-P1 counterpart but can be used safely for routine blood typing.
Mol Immunol 1987 Feb
PMID:Characterization of a murine monoclonal antibody specific for the human P1 blood group antigen. 361 10

Rates of proteolytic cleavage of myosin subfragment 1 were measured in the absence and presence of different amounts of actin. The rates of tryptic digestion at the 50K/20K junction and papain digestion at the 25K/50K junction of the myosin head were progressively inhibited with increasing substoichiometric molar ratios of actin to myosin subfragment 1. The percentage inhibitions of digestion reactions corresponded precisely to the molar compositions of actin-subfragment 1 solutions and demonstrated that equimolar complexes of these proteins were responsible for the observed changes in the proteolysis of myosin heads.
J Mol Biol 1987 Apr 05
PMID:Proteolysis and binding of myosin subfragment 1 to actin. 362 75

We have reported previously that rabbit skeletal myosin subfragment-1 (S-1) assembles actin filaments into bundles. The rate of this reaction can be estimated roughly from the initial rate (Vo) of the accompanying turbidity increase ("super-opalescence") of the acto-S-1 solution. Vo is a function of the molar ratio (r) of S-1 to actin, with a peak at r = 1/6 to 1/7 and minimum around r = 1. In the present paper we report a different type of opalescence (we call it "hyper-opalescence") of acto-S-1 solutions, which also resulted from bundle formation. Adjacent filaments in the bundles had a distance of approximately 180 A. Hyper-opalescence occurred at r approximately equal to 1 when KCOOCH3 was used instead of KCl. By comparing the effects of ADP, epsilon-ADP, tropomyosin or ionic strength upon the super- and hyper-opalescence, we concluded that the two types of S-1-induced actin bundling had different molecular mechanisms. The hyper-opalescence type of bundling seemed to be induced by S-1, which was not complexed with actin in the manner of conventional rigor binding. The presence of the regulatory light chain did not affect hyper-opalescence (or super-opalescence), since there were no significant differences between papain S-1 and chymotryptic S-1 with respect to these phenomena.
J Mol Biol 1987 May 20
PMID:Bundling of myosin subfragment-1-decorated actin filaments. 365 17

A method for isolation of staphylococcal alpha-toxin preparations has been elaborated. Characteristics of the toxin isolated by the method are as follows: mol. mass = 35 Kd; HU = 0.1 microgram; DnD= 0.1 microgram; LD50 = 2 micrograms. It is for the first time that alpha-toxin was fragmented by papain and digested by alpha, gamma-chemotrypsin. The papain fragments (18.5 and 15 Kd) retained lethal activity but lost hemolytic and dermonecrotic activities. Alpha, gamma-chemotryptic digested fragments (18 and 15 Kd) retained hemolytic and lethal effects, but lost their dermonecrotic activity.
Mol Gen Mikrobiol Virusol 1985 Mar
PMID:[Isolation and characteristics of staphylococcal alpha-toxin]. 384 45

The ability of two univalent antibody derivatives to invoke complement-mediated lysis of guinea-pig L2C leukemic lymphocytes was investigated. The derivatives were Fab/c from rabbit IgG antibody, in which only one Fab arm is removed from the parent molecule and FabFc in which Fab gamma, from peptic digestion of sheep IgG antibody, is disulfide-bonded to the Fc gamma yielded by papain digestion of an arbitrary IgG. Antibody activity was directed against surface IgM on the target cells. Both derivatives could invoke lysis via the classical pathway in the presence of rabbit complement. Exposure of the cells to the derivatives at 37 degrees C before introducing complement yielded no protective antigenic modulation. At low complement concns the derivatives were more efficient than the parent antibodies at invoking lysis, apparently due to the fact that the derivatives do not cause modulation: it appears that cells can undergo a useful degree of modulation when confronted simultaneously by bivalent antibody and low levels of complement. The Fab/c preparations were also able to invoke lysis by guinea-pig complement. Lysis occurred under conditions where activation took place only via the classical pathway (in dilute complement) or only via the alternative pathway (in the absence of calcium ions, or in C4-deficient guinea-pig serum). The results demonstrate that there is no need for two antigen-binding Fab arms in antibody activation of either the classical or alternative complement pathways. They favour models requiring clustering of Fc regions rather than steric changes which might follow binding of antigen.
Mol Immunol 1985 Jul
PMID:Activation of complement pathways by univalent antibody derivatives with intact Fc zones. 384 71

The human histocompatibility antigens HLA-A and HLA-B are polymorphic cell surface glycoproteins encoded by the major histocompatibility complex. These molecules are the major targets for the immune response during tissue transplantation. They are recognized by cytolytic T-lymphocytes during the immune response against virally infected cells, and have been linked to variations in susceptibility to human autoaggressive and neoplastic diseases. To permit a description of the sites of interaction with alloantisera and T-cell receptors, we have begun a three-dimensional structure determination of HLA-A. We report the isomorphous cyrstallization of two antigenic specificities of papain-solubilized HLA-A, A2 and A28. Isoelectric focusing indicates that the well-ordered crystals incorporate the sialic acid microheterogeneity of the oligosaccharides. Crystallographic evidence indicates that the HLA-A molecule has an approximate 2-fold rotational symmetry axis which, combined with biochemical data, suggests that the domains of the molecule are paired alpha 1 to alpha 2 and alpha 3 to beta 2-microglobulin. This domain organization is similar to the arrangement of domains in the Fab and Fc fragments of immunoglobulins.
J Mol Biol 1985 Nov 05
PMID:Crystallization and X-ray diffraction studies on the histocompatibility antigens HLA-A2 and HLA-A28 from human cell membranes. 387 13

The S-1/S-2 swivel in myosin provides a flexible link between the head and tail portions of the molecule. We have investigated the properties of the swivel by employing limited proteolysis methods. Our results indicate that the binding of actin to heavy meromyosin inhibits both the chymotryptic and papain cleavage of the S-1/S-2 swivel, and that this effect is dependent on the presence of intact LC-2 light chains. Actin did not slow digestions carried out using heavy meromyosin previously treated with proteases to nick the LC-2 chains to 17,000 or 14,000 Mr fragments. Although the integrity of the LC-2 light chain appears to be required to transmit the effects of actin binding from the myosin head to the S-1/S-2 swivel, the binding of Ca2+ to the 17,000 Mr LC-2 fragment can still affect the chemical reactivity of SH1 thiol groups. Both chymotryptic and papain digestions of heavy meromyosin containing intact or fragmented LC-2 light chain show substantial temperature sensitivity between 5 degrees C and 35 degrees C. Calculated apparent activation energies for this process indicate that the S-1/S-2 swivel in myosin can undergo temperature-dependent structural changes independently of the state of the LC-2 light chain. Thus, both actin binding and temperature variations can induce structural transitions in the S-1/S-2 swivel.
J Mol Biol 1985 Mar 20
PMID:Light chain dependent effects of actin binding on the S-1/S-2 swivel in myosin. 388 49

An accurate three-dimensional structure is known for papain (1.65 A resolution) and actinidin (1.7 A). A detailed comparison of these two structures was performed to determine the effect of amino acid changes on the conformation. It appeared that, despite only 48% identity in their amino acid sequence, different crystallization conditions and different X-ray data collection techniques, their structures are surprisingly similar with a root-mean-square difference of 0.40 A between 76% of the main-chain atoms (differences less than 3 sigma). Insertions and deletions cause larger differences but they alter the conformation over a very limited range of two to three residues only. Conformations of identical side-chains are generally retained to the same extent as the main-chain conformation. If they do change, this is due to a modified local environment. Several examples are described. Spatial positions of hydrogen bonds are conserved to a greater extent than are the specific groups involved. The greatest structural similarity is found for the active site residues of papain and actinidin, for the internal water molecules and for the main-chain conformation of residues in alpha-helices and anti-parallel beta-sheet structure. This was reflected also in the similarity of the temperature factors. It suggests that the secondary structural elements form the skeleton of the molecule and that their interaction is the main factor in directing the fold of the polypeptide chain. Therefore, substitution of residues in the skeleton will, in general, have the most drastic effect on the conformation of the protein molecule. In papain and actinidin, some main-chain-side-chain hydrogen bonds are also strongly conserved and these may determine the folding of non-repetitive parts of the structure. Furthermore, we included primary structure information for three homologous thiol proteases: stem bromelain, and the cathepsins B and H. By combining the three-dimensional structural information for papain and actinidin with sequence homologies and identities, we conclude that the overall folding pattern of the polypeptide chain is grossly the same in all five proteases, and that they utilize the same catalytic mechanism.
J Mol Biol 1985 Mar 20
PMID:Thiol proteases. Comparative studies based on the high-resolution structures of papain and actinidin, and on amino acid sequence information for cathepsins B and H, and stem bromelain. 388 50


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