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31.
Imai Y Moralez A Andag U Clarke JB Busby WH Clemmons DR 《The Journal of biological chemistry》2000,275(24):18188-18194
Insulin-like growth factor-binding protein-3 and -5 (IGFBP-3 and -5) have been shown to bind insulin-like growth factor-I and -II (IGF-I and -II) with high affinity. Previous studies have proposed that the N-terminal region of IGFBP-5 contains a hydrophobic patch between residues 49 and 74 that is required for high affinity binding. These studies were undertaken to determine if mutagenesis of several of these residues resulted in a reduction of the affinity of IGFBP-3 and -5 for IGF-I. Substitutions for residues 68, 69, 70, 73, and 74 in IGFBP-5 (changing one charged residue, Lys(68), to a neutral one and the four hydrophobic residues to nonhydrophobic residues) resulted in an approximately 1000-fold reduction in the affinity of IGFBP-5 for IGF-I. Substitutions for homologous residues in IGFBP-3 also resulted in a >1000-fold reduction in affinity. The physiologic consequence of this reduction was that IGFBP-3 and -5 became very weak inhibitors of IGF-I-stimulated cell migration and DNA synthesis. Likewise, the ability of IGFBP-5 to inhibit IGF-I-stimulated receptor phosphorylation was attenuated. These changes did not appear to be because of alterations in protein folding induced by mutagenesis, because the IGFBP-5 mutant was fully susceptible to proteolytic cleavage by a specific IGFBP-5 protease. In summary, residues 68, 69, 70, 73, and 74 in IGFBP-5 appear to be critical for high affinity binding to IGF-I. Homologous residues in IGFBP-3 are also required, suggesting that they form a similar binding pocket and that for both proteins these residues form an important component of the core binding site. The availability of these mutants will make it possible to determine if there are direct, non-IGF-I-dependent effects of IGFBP-3 and -5 on cellular physiologic processes in cell types that secrete IGF-I. 相似文献
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The facial 2-His-1-carboxylate (Asp/Glu) motif has emerged as the structural paradigm for metal binding in the alpha-ketoglutarate (alpha-KG)-dependent nonheme iron oxygenases. Clavaminate synthase (CS2) is an unusual member of this enzyme family that mediates three different, nonsequential reactions during the biosynthesis of the beta-lactamase inhibitor clavulanic acid. In this study, covalent modification of CS2 by the affinity label N-bromoacetyl-L-arginine near His297, which is within the HRV signature of a His-2 motif, suggested this histidine could play a role in metal coordination. However, site-specific mutagenesis of eight His residues to Gln identified His145 and His280, but not His297, as involved in iron binding. Weak homology of His145 and its flanking sequence and the presence of Glu147 fitting the canonical acidic residue of the His-Xaa-Asp/Glu signature are consistent with His145 being a coordinating ligand (His-1). His280 and its flanking sequence, which give poor alignments to most other members of this enzyme family, are similar among a subset of these enzymes and notably to CarC, an apparent oxygenase involved in carbapenem biosynthesis. The separation of His145 and His280 is more than twice that seen in the current 2-His-1-carboxylate model and may define an alternative iron binding motif, which we propose as His-3. These ligand assignments, based on kinetic measurements of both oxidative cyclization/desaturation and hydroxylation assays, establish that no histidine ligand switching occurs during the catalytic cycle. These results are confirmed in a recent X-ray crystal structure of CS1, a highly similar isozyme of CS2 (81% identical). Tyr299, Tyr300 in CS2 modified by N-bromoacetyl-L-arginine, is hydrogen bonded to Glu146 (Glu147 in CS2) in this structure and well-positioned for reaction with the affinity label. 相似文献
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JF Yuan SJ Zhang O Jafer RA Furlong OE Chausiaux CA Sargent GH Zhang NA Affara 《BMC microbiology》2009,9(1):246
Background
Pseudorabies virus (PRV) is an alphaherpesviruses whose native host is pig. PRV infection mainly causes signs of central nervous system disorder in young pigs, and respiratory system diseases in the adult. 相似文献37.
We have worked out a system to obtain mutations that map in the promoter region of the Escherichia coli galactose operon. In order to easily detect small changes in gal promoter activity, we constructed a plasmid containing an operon fusion in which the lactose operon structural genes were controlled by the galactose operon promoter region. In cells harbouring this plasmid, even modest variations in the expression of the lac genes could be detected on MacConkey lactose indicator plates.Enrichment for mutations that map in the promoter segment of the galactose operon was achieved by mutagenesis in vitro of a small fragment of DNA covering the promoter region. After insertion of the mutagenized gal promoter fragment into the gal-lac fusion plasmid, lac?1 cells were transformed and screened for an altered Lac+ phenotype on indicator plates. Several mutants were isolated due to lesions mapping in the small fragment covering the galactose promoter. In these mutants, the level of β-galactosidase was between 15 and 50% of the wild-type level.The mutant promoters were subsequently reinserted into a plasmid containing the intact galactose operon. Cells harbouring such plasmids, reconstituted with mutant galactose promoters, contained decreased levels of galactokinase that paralleled the decreases in β-galactosidase. The biochemical properties of these mutants are reported in the accompanying paper (Busby et al., 1982). 相似文献
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Busby B Willis CD Ackermann MA Kontrogianni-Konstantopoulos A Bloch RJ 《Biochemistry》2010,49(46):9948-9956
Obscurin A, an ~720 kDa modular protein of striated muscles, binds to small ankyrin 1 (sAnk1, Ank 1.5), an integral protein of the sarcoplasmic reticulum, through two distinct carboxy-terminal sequences, Obsc(6316-6436) and Obsc(6236-6260). We hypothesized that these sequences differ in affinity but that they compete for the same binding site on sAnk1. We show that the sequence within Obsc(6316-6436) that binds to sAnk1 is limited to residues 6316-6345. Comparison of Obsc(6231-6260) to Obsc(6316-6345) reveals that Obsc(6316-6345) binds sAnk1 with an affinity (133 ± 43 nM) comparable to that of the Obsc(6316-6436) fusion protein, whereas Obsc(6231-6260) binds with lower affinity (384 ± 53 nM). Oligopeptides of each sequence compete for binding with both sites at half-maximal inhibitory concentrations consistent with the affinities measured directly. Five of six site-directed mutants of sAnk1 showed similar reductions in binding to each binding site on obscurin, suggesting that they dock to many of the same residues of sAnk1. Circular dichroism (CD) analysis of the synthetic oligopeptides revealed a 2-fold greater α-helical content in Obsc(6316-6346), ~35%, than Obsc(6231-6260,) ~17%. Using these data, structural prediction algorithms, and homology modeling, we predict that Obsc(6316-6345) contains a bent α-helix of 12 amino acids, flanked by short disordered regions, and that Obsc(6231-6260) has a short, N-terminal α-helix of 4-5 residues followed by a long disordered region. Our results are consistent with a model in which both sequences of obscurin differ significantly in structure but bind to the ankyrin-like repeat motifs of sAnk1 in a similar though not identical manner. 相似文献
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