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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After reduction by dithiothreitol and removal of the reductant by molecular sieve chromatography, the four interchain disulfide bonds of the human IgGlk protein Fro reoxidize in the presence of oxygen and trace metal ions. The six molecular components of the reoxidation--L (light chain), H (heavy chain), HL, H2, H2L, H2L2--are quantitatively determined from polyacrylamide gels containing sodium dodecyl sulfate and the time-dependent sulfhydryl titer is measured with 5,5'-dithiobis-(2-nitrobenzoic acid). The rates of H2L2 covalent assembly depend on pH in an unexpected way: If the reduced protein is chromatographed at pH 3.2 and then adjusted to pH 7.5 (25 degrees, ionic strength equals 0.14), H2L2 formation proceeds rapidly, with half-times ranging between 20 and 40 min. In contrast, if chromatography is carried out at pH 5.5 before adjusting to the same final conditions, the half-times for H2L2 formation are considerably longer (120-180 min). The half-times in the former case approach the somewhat faster rates of H2L2 assembly observed in pulse-chase experiments with various types of mouse, IgG-producing cells [Baumal, et al. (1971) J. Exp. Med. 134, 1316-1334]. To facilitate comparison of experiments and models, we plot the concentrations of the six components against the corresponding number of sulfhydryl equivalents per mole of Fro. The respective plots for the pH 3.2 leads to 7.5 and 5.5 leads to 7.5 experiments are very similar despite the rate differences. Moreover, these plots differ significantly from the calculated plot for a hypothetical random reoxidation in which the intrinsic probability for formation of each correct HL and H2 disulfide bond is assumed equal and independent. It is concluded that the in vitro reoxidation of Fro (i) is other than random; (ii) involved a pathway of pathways with HL, H2, and H2L precursors; and (iii) involves at least some kinetic cooperativity in bond formation, since no model bases solely on independent bond formation adequately accounts for the results. The models were used also to examine the cellular assembly pathways of mouse IgG proteins.
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PMID:A kinetic study in vitro of the reoxidation of interchain disulfide bonds in a human immunoglobulin IgGLk. Correlation between sulfhydryl disappearance and intermediates in covalent assembly of H2L2. 23 27

Two mouse monoclonal antibodies SKb1 and SKb6 were prepared by fusion of myeloma cells with spleen cells of female Balb/c mouse immunized with a mixture of bovine IgG1 and IgG2. In radioimmunoassay, SKb1 bound specifically to IgG2 but SKb6 reacted with both IgG1 and IgG2 molecules. In the competition experiments, heavy chain isolated from bovine IgG could inhibit the binding of 125I-IgG1 and 125I-IgG2 to SKb6, while it failed to inhibit the binding of 125I-IgG2 to SKb1. The epitope reacting with SKb1 was found to be present not only on bovine IgG2 but also on goat IgG and was not present on IgG molecules isolated from the serum of rabbit, rat, sheep, horse, human and monkey. Similarly, the epitope reacting to SKb6 was found to be present on bovine IgG1 and IgG2 and also on IgG molecules isolated from goat and sheep serum but was absent in the IgG molecules isolated from the serum of rabbit, rat, horse, human and monkey. The association constants of the interactions of SKb1 with 125I-IgG2 and of SKb6 with 125I-IgG1 and 125I-IgG2, determined by Scatchard analysis, Steward-Petty plot and Sips plot, were found to be in the order of 10(8)-10(10) L/M. The association constants were determined at varying temperatures to obtain the thermodynamic parameters. The enthalpy (delta H0) and entropy (delta S0) values for the above antigen-antibody interactions were in the range of 9.15-15.96 kcal/mole and 36.96-41.15 eu/mole respectively. The heterogeneity indices for similar interactions determined by Sips equation were consistent with the expected values for binding of monoclonal antibodies with homogeneous protein determinants.
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PMID:Determinant analysis and interaction studies on monoclonal antibodies to bovine IgG1 and IgG2. 137 82

A synthetic peptide corresponding to a sequence 632-642 (S632-642) on the myosin subfragment 1 (S-1) heavy chain and spanning the 50/20 kDa junction of S-1 binds to actin in the presence and absence of S-1. The binding of 1.0 mole of peptide per actin causes almost complete inhibition of actomyosin ATPase activity and only partial inhibition of S-1 binding to actin. The binding of S632-642 to the N-terminal segment of actin is supported by competitive carbodiimide cross-linking of S-1 and S632-642 to actin and the catalytic properties of cross-linked acto-S-1 and actin-peptide complexes. These results show that the sequence 632-642 on S-1 is an autonomous binding site for actin and confirm the catalytic importance of its interactions with the N-terminal segment of actin.
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PMID:Synthetic peptide of the sequence 632-642 on myosin subfragment 1 inhibits actomyosin ATPase activity. 147 24

Sulfated tyrosine residues within recombinant human factor VIII were identified by [35S]sulfate biosynthetic labeling of Chinese hamster ovary cells which express human recombinant factor VIII. Alkaline hydrolysis of purified [35S]sulfate-labeled factor VIII showed that greater than 95% of the [35S]sulfate was incorporated into tyrosine. [3H]Tyrosine and [35S]sulfate double labeling was used to quantify the presence of 6 mol of tyrosine sulfate per mole of factor VIII. Amino acid sequence analysis of thrombin and tryptic peptides isolated from [35S]sulfate-labeled factor VIII demonstrated tyrosine sulfate at residue 346 in the factor VIII heavy chain and at residues 1664 and 1680 in the factor VIII light chain. In addition, the carboxyl-terminal half of the A2 domain contained three tyrosine sulfate residues, likely at positions 718, 719, and 723. Interestingly, all sites of tyrosine sulfation border thrombin cleavage sites. The functional importance of tyrosine sulfation was examined by treatment of cells expressing factor VIII with sodium chlorate, a potent inhibitor of tyrosine sulfation. Increasing concentrations of sodium chlorate inhibited sulfate incorporation into factor VIII without affecting its synthesis and/or secretion. However, factor VIII secreted in the presence of sodium chlorate exhibited a 5-fold reduction in procoagulant activity, although the protein was susceptible to thrombin cleavage. These results suggest that tyrosine sulfation is required for full factor VIII activity and may affect the interaction of factor VIII with other components of the coagulation cascade.
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PMID:Identification and functional importance of tyrosine sulfate residues within recombinant factor VIII. 155 16

The initial step in the purification of Dictyostelium myosin II heavy chain kinase A (MHCK A) is chromatography over phosphocellulose. Fractions containing MHCK A are pooled and chromatographed over a Mono Q column (Pharmacia LKB Biotechnology) equilibrated in 0.15 M KCl. Under these conditions MHCK A and most of the contaminating proteins elute in the flowthrough. The addition of Mg2+ and ATP to the Mono Q flowthrough results in the phosphorylation, within 15 min, of MHCK A to a level of 10 mol of phosphate per mole of 130-kDa kinase subunit. The hyperphosphorylated MHCK A binds to Mono Q columns in the presence of 0.15 M KCl and can be eluted, as a single homogeneous band, by a salt gradient to 0.35 M KCl. A similar purification procedure may prove useful for other proteins which can be highly phosphorylated. Hyperphosphorylation is shown to have no effect on the position at which MHCK A elutes from gel filtration columns (apparent M(r) greater than 700,000).
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PMID:Purification of Dictyostelium myosin II heavy chain kinase A based on the increase in negative charge accompanying hyperphosphorylation. 196 23

Casein kinase II from bovine brain transfers about one mole of phosphate to a serine residue near the COOH terminus of the heavy chain of myosin isolated from bovine brain. We have purified and characterized a peptide that contains this phosphoserine. The peptide was generated by chymotryptic and thermolytic digestion and was isolated by gel filtration, Fe3+ affinity chromatography, and reverse-phase high pressure liquid chromatography. Its sequence, Leu-Glu-Leu-Ser(PO4)-Asp-Asp-Asp-Asp-Glu-Ser-Lys-Ala-Ser-(Xaa)-Ile-Asn-Glu-Thr- Gln-Pro-Pro-Gln, shows that the Ser(PO4) is in an acidic environment, as is typical for casein kinase II phosphorylation sites. The "hydrophobic repeat" typical of alpha-helical coiled-coils is absent, suggesting that the sequence is part of a non-helical "tail piece" of the heavy chain. A synthetic peptide corresponding to residues 1-9 is shown to be an effective substrate for casein kinase II.
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PMID:Amino acid sequence around the serine phosphorylated by casein kinase II in brain myosin heavy chain. 210 26

Chicken brush border myosin I (CBB-MI) is a single-headed, nonfilamentous, myosin-like mechanoenzyme which, as isolated, has 3 mol of calmodulin (CAM) 'light chains' bound per mole of 119 kDa heavy chain. We have isolated a partial cDNA clone for CBB-MI that encodes the C-terminal approximately 35 kDa of the heavy chain. The sequence of this clone is identical to that of an authentic, near-full-length CBB-MI cDNA clone reported recently, except for an 87-bp/29-residue insertion occurring approximately 32 kDa from the C-terminus. This insert, which is probably generated by an alternate splicing event, is expressed in brush border as part of a message of the size predicted for the CBB-MI heavy chain, although the steady state level of this transcript is approximately 8-fold lower than for transcripts lacking the insert. 125I-CAM overlays of this cDNA clone (expressed as a trpE fusion protein in E. coli) indicate that it binds one more calmodulin than does a second cDNA clone that lacks the 29-residue insert. A synthetic peptide corresponding to the insert sequence binds tightly to CAM-Sepharose, demonstrates a shift and enhancement of fluorescence in the presence of CAM, and binds CAM in solution with a KD of 190 nM (in 100 mM KCl). We conclude that a second, low-abundance isoform of CBB-MI contains an additional (and possibly fourth) CAM binding site as a result of a 29-residue peptide that is inserted into the tail domain by an apparent alternate splicing event.
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PMID:A second isoform of chicken brush border myosin I contains a 29-residue inserted sequence that binds calmodulin. 236 78

We purified to homogeneity the Dictyostelium discoideum myosin heavy chain kinase that is implicated in the heavy chain phosphorylation increases that occur during chemotaxis. The kinase is initially found in the insoluble fraction of developed cells. The major purification step was achieved by affinity chromatography using a tail fragment of Dictyostelium myosin (LMM58) expressed in Escherichia coli (De Lozanne, A., Berlot, C. H., Leinwand, L. A., and Spudich, J. A. (1988) J. Cell Biol. 105, 2990-3005). The kinase has an apparent molecular weight of 84,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The apparent native molecular weight by gel filtration is 240,000. The kinase catalyzes phosphorylation of myosin heavy chain or LMM58 with similar kinetics, and the extent of phosphorylation for both is 4 mol of phosphate/mol. With both substrates the Vmax is about 18 mumol/min/mg and the Km is 15 microM. The myosin heavy chain kinase is specific to Dictyostelium myosin heavy chain, and the phosphorylated amino acid is threonine. The kinase undergoes autophosphorylation. Each mole of kinase subunit incorporates about 20 mol of phosphates. Phosphorylation of myosin by this kinase inhibits myosin thick filament formation, suggesting that the kinase plays a role in the regulation of myosin assembly.
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PMID:Myosin heavy chain kinase from developed Dictyostelium cells. Purification and characterization. 254 52

Goat immunoglobulin G (IgG) was isolated and characterized. The molecular weights of the IgG and its heavy chains and light chains were found to be 144000, 53600 and 23000 respectively. The light chain corresponds to human L type as was shown by the absence of C-terminal S-carboxymethylcysteine and its high content of N-terminal pyrrolid-2-one-5-carboxylic acid (PCA). The major C-terminal residue of the light chain was serine and the major N-terminal dipeptide was PCA-Ala (0.6mole/mole). The major C-terminal residue of the heavy chain was glycine and the N-terminal sequence of the heavy chain is PCA-Val-Gln. This tripeptide was obtained in a 70% yield.
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PMID:Goat immunolobulin G. Peptide chains and terminal residues. 535 16

It has been previously demonstrated that the actin-activated Mg2+-ATPase activity of Acanthamoeba myosin II is inhibited by phosphorylation of its two heavy chains (Collins, J. H., and Korn, E. D. (1980) J. Biol. Chem. 255, 8011-8014). In this paper, it is shown that a partially purified kinase preparation from Acanthamoeba catalyzes the incorporation of 3 mol of phosphate into each mole of myosin II heavy chain. Tryptic digestion of the 32P-myosin, followed by two-dimensional peptide mapping, indicates that two of the three sites phosphorylated by the kinase in vitro correspond to the two major phosphorylation sites on the myosin heavy chain in vivo. Phosphorylation of myosin II in vitro by the kinase fraction completely inhibits the actin-activated Mg2+-ATPase activity of myosin II. Myosin II can be isolated in a highly phosphorylated, enzymatically inactive form, then dephosphorylated to an active form, and finally rephosphorylated to an inactive form. The Acanthamoeba kinase fraction catalyzes the phosphorylation of all three sites on the heavy chain of myosin II at virtually the same rate. From a comparison of the decrease in actin-activated Mg2+-ATPase activity with the amount of phosphate incorporated into myosin II, and from the results obtained previously by dephosphorylating myosin II (Collins, J. H., and Korn, E. D., (1980) J. Biol. Chem. 255, 8011-8014), it can be inferred that two of the sites phosphorylated in vitro act in a synergistic manner to inhibit the actin-activated myosin II Mg2+-ATPase.
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PMID:Identification of three phosphorylation sites on each heavy chain of Acanthamoeba myosin II. 611 66


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