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81.
Knowledge of the structure and function of the genes and proteins of the rotaviruses has expanded rapidly. Information obtained in the last 5 years has revealed unexpected and unique molecular properties of rotavirus proteins of general interest to virologists, biochemists, and cell biologists. Rotaviruses share some features of replication with reoviruses, yet antigenic and molecular properties of the outer capsid proteins, VP4 (a protein whose cleavage is required for infectivity, possibly by mediating fusion with the cell membrane) and VP7 (a glycoprotein), show more similarities with those of other viruses such as the orthomyxoviruses, paramyxoviruses, and alphaviruses. Rotavirus morphogenesis is a unique process, during which immature subviral particles bud through the membrane of the endoplasmic reticulum (ER). During this process, transiently enveloped particles form, the outer capsid proteins are assembled onto particles, and mature particles accumulate in the lumen of the ER. Two ER-specific viral glycoproteins are involved in virus maturation, and these glycoproteins have been shown to be useful models for studying protein targeting and retention in the ER and for studying mechanisms of virus budding. New ideas and approaches to understanding how each gene functions to replicate and assemble the segmented viral genome have emerged from knowledge of the primary structure of rotavirus genes and their proteins and from knowledge of the properties of domains on individual proteins. Localization of type-specific and cross-reactive neutralizing epitopes on the outer capsid proteins is becoming increasingly useful in dissecting the protective immune response, including evaluation of vaccine trials, with the practical possibility of enhancing the production of new, more effective vaccines. Finally, future analyses with recently characterized immunologic and gene probes and new animal models can be expected to provide a basic understanding of what regulates the primary interactions of these viruses with the gastrointestinal tract and the subsequent responses of infected hosts. 相似文献
82.
83.
Curtis W. Hoganson Demetrios F. Ghanotakis Gerald T. Babcock Charles F. Yocum 《Photosynthesis research》1989,22(3):285-293
Manganese in the oxygen-evolving complex is a physiological electron donor to Photosystem II. PS II depleted of manganese may oxidize exogenous reductants including benzidine and Mn2+. Using flash photolysis with electron spin resonance detection, we examined the room-temperature reaction kinetics of these reductants with Yz
+, the tyrosine radical formed in PS II membranes under illumination. Kinetics were measured with membranes that did or did not contain the 33 kDa extrinsic polypeptide of PS II, whose presence had no effect on the reaction kinetics with either reductant. The rate of Yz
+ reduction by benzidine was a linear function of benzidine concentration. The rate of Yz
+ reduction by Mn2+ at pH 6 increased linearly at low Mn2+ concentrations and reached a maximum at the Mn2+ concentrations equal to several times the reaction center concentration. The rate was inhibited by K+, Ca2+ and Mg2+. These data are described by a model in which negative charge on the membrane causes a local increase in the cation concentration. The rate of Yz
+ reduction at pH 7.5 was biphasic with a fast 400 s phase that suggests binding of Mn2+ near Yz
+ at a site that may be one of the native manganese binding sites.Abbreviations PS II
Photosystem II
- YD
tyrosine residue in Photosystem II that gives rise to the stable Signal II EPR spectrum
- Yz
tyrosine residue in Photosystem II that mediates electron transfer between the reaction center chlorophyll and the site of water oxidation
- ESR
electron spin resonance
- DPC
diphenylcarbazide
- DCIP
dichlorophenolindophenol 相似文献
84.
The autoradiographic deoxyglucose method was employed to investigate: 1) whether the increased glucose utilization in the subfornical organ (SFO) during administration of angiotensin II (AII) depends on the neural inputs to the SFO; and 2) to investigate whether the activation of the hypothalamo-neurohypophysial system during administration of AII depends on inputs from the SFO. The ventral stalk of the SFO, which contains the majority of efferent and afferent projections of this circumventricular structure, was interrupted with knife cuts three days before the deoxyglucose experiments. Intravenous infusion of AII (2.5 micrograms/min) for 45 min increased glucose utilization in the SFO and neural lobe in the lesioned animals to the same extent as in the sham-operated animals. Drinking, however, was significantly reduced in lesioned animals. These experiments disclose independent parallel mechanisms responsible for activation of the SFO and the hypothalamo-neurohypophysial system by AII. 相似文献
85.
Site-specific mutagenesis identifies amino acid residues critical in prohormone processing. 总被引:5,自引:2,他引:3
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Peptide hormones are generally synthesized as inactive higher mol. wt precursors. Processing of the prohormone into biologically active peptides by specific proteolytic cleavages occurs most often at pairs of basic amino acids but also at single arginine residues. To study the role of protein secondary structure in this process, we used site-directed mutagenesis to modify the predicted secondary structure around the cleavage sites of human prosomatostatin and monitored the processing of the precursor after introduction of the mutated cDNAs in Neuro2A cells. Amino acid substitutions were introduced that affected the possibility of forming beta-turn structures in the immediate vicinity of the somatostatin-28 (S-28) and somatostatin-14 (S-14) cleavage sites. Infection of Neuro2A cells with a retrovirus carrying a human somatostatin cDNA resulted in the expression of prosomatostatin and its processing into S-28 and S-14, indicating that these cells have the necessary enzymes to process prohormone at both single and paired amino acid residues. Disruption of the different beta-turns had various effects on prosomatostatin processing: substitution of Ala for Pro-5 drastically decreased prosomatostatin processing and replacement of Pro-9 by Ala led to the accumulation of the intermediate maturation product [Arg-2Lys-1]-S-14. In contrast, substitution of Ala for Asn-12, Gly+2 and Cys+3 respectively had only very little effect on the proteolytic processing of prosomatostatin. Our results show that amino acids other than the basic amino acid residues are required to define the cleavage sites for prohormone proteolytic processing and suggest that higher orders of protein structure are involved in substrate recognition by the endoproteases. 相似文献
86.
87.
Steven Pelech Harry Paddon Linda Kwong Gerald Weeks 《Development, growth & differentiation》1989,31(4):351-361
Cell-free extracts of the slime mold Dictyostelium discoideum were assayed for phosphorylating activity towards endogenous proteins and towards histone H1, casein and myelin basic protein (MBP). During development, protein kinase activity towards all of these substrates steadily increased and peaked between the aggregation and the pseudoplasmodial stages. Particulate-associated kinase activity was solubilized with 1% CHAPS, and separated into 300–400 kDa and ∼ 100 kDa components on Sephacryl S-300. The 300–400 kDa peak exhibited the most pronounced developmental increase in MBP phosphorylating activity. It was further fractionated on DEAE-Sephacel and heparin-Sepharose, and in each case, it coeluted with the histone H1 phosphorylating activity. The activity of this kinase was unaffected by cAMP and calmodulin, but it was reduced to 50% by ∼ 350 mM NaCl, 5 mM NaF and 40 μg polylysine/ml. The ∼ 100 kDa peak exhibited the most pronounced increase in casein kinase activity during development. Most of the casein phosphorylating activity did not bind to DEAE-Sephacel; it was distinct from casein kinase 2, which was not developmentally regulated. In parallel with these elevated kinase activities during development, there was increased in vitro phosphorylation of a number of Dictyostelium proteins, including two major phosphoproteins of 140 and 94 kDa. 相似文献
88.
The glycogen-bound form of protein phosphatase-1 (PP-1G) was previously purified as a heterodimer composed of a 37-kDa catalytic (C) subunit and a proteolytically sensitive 103-kDa glycogen-binding (G) subunit [Str?hlfors, P., Hiraga, A. & Cohen, P. (1985) Eur. J. Biochem. 149, 295-303]. In this paper we demonstrate by a variety of criteria that the intact G subunit is a 161-kDa protein, and that the 103-kDa species (now termed G') is itself a product of proteolysis. A second phosphorylation site for cAMP-dependent protein kinase (termed site 2) was identified on the G subunit. The site 2 serine was phosphorylated at a comparable rate to site 1, and near stoichiometric phosphorylation could be achieved in the presence and absence of glycogen. Site 2 was dephosphorylated by PP-1 at a slow rate, whereas site 1 was resistant to autodephosphorylation. PP-1G, as well as the proteolytic activity responsible for degradation of the G subunit, remained tightly associated with glycogen-protein particles during washing with a variety of solvents. The PP-1G holoenzyme was released from glycogen-protein particles by dilution, with a dissociation half point corresponding to about 10 nM PP-1G. Binding experiments with purified PP-1G and glycogen indicated a bimolecular process with Kapp values corresponding to about 8 nM glycogen and 4 nM PP-1G. Binding was not significantly affected by increasing ionic strength to 0.5 M or variation of pH from 6 to 8. The results are consistent with a high-affinity glycogen-binding domain on the G subunit, and indicate that a physiological concentrations of phosphatase and glycogen, PP-1G should be almost entirely bound to glycogen. 相似文献
89.
90.
The glycogen-associated form of protein phosphatase-1 (PP-1G) comprises a 37-kDa catalytic (C) subunit and a 161-kDa glycogen-binding (G) subunit. In the preceding paper in this issue of the journal we showed that the C subunit is released from PP-1G in response to phosphorylation of the G subunit by cAMP-dependent protein kinase. We now show that at 0.15-0.2 M KCl the phosphorylase phosphatase activity of glycogen-bound PP-1G is 5-8 times higher than that of released C subunit or unbound PP-1G, which are strongly inhibited at these ionic strengths. The activity of glycogen-bound PP-1G towards glycogen synthase was about 5-fold higher than that of released C subunit at 0.15M KCl. Studies with glycogen-bound substrates and myosin P-light chain (which does not interact with glycogen) indicated that PP-1G activity is only enhanced compared to free C subunit at near physiological ionic strength and when both PP-1G and substrate are glycogen-associated. The inhibition by increasing ionic strength and enhanced activity upon binding to glycogen reflected changes in K'm, but not Vmax. From the determined specificity constant, k'cat/K'm approximately 4 x 10(6) s-1 M-1, it was calculated that at physiological levels of glycogen-bound PP-1G (200 nM) and phosphorylase (70 microM), dephosphorylation of the latter could occur with a half time of 15 s, sufficient to account for inactivation rates in vivo. The much higher catalytic efficiency of glycogen-bound PP-1G toward the glycogen-metabolising enzymes at physiological ionic strength compared to free C subunit substantiates the role of PP-1G in the regulation of these substrates, and establishes a novel mechanism for selectively regulating their phosphorylation states in response to adrenalin and other factors affecting phosphorylation of the G subunit. 相似文献