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Query: UMLS:C0155339 (Brown)
 12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study children's ability to repeat either positive- or negative-polarity tag questions was examined. An elicited imitation task (Brown, Fraser, & Bellugi, 1963; Slobin & Welsh, 1973) was used to determine whether the patterns of repetition by children with lower-level language skills differ from the patterns of repetition by children with normal language skills. It was also asked whether children always adhere to the polarity-contrast principle in their production of tag questions, as suggested by Berninger and Garvey (1982). Adherence to the polarity-contrast principle was greater for the higher-level children than the lower-level children, but very few qualitative differences in the children's responses were found. Both sets of children violated the polarity-contrast principles at times and frequently repeated contrasting tag questions as matching tag questions. This finding clearly counters Berninger and Garvey's claim that preschool children always adhere to the polarity-contrast principle and corresponds to the spontaneous speech data of Richards (1988) and Todd (1982). Preschool children, it appears, have more than has been assumed to learn about the structure and function of English tag questions.
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PMID:Preschoolers' production of tag questions and adherence to the polarity-contrast principle. 154 19

Many recent studies of latent herpes simplex virus type 1 (HSV-1) infections within the nervous system have focused on the diploid genes encoding the latency-associated transcripts (LATs). The impaired explant reactivation of LAT variants from mouse trigeminal ganglia has implicated the LATs in the efficiency or speed of the reactivation process (D. A. Leib, C. L. Bogard, M. Kosz-Vnenchak, K. A. Hicks, D. M. Coen, D. M. Knipe, and P. A. Schaffer, J. Virol. 63:2893-2900, 1989; I. Steiner, J. G. Spivack, R. P. Lirette, S. M. Brown, A. R. MacLean, J. H. Subak-Sharpe, and N. W. Fraser, EMBO J. 8:505-511, 1989). However, it is not known how closely explant reactivation mimics the reactivation process in vivo. In the current study, a LAT variant (1704), parental strain (17+), and rescuant (1704R) were compared in vivo for reactivation of latent infection by iontophoresis in the rabbit eye model and in vitro by explant cocultivation of trigeminal ganglia from rabbits. Following iontophoresis, 17+ and 1704R reactivated in vivo from 76 and 64% of rabbits, respectively, while 1704 reactivated only from 4% (1 of 25) of the animals. In explant reactivation experiments, 17+ and 1704R reactivated from 98 and 67% of rabbit trigeminal ganglia, while 1704 reactivated from only 28% of trigeminal ganglia. The mean time required for the appearance of reactivated 1704 in explant culture, 17 days, was significantly longer than for 17+ and 1704R, 8 to 9 days. Thus, the explant reactivation kinetics in rabbit trigeminal ganglia reflect the behavior of LAT variant 1704 in vivo in the rabbit eye model. These data support the role of the LATs in the reactivation process and support the hypothesis that explant reactivation is a suitable system for analyzing the biological behavior of HSV-1 variants with defined genetic alterations in the LAT gene.
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PMID:In vivo and in vitro reactivation impairment of a herpes simplex virus type 1 latency-associated transcript variant in a rabbit eye model. 165 88

The beta gamma subunits of G-proteins are composed of closely related beta 35 and beta 36 subunits tightly associated with diverse 6-10 kDa gamma subunits. We have developed a reconstitution assay using rhodopsin-catalyzed guanosine 5'-3-O-(thio)triphosphate (GTP gamma S) binding to resolved alpha subunit of the retinal G-protein transducin (Gt alpha) to quantitate the activity of beta gamma proteins. Rhodopsin facilitates the exchange of GTP gamma S for GDP bound to Gt alpha beta gamma with a 60-fold higher apparent affinity than for Gt alpha alone. At limiting rhodopsin, G-protein-derived beta gamma subunits catalytically enhance the rate of GTP gamma S binding to resolved Gt alpha. The isolated beta gamma subunit of retinal G-protein (beta 1, gamma 1 genes) facilitates rhodopsin-catalyzed GTP gamma S exchange on Gt alpha in a concentration-dependent manner (K0.5 = 254 +/- 21 nM). Purified human placental beta 35 gamma, composed of beta 2 gene product and gamma-placenta protein (Evans, T., Fawzi, A., Fraser, E.D., Brown, L.M., and Northup, J.K. (1987) J. Biol. Chem. 262, 176-181), substitutes for Gt beta gamma reconstitution of rhodopsin with Gt alpha. However, human placental beta 35 gamma facilitates rhodopsin-catalyzed GTP gamma S exchange on Gt alpha with a higher apparent affinity than Gt beta gamma (K0.5 = 76 +/- 54 nM). As an alternative assay for these interactions, we have examined pertussis toxin-catalyzed ADP-ribosylation of the Gt alpha subunit which is markedly enhanced in rate by beta gamma subunits. Quantitative analyses of rates of pertussis modification reveal no differences in apparent affinity between Gt beta gamma and human placental beta 35 gamma (K0.5 values of 49 +/- 29 and 70 +/- 24 nM, respectively). Thus, the Gt alpha subunit alone does not distinguish among the beta gamma subunit forms. These results clearly show a high degree of functional homology among the beta 35 and beta 36 subunits of G-proteins for interaction with Gt alpha and rhodopsin, and establish a simple functional assay for the beta gamma subunits of G-proteins. Our data also suggest a specificity of recognition of beta gamma subunit forms which is dependent both on Gt alpha and rhodopsin. These results may indicate that the recently uncovered diversity in the expression of beta gamma subunit forms may complement the diversity of G alpha subunits in providing for specific receptor recognition of G-proteins.
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PMID:Rhodopsin and the retinal G-protein distinguish among G-protein beta gamma subunit forms. 190 16

Because the organogenesis and physiology of the lens are essentially similar in various mammals, an understanding of the etiology and pathogenesis of the formation of cataract in an animal model will enhance our knowledge of cataractogenesis in man. In this review, we summarize the background, etiology, and pathogenesis of cataracts that occur in rodents. The main advantages of using rodent mutants include the well-researched genetics of the animals and the comparative ease of breeding of large litters. Numerous rodent models of congenital and hereditary cataracts have been studied extensively. In mice, the models include the Cts strain, Fraser mouse, lens opacity gene (Lop) strain, Lop-2 and Lop-3 strains, Philly mouse, Nakano mouse, Nop strain, Deer mouse, Emory mouse, Swiss Webster strain, Balb/c-nct/nct mouse, and SAM-R/3 strain. The rat models include BUdR, ICR, Sprague-Dawley, and Wistar rats, the spontaneously hypertensive rat (SHR), the John Rapp inbred strain of Dahl salt-sensitive rat, as well as WBN/Kob, Royal College of Surgeons (RCS), and Brown-Norway rats. Other proposed models for the study of hereditary cataract include the degu and the guinea pig. Because of the ease of making clinical observations in vivo and the subsequent availability of the intact lens for laboratory analyses at different stages of cataract formation, these animals provide excellent models for clinicopathologic correlations, for monitoring of the natural history of the aging process and of metabolic defects, as well as for investigations on the effect of cataract-modulating agents and drugs, including the prospect of gene therapy.
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PMID:Rodent models of congenital and hereditary cataract in man. 195 36

Gp is a major GTP-binding protein of human placenta and platelets [Evans, T., Brown, M. L., Fraser, E. D., & Northup, J. K. (1986) J. Biol. Chem. 261, 7052-7059]. High-affinity guanine nucleotide binding is associated with a polypeptide migrating identically with H-ras on SDS-PAGE. We have characterized the interactions of preparations of purified human placental Gp with guanine nucleotides in detergent solution. Equilibrium binding studies with [35S]GTP gamma S, [3H]Gpp(NH)p, and [3H]GTP identified a single class of sites with a dissociation constant of 10 +/- 1, 153 +/- 61, and 125 +/- 77 nM for the ligands, respectively. These three ligands were mutually competitive with Ki values consistent with the Kd values from direct binding experiments. Competition for the binding of [3H]Gpp(NH)p was used to determine the specificity of the site. Ki values determined from this assay were 14 nM for GTP gamma S, 143 nM for Gpp(NH)p, 3.3 microM for GDP beta S, 69 nM for GTP, and 64 nM for GDP. ATP, ADP, cAMP, cGMP, and NAD+ had no detectable affinity for this site. While the equilibrium binding data fit well to a single class of sites, association kinetics of these ligands were better fit to two rate constants. Dissociation kinetics, however, were not clearly resolved into two rates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Unique guanine nucleotide binding properties of the human placental GTP-binding protein Gp. 212 Dec 70

The abilities of different GTP-binding proteins to serve as phosphosubstrates for the epidermal growth factor (EGF) receptor/tyrosine kinase have been examined in reconstituted phospholipid vesicle systems. During the course of these studies we discovered that a low molecular mass, high affinity GTP-binding protein from bovine brain (designated as the 22-kDa protein) served as an excellent phosphosubstrate for the tyrosine-agarose-purified human placental EGF receptor. The EGF-stimulated phosphorylation of the purified 22-kDa protein occurs on tyrosine residues, with stoichiometries approaching 2 mol of 32Pi incorporated/mol of [35S]guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S)-binding sites. The EGF-stimulated phosphorylation of the brain 22-kDa protein requires its reconstitution into phospholipid vesicles. No phosphorylation of this GTP-binding protein is detected if it is simply mixed with the purified EGF receptor in detergent solution or if detergent is added back to lipid vesicles containing the EGF receptor and the 22-kDa protein. The EGF-stimulated phosphorylation of this GTP-binding protein is also markedly attenuated by guanine nucleotides, i.e. GTP, GTP gamma S, or GDP, suggesting that maximal phosphorylation occurs when the GTP-binding protein is in a guanine nucleotide-depleted state. Purified preparations of the 22-kDa phosphosubstrate do not cross-react with antibodies against the ras proteins. However, they do cross-react against two different peptide antibodies generated against specific sequences of the human platelet (and placental) GTP-binding protein originally designated Gp (Evans, T., Brown, M. L., Fraser, E. D., and Northrup, J. K. (1986) J. Biol. Chem. 261, 7052-7059) and more recently named G25K (Polakis, P. G., Synderman, R., and Evans, T. (1989) Biochem. Biophys. Res. Commun. 160, 25-32). When highly purified preparations of the human platelet Gp (G25K) protein are reconstituted with the purified EGF receptor into phospholipid vesicles, an EGF-stimulated phosphorylation of the platelet GTP-binding protein occurs with a stoichiometry approaching 2 mol of 32Pi incorporated/mol of [35S]GTP gamma S-binding sites. As is the case for the brain 22-kDa protein, the EGF-stimulated phosphorylation of the platelet GTP-binding protein is attenuated by guanine nucleotides. Overall, these results suggest that the brain 22-kDa phosphosubstrate for the EGF receptor is very similar, if not identical, to the Gp (G25K) protein. Although guanine nucleotide binding to the brain 22-kDa protein or to the platelet. GTP-binding protein inhibits phosphorylation, the phosphorylated GTP-binding proteins appear to bind [35S]GTP gamma S slightly better than their nonphosphorylated counterparts.
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PMID:The identification and characterization of an epidermal growth factor-stimulated phosphorylation of a specific low molecular weight GTP-binding protein in a reconstituted phospholipid vesicle system. 215 36

A guanine-nucleotide-binding protein (G-protein) was purified from cholate extracts of bovine brain membranes by sequential DEAE-Sephacel, Ultrogel AcA-34, heptylamine-Sepharose and Sephadex G-150 chromatography. Guanosine 5'-[gamma-[35S]thio]triphosphate (GTP[35S])-binding activity copurified with a 25,000 Da peptide and a 35,000-36,000 Da protein doublet. Neither pertussis toxin nor cholera toxin catalysed the ADP-ribosylation of a protein associated with the GTP[35S]-binding activity. Photoaffinity labelling of the purified protein with 8-azido[gamma-32P]GTP indicated that the GTP-binding site resides on the 25,000 Da protein. The 35,000-36,000 Da protein doublet was electrophoretically indistinguishable from the beta-subunits of other GTP-binding proteins, and the 36,000 Da protein was recognized by antiserum to oligomeric Gt. The purified protein specifically bound 17.2 nmol of GTP[35S]/mg of protein. The Kd of the binding site for radioligand was approx. 15 nM. The brain GTP-binding protein co-migrated during SDS/polyacrylamide-gel electrophoresis with a GTP-binding protein, named Gp, purified from human placenta [Evans, Brown, Fraser & Northup (1986) J. Biol. Chem. 261, 7052-7059], and cross-reacted with antiserum raised against the placental protein, but not with antiserum raised to brain Go. SDS/polyacrylamide-gel electrophoresis of the brain and placental GTP-binding proteins in the presence of Staphylococcus aureus V8 protease yielded identical peptide maps.
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PMID:Identification and purification from bovine brain of a guanine-nucleotide-binding protein distinct from Gs, Gi and Go. 312 Jun 96

The dexamethasone suppression test (DST) and response to two different antidepressant drugs (maprotiline as a specific noradrenergic, and amitriptyline as a predominantly serotoninergic drug) were investigated in 44 endogenously depressed female inpatients. The more anxious and/or agitated patients were mostly treated with amtiriptyline, the non-anxious and retarded patients with maprotiline. It was found that among maprotiline responders (N = 15) there were significantly more abnormal DSTs and postdexamethasone serum cortisol levels were significantly higher than among amitriptyline responders (N = 16). On the other hand, DST abnormalities among amitriptyline non-responders (N = 10) were similar to those among maprotiline responders. The results confirm earlier reports by Brown et al. (1980), Ettigi et al. (1983) and Fraser (1983) and indicate that abnormal DST may identify the "noradrenergic" subtype of endogenous depression and that the DST represents a good way of selecting a specific antidepressant drug for the treatment of endogenously depressed patients.
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PMID:Dexamethasone suppression test as an aid for selection of specific antidepressant drugs in patients with endogenous depression. 404 65

The heterodimeric CGRP receptor requires co-expression of calcitonin receptor-like receptor (CRLR) and an accessory protein called receptor activity-modifying protein (RAMP) 1 (McLatchie, L. M., Fraser, N. J., Main, M. J., Wise, A., Brown, J., Thompson, N., Solari, R., Lee, M. G., and Foord, S. M. (1998) Nature 393, 333-339). Several non-peptide CGRP receptor antagonists have been shown to exhibit marked species selectivity, with >100-fold higher affinities for the human CGRP receptor than for receptors from other species (Doods, H., Hallermayer, G., Wu, D., Entzeroth, M., Rudolf, K., Engel, W., and Eberlein, W. (2000) Br. J. Pharmacol. 129, 420-423; Edvinsson, L., Sams, A., Jansen-Olesen, I., Tajti, J., Kane, S. A., Rutledge, R. Z., Koblan, K. S., Hill, R. G., and Longmore, J. (2001) Eur. J. Pharmacol. 415, 39-44). This observation provided an opportunity to map the determinants of receptor affinity exhibited by BIBN4096BS and the truncated analogs, Compounds 1 and 2. All three compounds exhibited higher affinity for the human receptor, human CRLR/human RAMP1, than for the rat receptor, rat CRLR/rat RAMP1. We have now demonstrated that this species selectivity was directed exclusively by RAMP1. By generating recombinant human/rat CRLR/RAMP1 receptors, we demonstrated that co-expression of human CRLR with rat RAMP1 produced rat receptor pharmacology, and vice versa. Moreover, with rat/human RAMP1 chimeras and site-directed mutants, we have identified a single amino acid at position 74 of RAMP1 that modulates the affinity of small molecule antagonists for CRLR/RAMP1. Replacement of lysine 74 in rat RAMP1 with tryptophan (the homologous amino acid in the human receptor) resulted in a > or =100-fold increase in antagonist affinities, similar to the K(i) values for the human receptor. These observations suggest that important determinants of small molecule antagonist affinity for the CGRP receptor reside within the extracellular region of RAMP1 and provide evidence that this receptor accessory protein may participate in antagonist binding.
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PMID:Receptor activity-modifying protein 1 determines the species selectivity of non-peptide CGRP receptor antagonists. 1184 13

Marianne Bronner-Fraser received her Sc.B. in Biophysics from Brown University and her Ph.D. in Biophysics from Johns Hopkins University. She joined the faculty at University of California, Irvine, in 1980 and became a Full Professor in 1990, as well as co-director of the Developmental Biology Center. In 1996, she moved to the Division of Biology at Caltech where she is currently the Albert Billings Ruddock Professor of Biology. From 2001 to 2003, she was Chair of the Faculty at Caltech. Dr. Bronner-Fraser's research centers on the early formation of the nervous system in vertebrate embryos. Her laboratory focuses on how neural crest cells and placodes arose, both in a developmental and evolutionary context. The aim is to unravel the molecular and cellular signals by which neural crest and placode cells form and evolve using a combination of embryologic, molecular, and genomic approaches.
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PMID:Investigator profile. An interview with Marianne Bronner-Fraser, Ph.D. Interview by Vicki Glaser. 1824 67


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