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151.
Holliday junctions are central intermediates in site-specific recombination reactions mediated by tyrosine recombinases. Because these intermediates are extremely transient, only artificially assembled Holliday junctions have been available for study. We have recently identified hexapeptides that cause the accumulation of natural Holliday junctions of bacteriophage lambda Integrase (Int)-mediated reactions. We now show that one of these peptides acts after the first DNA cleavage event to stabilize protein-bound junctions and to prevent their resolution. The peptide acts before the step affected by site affinity (saf) mutations in the core region, in agreement with a model that the peptide stabilizes the products of strand exchange (i.e. Holliday junctions) while saf mutations reduce ligation of exchanged strands.Strand exchange events leading to Holliday junctions in phage lambda integration and excision are asymmetric, presumably because interactions between Int and some of its core-binding sites determine the order of strand cleavage. We have compared the structure of Holliday junctions in one unidirectional and in two bidirectional Int-mediated pathways and show that the strand cleavage steps are much more symmetric in the bidirectional pathways. Thus Int-DNA interactions which determine the order of top and bottom strand cleavage and exchange are unique in each recombination pathway. 相似文献
152.
The serine -lactamases present a special problem for phylogenetics because they have diverged so much that they fall into three classes that share no detectable sequence homology among themselves. Here we offer a solution to the problem in the form of two phylogenies that are based on a protein structure alignment. In the first, structural alignments were used as a guide for aligning amino acid sequences and in the second, the average root mean square distances between the alpha carbons of the proteins were used to create a pairwise distance matrix from which a neighbor-joining phylogeny was created. From those phylogenies, we show that the Class A and Class D -lactamases are sister taxa and that the divergence of the Class C -lactamases predated the divergence of the Class A and Class D -lactamases. 相似文献
153.
The degradation rates of acetylcholine receptors (AchRs) were evaluated at the neuromuscular junction during and just after reinnervation of denervated muscles. When mouse sternomastoid muscles are denervated by multiple nerve crush, reinnervation begins 2-4 days later and is complete by day 7-9 after the last crush. In fully innervated muscles, the AChR degradation rate is stable and slow (t1/2 approximately 10 days), whereas after denervation the newly inserted receptors degrade rapidly (t1/2 approximately 1.2 days). The composite profile of degradation, which a mixture of the stable and the rapid receptors would give, is not observed during reinnervation. Instead, the receptors inserted between 2.5 and 7.5 days after the last crush all have an intermediate degradation rate of t1/2 approximately 3.7 days with standard error +/- 0.3 days. The total receptor site density at the endplate was evaluated during denervation and during reinnervation. As predicted theoretically, the site density increased substantially, but temporarily, after denervation. An analogous deleterious substantial decrease in density would be expected during reinnervation, without the intermediate receptor. This decrease is not observed, however, because of a large insertion rate at intermediate times (3000 +/- 700 receptor complexes per micro m2 per day). The endplate density of receptors thus remains relatively constant. 相似文献
154.
Role of the asialoglycoprotein receptor in binding and entry of hepatitis C virus structural proteins in cultured human hepatocytes 总被引:6,自引:0,他引:6
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We used a baculovirus-based system to prepare structural proteins of hepatitis C virus (HCV) genotype 1a. Binding of this preparation to cultured human hepatic cells was both dose dependent and saturable. This binding was decreased by calcium depletion and was partially prevented by ligands of the asialoglycoprotein receptor (ASGP-R), thyroglobulin, asialothyroglobulin, and antibody against a peptide in the carbohydrate recognition domain of ASGP-R but not preimmune antibody. Uptake by hepatocytes was observed with both radiolabeled and dye-labeled HCV structural proteins. With hepatocytes expressing the hH1 subunit of the ASGP-R fused to green fluorescent protein, we could show by confocal microscopy that dye stain cointernalized with the fusion protein in an area surrounding the nucleus. Internalization was more efficient with a preparation containing p7 than with one that did not. The two preparations bound to transfected 3T3-L1 cells expressing either both (hH1 and hH2) subunits of the ASGP-R (3T3-22Z cells) or both hH1 and a functionally defective variant of hH2 (3T3-24X cells) but not to parental cells. Additionally, uptake of dye-labeled preparation containing p7 was observed with 3T3-22Z cells but not with 3T3-L1 or 3T3-24X cells or with the preparation lacking p7, suggesting that p7 regulates the internalization properties of HCV structural proteins. Our observations suggest that HCV structural proteins bind to and cointernalize with the ASGP-R in cultured human hepatocytes. 相似文献
155.
Structural analysis of an epidermal growth factor/transforming growth factor-alpha chimera with unique ErbB binding specificity 总被引:2,自引:0,他引:2
Wingens M Walma T van Ingen H Stortelers C van Leeuwen JE van Zoelen EJ Vuister GW 《The Journal of biological chemistry》2003,278(40):39114-39123
Various chimeras of the ErbB1-specific ligands epidermal growth factor (EGF) and transforming growth factor-alpha (TGFalpha) display an enlarged repertoire as activators of ErbB2.ErbB3 heterodimers. Mutational analysis indicated that particularly residues in the N terminus and B-loop region of these ligands are involved in the broadened receptor specificity. In order to understand the receptor specificity of T1E, a chimeric ligand constructed by the introduction of the linear N-terminal region of TGFalpha into EGF, we determined in this study the solution structure and dynamics of T1E by multidimensional NMR analysis. Subsequently, we studied the structural characteristics of T1E binding to both ErbB1 and ErbB3 by superposition modeling of its structure on the known crystal structures of ErbB3 and liganded ErbB1 complexes. The results show that the overall structure of T1E in solution is very similar to that of native EGF and TGFalpha but that its N terminus shows an extended structure that is appropriately positioned to form a triple beta-sheet with the large antiparallel beta-sheet in the B-loop region. This conformational effect of the N terminus together with the large overall flexibility of T1E, as determined by 15N NMR relaxation analysis, may be a facilitative property for its broad receptor specificity. The structural superposition models indicate that hydrophobic and electrostatic interactions of the N terminus and B-loop of T1E are particularly important for its binding to ErbB3. 相似文献
156.
157.
Differing spatial scales of signaling cascades are critical for cell orientation during chemotactic responses. We used biotin EGF bound to streptavidin-coupled magnetic beads to locally stimulate cells overexpressing the EGF receptor. We have found that EGF-induced actin polymerization remains localized even under conditions of receptor overexpression. Conversely, EGF-induced ERK activation spreads throughout the cell body after EGF bead stimulation. The localized actin polymerization is independent of PI3-kinase and rho protein activity and requires Arp2/3 complex and cofilin function. Thus, we find differing spatial scales of signaling from the EGF receptor, supporting models of chemotaxis that integrate short- and long-range signaling. 相似文献
158.
Lindstedt L Lee M Oörni K Brömme D Kovanen PT 《Biochemical and biophysical research communications》2003,312(4):1019-1024
In atherosclerosis, accumulation of cholesterol in macrophages may partially depend on its defective removal by high-density lipoproteins (HDL). We studied the proteolytic effect of cathepsins F, S, and K on HDL(3) and on lipid-free apoA-I, and its consequence on their function as inductors of cholesterol efflux from cholesterol-filled mouse peritoneal macrophages in vitro. Incubation of HDL(3) with cathepsin F or S, but not with cathepsin K, led to rapid loss of prebeta-HDL, and reduced cholesterol efflux by 50% in only 1min. Cathepsins F or K partially degraded lipid-free apoA-I and reduced its ability to induce cholesterol efflux, whereas cathepsin S totally degraded apoA-I, leading to complete loss of apoA-I cholesterol acceptor function. These results suggest that cathepsin-secreting cells induce rapid depletion of lipid-poor (prebeta-HDL) and lipid-free apoA-I and inhibit cellular cholesterol efflux, so tending to promote the formation and maintenance of foam cells in atherosclerotic lesions. 相似文献
159.
The TEM family of beta-lactamases has evolved to confer resistance to most of the beta-lactam antibiotics, but not to cefepime. To determine whether the TEM beta-lactamases have the potential to evolve cefepime resistance, we evolved the ancestral TEM allele, TEM-1, in vitro and selected for cefepime resistance. After four rounds of mutagenesis and selection for increased cefepime resistance each of eight independent populations reached a level equivalent to clinical resistance. All eight evolved alleles increased the level of cefepime resistance by a factor of at least 32, and the best allele improved by a factor of 512. Sequencing showed that alleles contained from two to six amino acid substitutions, many of which were shared among alleles, and that the best allele contained only three substitutions. 相似文献
160.
Mutations at residues 282, 286, and 293 of phage lambda integrase exert pathway-specific effects on synapsis and catalysis in recombination
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Bankhead TM Etzel BJ Wolven F Bordenave S Boldt JL Larsen TA Segall AM 《Journal of bacteriology》2003,185(8):2653-2666
Bacteriophage lambda integrase (Int) catalyzes site-specific recombination between pairs of attachment (att) sites. The att sites contain weak Int-binding sites called core-type sites that are separated by a 7-bp overlap region, where cleavage and strand exchange occur. We have characterized a number of mutant Int proteins with substitutions at positions S282 (S282A, S282F, and S282T), S286 (S286A, S286L, and S286T), and R293 (R293E, R293K, and R293Q). We investigated the core- and arm-binding properties and cooperativity of the mutant proteins, their ability to catalyze cleavage, and their ability to form and resolve Holliday junctions. Our kinetic analyses have identified synapsis as the rate-limiting step in excisive recombination. The IntS282 and IntS286 mutants show defects in synapsis in the bent-L and excisive pathways, respectively, while the IntR293 mutants exhibit synapsis defects in both the excision and bent-L pathways. The results of our study support earlier findings that the catalytic domain also serves a role in binding to core-type sites, that the core contacts made by this domain are important for both synapsis and catalysis, and that Int contacts core-type sites differently among the four recombination pathways. We speculate that these residues are important for the proper positioning of the catalytic residues involved in the recombination reaction and that their positions differ in the distinct nucleoprotein architectures formed during each pathway. Finally, we found that not all catalytic events in excision follow synapsis: the attL site probably undergoes several rounds of cleavage and ligation before it synapses and exchanges DNA with attR. 相似文献