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91.
92.
Two crystal forms of beta-galactosidase have been obtained from Escherichia coli. One crystal form is hexagonal space group P6222 or enantiomorph, with cell dimensions a = b = 154 A, c = 750 A. The second form is monoclinic, space group P21, with cell dimensions a = 107.9 A, b = 207.5 A, c = 509.9 A, beta = 94.7 degrees. The monoclinic form seems better suited to detailed structural analysis. The crystals are radiation-sensitive, but by using synchrotron radiation in conjunction with a long (400 mm) crystal-to-film distance it was possible to resolve the individual reflections. On the basis of crystal density measurements, there are four tetramers each of molecular weight 465,000 per asymmetric unit. The Patterson function strongly suggests that two of the tetramers are related to the other two by translation. The data are consistent with the tetramers having 222 point symmetry, but this is not proven. 相似文献
93.
In a recent paper (P Ohana, DP Delmer, JC Steffens, DE Matthews, R Mayer, M Benziman [1991] J Biol Chem 266: 13472-13475), we described the purification and structural characterization of β-furfuryl-β-glucoside (FG), an endogenous activator of plant UDP-glucose:(1→3)-β-glucan (callose) synthase. In the present report, we provide evidence that FG specifically stimulates callose synthase. The effects of FG on the kinetic properties of callose synthase were studied, and we ascertained that FG, or at least a very similar compound, is present in other plant systems. Chemically synthesized α-furfuryl-β-glucoside also stimulates callose synthase, exhibiting a slightly higher Ka of 80 micromolar, compared with 50 micromolar for FG. In addition, we have identified and partially characterized an enzyme that catalyzes the synthesis of FG using β-furfuryl alcohol and UDP-glucose as substrates. A model for the regulation of callose synthesis in vivo, involving changes in intracellular compartmentation of FG and Ca2+, is proposed. 相似文献
94.
K. M. Dziegielewska W. M. Brown C. C. Gould N. Matthews J. E. C. Sedgwick N. R. Saunders 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1992,162(2):168-171
Summary Fetuin is a plasma protein present in high concentrations during fetal development in animals of the order Artiodactyla. Its role is not known. The human homologue of fetuin — 2HS glycoprotein — has been shown to be a negative acute phase protein in adult plasma. In the present study, the concentration of fetuin was measured in the serum of healthy cattle (Bovis bovis) and in animals with various injuries and inflammatory disorders. The levels were decreased by 30% in pregnancy but increased up to 10-fold in some trauma cases. A significant negative correlation between the concentrations of fetuin and albumin has also been found. Thus, fetuin appears to be a positive acute phase protein in cattle.Abbreviations 2HS
2HS glycoprotein
- AP
acute phase 相似文献
95.
Two new photoaffinity polyamines appear to alter the helical twist of DNA in nucleosome core particles 总被引:3,自引:0,他引:3
Two new photoaffinity derivatives of polyamines have been synthesized by the reaction of spermine or spermidine with methyl 4-azidobenzimidate. The new compounds were purified chromatographically and characterized by several methods including proton magnetic resonance spectroscopy. The spermine derivative is N1-ABA-spermine [(azidobenzamidino)spermine], and the spermidine derivative is a mixture of N1- and N8-ABA-spermidine. ABA-spermine stabilizes nucleosome core particles in thermal denaturation experiments, with similar but not identical effects when compared with the parent polyamine, spermine. In circular dichroism experiments, ABA-spermine was capable of producing a B----Z transition in poly(dG-m5dC) at a concentration of 30 microM, compared with 5 microM required to produce the same effect with spermine. On the other hand, ANB-spermine [(azidonitrobenzoyl)spermine; Morgan, J. E., Calkins, C. C., & Matthews, H. R. (1989) Biochemistry 28, 5095-5106] stabilized the B form of poly(dG-br5dC). ABA-spermine is a potent inhibitor of ornithine decarboxylase from Escherichia coli, giving 50% inhibition at 0.12 mM, while ANB-spermine is a modest inhibitor, comparable to spermine or spermidine. Under conditions of nitrogen-limited growth, yeast take up ABA-spermine and ABA-spermidine at approximately one-third to half the rate of spermidine or spermine. In contrast, ANB-spermine was not significantly taken up. The photoaffinity polyamines were used to photoaffinity label the DNA in nucleosome core particles, and the sites of labeling were determined by exonuclease protection. All photoaffinity reagents showed both nonspecific labeling and specific sites of higher occupancy. However, the positions of the sites varied: the ANB-spermine sites confirmed those previously reported (Morgan et al., 1989); the ABA-spermine and ABA-spermidine sites were spaced at 9.8 bp intervals from the 3' end of each DNA strand. This observation, together with the effect of spermine on the circular dichroism of DNA in nucleosome core particles, implies that polyamines alter the helical twist of DNA in nucleosome core particles. The ABA-polyamines are offered as general-purpose photoaffinity polyamine reagents. 相似文献
96.
Characterization and expression of the human leukocyte-common antigen (CD45) gene contained in yeast artificial chromosomes. 总被引:3,自引:0,他引:3
J L Fernandez-Luna R J Matthews B H Brownstein R D Schreiber M L Thomas 《Genomics》1991,10(3):756-764
The leukocyte-common antigen (CD45) is a transmembrane protein tyrosine phosphatase expressed uniquely by cells of hematopoietic origin. There are multiple isoforms of CD45 that are generated by the variable use of three exons (exons 4-6). The use of the variable exons results in changes near the amino-terminus of the mature glycoprotein. The gene is located on chromosome 1 for both human and mouse in a region that is homologous between these two species. This conserved linkage group contains a number of genes of immunological interest, such as the genes for complement regulatory proteins and the FCG2 receptor. Yeast artificial chromosomes provide a vector system in which large fragments of foreign DNA can be isolated and are suited to long-range physical mapping. To this end, three yeast artificial chromosomes containing the human CD45 gene have been isolated and characterized. They overlap to span 475 kb, establishing the largest physical map for DNA within the conserved linkage group. The CD45 gene is entirely encoded within one yeast artificial chromosome clone as determined by mapping with cDNA probes. A mouse B cell line transfected with this YAC clone expressed the low-molecular-weight isoform of the protein into the cell surface. The size of the human CD45 gene was determined to be approximately 120 +/- 10 kb. 相似文献
97.
P.M. Matthews J.L. Bland D.G. Gadian G.K. Radda 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1982,721(3)
(1) 31P nuclear magnetic resonance was used to measure the creatine kinase-catalysed fluxes in Langendorff-perfused rat hearts consuming oxygen at different rates and using either of two exogenous substrates (11 mM glucose or 5 mM acetate). (2) Fluxes in the direction of ATP synthesis were between 3.5–12-times the steady-state rates of ATP utilization (estimated from rates of O2-consumption), demonstrating that the reaction is sufficiently rapid to maintain the cytosolic reactants near their equilibrium concentrations. (3) Under all conditions studied, the cytosolic free [ADP] was primarily responsible for regulating the creatine kinase fluxes. The enzyme displayed a Km for cytosolic ADP of 35 μM and an apparent Vmax of 5.5 mM/s in the intact tissue. (4) Although the reaction is maintained in an overall steady-state, the measured ratio of the forward flux (ATP synthesis) to the reverse flux (phosphocreatine synthesis) was significantly greater than unity under some conditions. It is proposed that this discrepancy may be a consequence of participation of ATP in reactions other than the PCr /ag ATP or ATP /ag ADP + Pi interconversions specifically considered in the analysis. (5) The results support the view that creatine kinase functions primarily to maintain low cytosolic concentrations of ADP during transient periods in which energy utilization exceeds production. 相似文献
98.
D. E. Matthews J. B. Starren A. J. Drexler D. M. Kipnis D. M. Bier 《Analytical biochemistry》1981,110(2)
A simple, sensitive method for measuring Nτ-methylhistidine in biological samples using a deuterated internal standard and methane chemical ionization gas chromatography-mass spectrometry is described. After sample preparation, a single analysis can be completed in 3 min; analysis in duplicate, including sample preparation for 40 samples, can be completed at a rate of 15 min per sample. Nanomole amounts of Nτ-mmethylhistidine in urine or plasma samples are determined with a precision of 0.5%. Picomole amounts, released during in vitro rat epitrochlaris muscle incubations, are measured with a precision of 10%. 相似文献
99.
The pentaammineruthenium(III)histidine complex in ribonuclease A: application to the assignment of histidine proton resonances 总被引:1,自引:0,他引:1
The assignment of two histidine proton resonances in the proton NMR spectrum of ribonuclease A has been made by forming a paramagnetic complex between pentaammineruthenium(III) and the N-3 nitrogen of a single histidine residue. Reaction of chloropentaammineruthenium(III)dichloride with ribonuclease A in 0.1 m Tris-HCl, pH 7.0, 25°C yields a variety of products in which various histidine residues have been labeled. Cation-exchange chromatography affords the isolation of a specific derivative, labeled at a single histidine residue, that retains 66% of the activity toward the hydrolysis of 2′,3′-cyclic CMP. The site of labeling was determined by peptide mapping to be histidine 105. The binding of ruthenium results in the disappearance of both a histidine C-2 and a C-4 proton resonance from the downfield region of the proton NMR spectrum, as expected from model compound studies. The assignment of these two resonances to histidine 105 is in agreement with a previous assignment (J. L. Markley, 1975, Biochemistry, 14, 3546–3554), thereby demonstrating the potential utility of this ruthenium reagent in the assignment of histidine resonances in the proton NMR spectra of other proteins. 相似文献
100.
W.F. Anderson M.G. Grütter S.J. Remington L.H. Weaver B.W. Matthews 《Journal of molecular biology》1981,147(4):523-543
Phage lysozyme has catalytic activity similar to that of hen egg white lysozyme, but the amino acid sequences of the two enzymes are completely different.The binding to phage lysozyme of several saccharides including N-acetylglucosamine (GlcNAc), N-acetylmuramic acid (MurNAc) and (GlcNAc)3 have been determined crystallographically and shown to occupy the pronounced active site cleft. GlcNAc binds at a single location analogous to the C site of hen egg white lysozyme. MurNAc binds at the same site. (GlcNAc)3 clearly occupies sites B and C, but the binding in site A is ill-defined.Model building suggests that, with the enzyme in the conformation seen in the crystal structure, a saccharide in the normal chair configuration cannot be placed in site D without incurring unacceptable steric interference between sugar and protein. However, as with hen egg white lysozyme, the bad contacts can be avoided by assuming the saccharide to be in the sofa conformation. Also Asp20 in T4 lysozyme is located 3 Å from carbon C(1) of saccharide D, and is in a position to stabilize the developing positive charge on a carbonium ion intermediate. Prior genetic evidence had indicated that Asp20 is critically important for catalysis. This suggests that in phage lysozyme catalysis is promoted by a combination of steric and electronic effects, acting in concert, The enzyme shape favors the binding in site D of a saccharide with the geometry of the transition state, while Asp20 stabilizes the positive charge on the oxocarbonium ion of this intermediate. Tn phage lysozyme, the identity of the proton donor is uncertain. In contrast to hen egg white lysozyme, where Glu35 is 3 Å from the glycosidic DOE bond, and is in a non-polar environment, phage lysozyme has an ion pair, Glull … Arg145, 5 Å away from the glycosidic oxygen. Possibly Glull undergoes a conformational adjustment in the presence of bound substrate, and acts as the proton donor. Alternatively, the proton might come from a bound water molecule. 相似文献