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81.
Glucagon-induced desensitization of adenylyl cyclase in primary cultures of chick hepatocytes. Evidence for multiple pathways 总被引:4,自引:0,他引:4
Chick hepatocytes in primary culture have been used to study the homologous and heterologous pathways of glucagon-induced desensitization of adenylyl cyclase. Scatchard analysis and guanine nucleotide effects on dissociation kinetics indicate that the initial phase of homologous desensitization, an increase in low affinity glucagon receptors due to the rapid uncoupling of the receptor from Gs, is essentially complete within 5 min. These receptors recouple within 20 min upon removal of glucagon. Upon prolonged (2 h or more) exposure of hepatocytes to glucagon, disappearance of low affinity receptors from cell surface membranes constitutes the second phase of homologous desensitization. Recovery of these lost and presumably internalized receptors requires more than 12 h following the removal of glucagon but is not dependent on new protein synthesis. The heterologous phase of desensitization is slower, requiring 20-30 min of glucagon treatment to reach completion. Stimulation of adenylyl cyclase by hormonal and nonhormonal effectors is similarly reduced, indicating a common defect in this desensitized state. Agonist occupancy of other hormone receptors coupled to adenylyl cyclase in hepatocytes, such as beta-adrenergic, prostaglandin E1, and vasoactive intestinal peptide, results in heterologous desensitization. Heterologous desensitization is rapidly reversed (within 30 min) upon partial removal of glucagon, under conditions allowing the maintenance of the homologously desensitized state. Neither onset of nor recovery from heterologous desensitization requires protein synthesis. These data indicate that homologous and heterologous desensitization occurs by independent mechanisms. Homologous desensitization involves uncoupling of the glucagon receptor from Gs, followed by removal of these uncoupled receptors from the cell surface. Heterologous desensitization represents a second level of cellular control of hormonal responsiveness to be turned on when the cell is subjected to prolonged hormonal stimulation and withdrawn when hormone levels are lowered. 相似文献
82.
Chaperones are proteins that help other proteins fold. They also affect the adaptive evolution of their client proteins by buffering the effect of deleterious mutations and increasing the genetic diversity of evolving proteins. We study how the bacterial chaperone GroE (GroEL+GroES) affects the evolution of green fluorescent protein (GFP). To this end, we subjected GFP to multiple rounds of mutation and selection for its color phenotype in four replicate Escherichia coli populations, and studied its evolutionary dynamics through high-throughput sequencing and mutant engineering. We evolved GFP both under stabilizing selection for its ancestral (green) phenotype, and to directional selection for a new (cyan) phenotype. We did so both under low and high expression of the chaperone GroE. In contrast to previous work, we observe that GroE does not just buffer but also helps purge deleterious (fluorescence reducing) mutations from evolving populations. In doing so, GroE helps reduce the genetic diversity of evolving populations. In addition, it causes phenotypic heterogeneity in mutants with the same genotype, helping to enhance their fluorescence in some cells, and reducing it in others. Our observations show that chaperones can affect adaptive evolution in more than one way. 相似文献
83.
Genomewide linkage analyses of bipolar disorder: a new sample of 250 pedigrees from the National Institute of Mental Health Genetics Initiative 下载免费PDF全文
Dick DM Foroud T Flury L Bowman ES Miller MJ Rau NL Moe PR Samavedy N El-Mallakh R Manji H Glitz DA Meyer ET Smiley C Hahn R Widmark C McKinney R Sutton L Ballas C Grice D Berrettini W Byerley W Coryell W DePaulo R MacKinnon DF Gershon ES Kelsoe JR McMahon FJ McInnis M Murphy DL Reich T Scheftner W Nurnberger JI 《American journal of human genetics》2003,73(1):107-114
We conducted genomewide linkage analyses on 1,152 individuals from 250 families segregating for bipolar disorder and related affective illnesses. These pedigrees were ascertained at 10 sites in the United States, through a proband with bipolar I affective disorder and a sibling with bipolar I or schizoaffective disorder, bipolar type. Uniform methods of ascertainment and assessment were used at all sites. A 9-cM screen was performed by use of 391 markers, with an average heterozygosity of 0.76. Multipoint, nonparametric linkage analyses were conducted in affected relative pairs. Additionally, simulation analyses were performed to determine genomewide significance levels for this study. Three hierarchical models of affection were analyzed. Significant evidence for linkage (genomewide P<.05) was found on chromosome 17q, with a peak maximum LOD score of 3.63, at the marker D17S928, and on chromosome 6q, with a peak maximum LOD score of 3.61, near the marker D6S1021. These loci met both standard and simulation-based criteria for genomewide significance. Suggestive evidence of linkage was observed in three other regions (genomewide P<.10), on chromosomes 2p, 3q, and 8q. This study, which is based on the largest linkage sample for bipolar disorder analyzed to date, indicates that several genes contribute to bipolar disorder. 相似文献
84.
85.
Pigati L Yaddanapudi SC Iyengar R Kim DJ Hearn SA Danforth D Hastings ML Duelli DM 《PloS one》2010,5(10):e13515
MicroRNAs (miRNAs) in body fluids are candidate diagnostics for a variety of conditions and diseases, including breast cancer. One premise for using extracellular miRNAs to diagnose disease is the notion that the abundance of the miRNAs in body fluids reflects their abundance in the abnormal cells causing the disease. As a result, the search for such diagnostics in body fluids has focused on miRNAs that are abundant in the cells of origin. Here we report that released miRNAs do not necessarily reflect the abundance of miRNA in the cell of origin. We find that release of miRNAs from cells into blood, milk and ductal fluids is selective and that the selection of released miRNAs may correlate with malignancy. In particular, the bulk of miR-451 and miR-1246 produced by malignant mammary epithelial cells was released, but the majority of these miRNAs produced by non-malignant mammary epithelial cells was retained. Our findings suggest the existence of a cellular selection mechanism for miRNA release and indicate that the extracellular and cellular miRNA profiles differ. This selective release of miRNAs is an important consideration for the identification of circulating miRNAs as biomarkers of disease. 相似文献
86.
D J Carty E Padrell J Codina L Birnbaumer J D Hildebrandt R Iyengar 《The Journal of biological chemistry》1990,265(11):6268-6273
The native pertussis toxin sensitive GTP-binding proteins (Gi proteins) were individually resolved, and their guanine nucleotide binding and release properties were studied. Gi2 and Gi3, the two major GTP-binding proteins of human erythrocytes, were purified to apparent homogeneity by fast protein liquid chromatography. Gi1 was purified from bovine brain. The three proteins bound 0.6-0.85 mol of guanosine 5'-O-(thio-triphosphate (GTP gamma S)/mol of protein with similar affinities (KD(app) = 50-100 nM). The rate of [35S]GTP gamma S binding to Gi2 was 5-8-fold faster than to Gi1 or Gi3 at 2 mm Mg2+. There were no observable differences in the binding characteristics between bovine brain Gi1 and human erythrocyte Gi3. At 50 mM Mg2+, all three Gi proteins exhibited fast binding, although Gi1 and Gi3 were marginally slower than Gi2. All three Gi proteins exhibited different rates of [32P]GDP release at 2 mM Mg2+. GDP release from Gi2 was severalfold faster than that from Gi1 or Gi3. GDP release rates from Gi1 and Gi3 were similar, although Gi3 was somewhat (60-80%) faster than Gi1. These data indicate that rates of GDP release and GTP binding may be independently regulated for these three proteins and that the relative proportions of Gi2/Gi1 or Gi2/Gi3 will be a crucial factor in determining the kinetics of signal transduction through Gi-coupled effectors. 相似文献
87.
H van der Wel R B Iyengar J van Brouwershaven P D van Wassenaar W J Bel F J van der Ouderaa 《European journal of biochemistry》1984,144(1):41-45
The disulphide linkages of the 16 half-cystine residues in the sweet-tasting protein thaumatin have been investigated by enzymatic hydrolysis of the intact molecule. The peptides obtained after proteolytic cleavage with trypsin and pepsin, and in one case with chymotrypsin have been purified by gel filtration, high-performance liquid chromatography and peptide mapping by paper high-voltage electrophoresis in one direction and paper chromatography in the second dimension. Disulphide bonds appeared to be formed by cysteine residues in positions 9-204, 56-66, 71-77, 121-193, 126-177, 134-149, 145-158 and 159-164. The labile disulphide bond responsible for the enzymatic properties of the sweet tasting protein thaumatin appeared to be between Cys-145 and Cys-158. 相似文献
88.
The G protein Gbetagamma subunit complex stimulates effectors by direct interactions utilizing extensive Gbeta regions over the surface of its propeller structure that faces the Galpha subunit. Our previous experiments have shown the resolved functions of signal transfer and general binding for Gbeta regions involved in stimulation of the effector phospholipase C-beta2, PLC-beta2, within the region Gbeta-(86-135), which comprises three beta strands arranged in a structurally contiguous fashion (Buck, E., Li, J., Chen, Y., Weng, G., Sacarlata, S., and Iyengar, R. (1999) Science 283, 1332-1335). This raises an important question as to why mutagenesis studies indicate that an extensive set of sites all over the Gbeta propeller structure and outside the 86-135 region are involved in Gbeta regulation of PLC-beta2. Using peptides to define functions of these Gbeta regions, we find that Gbeta signaling to PLC-beta2 relies on a collection of modular signal transfer and general binding units, each with lower apparent affinity relative to Gbetagamma-PLC interactions. Gbeta-(42-54) functions as a signal transfer region, Gbeta-(228-249) and Gbeta-(321-340) function in general binding, and Gbeta-(64-84) and Gbeta-(300-313) seem to play a structural role rather than a direct contact with the effector. A substitution within the Gbeta-(42-54) signal transfer region that increases the K(act) of this peptide for PLC-beta2 is accompanied by an increase in the observed maximal extent of signal transfer. We conclude that the lower K(act) for individual signal transfer regions may result in a decrease in the maximal effect of signal transfer. The spatial resolution of the signal transfer and general binding regions over a wide surface of Gbeta allow geometrical constraints to achieve specificity even with relatively low affinity interactions. 相似文献
89.
90.
Frozen sections of vitiliginous skin were treated with the substrates involved in melanogenesis and adrenergic activity to study the effect of changing chemical milieu on the biphasic dendritic melanocytes. The substrates used are tyrosine, DOPA, tyrosine + DOPA, dopamine, adrenalin and cupric ions. It was observed that tyrosine when used alone has a weak melanogenic reaction while DOPA and tyrosine + DOPA show a prominent activity. Adrenalin and dopamine inhibit the neural limb and enhance melanogenesis. Cupric ions on the other hand enhance the neural limb and inhibit melanogenesis. These changes are not evident in the non-dendritic melanocytes. Thus the highly dendritic melanocytes are at a lower state of differentiation. These biphasic cells are more sensitive to changes in the chemical milieu. 相似文献