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991.
992.
The maltose transport complex of Escherichia coli, a member of the ATP-binding cassette superfamily, mediates the high affinity uptake of maltose at the expense of ATP. The membrane-associated transporter consists of two transmembrane subunits, MalF and MalG, and two copies of the cytoplasmic ATP-binding cassette subunit, MalK. Maltose-binding protein (MBP), a soluble periplasmic protein, delivers maltose to the MalFGK(2) transporter and stimulates hydrolysis by the transporter. Site-directed spin labeling electron paramagnetic resonance spectroscopy is used to monitor binding of MBP to MalFGK(2) and conformational changes in MBP as it interacts with MalFGK(2). Cysteine residues and spin labels have been introduced into the two lobes of MBP so that spin-spin interaction will report on ligand-induced closure of the protein (Hall, J. A., Thorgeirsson, T. E., Liu, J., Shin, Y. K., and Nikaido, H. (1997) J. Biol. Chem. 272, 17610-17614). At least two different modes of interaction between MBP and MalFGK(2) were detected. Binding of MBP to MalFGK(2) in the absence of ATP resulted in a decrease in motion of spin label at position 41 in the C-terminal domain of MBP. In a vanadate-trapped transition state intermediate, all free MBP became tightly bound to MalFGK(2), spin label in both lobes became completely immobilized, and spin-spin interactions were lost, suggesting that MBP was in an open conformation. Binding of non-hydrolyzable MgATP analogs or ATP in the absence of Mg is sufficient to stabilize a complex of open MBP and MalFGK(2). Taken together, these data suggest that closure of the MalK dimer interface coincides with opening of MBP and maltose release to the transporter.  相似文献   
993.
Previous studies implicate protein-tyrosine phosphatase 1B (PTP1B) and leukocyte antigen-related phosphatase (LAR) as negative regulators of insulin signaling. The expression and/or activity of PTP1B and LAR are increased in muscle of insulin-resistant rodents and humans. Overexpression of LAR selectively in muscle of transgenic mice causes whole body insulin resistance. To determine whether overexpression of PTP1B also causes insulin resistance, we generated transgenic mice overexpressing human PTP1B selectively in muscle at levels similar to those observed in insulin-resistant humans. Insulin-stimulated insulin receptor (IR) tyrosyl phosphorylation and phosphatidylinositol 3'-kinase activity were impaired by 35% and 40-60% in muscle of PTP1B-overexpressing mice compared with controls. Insulin stimulation of protein kinase C (PKC)lambda/zeta activity, which is required for glucose transport, was impaired in muscle of PTP1B-overexpressing mice compared with controls, showing that PTP1B overexpression impairs activation of these PKC isoforms. Furthermore, hyperinsulinemic-euglycemic clamp studies revealed that whole body glucose disposal and muscle glucose uptake were decreased by 40-50% in PTP1B-overexpressing mice. Overexpression of PTP1B or LAR alone in muscle caused similar impairments in insulin action; however, compound overexpression achieved by crossing PTP1B- and LAR-overexpressing mice was not additive. Antibodies against specific IR phosphotyrosines indicated overlapping sites of action of PTP1B and LAR. Thus, overexpression of PTP1B in vivo impairs insulin sensitivity, suggesting that overexpression of PTP1B in muscle of obese humans and rodents may contribute to their insulin resistance. Lack of additive impairment of insulin signaling by PTP1B and LAR suggests that these PTPs have overlapping actions in causing insulin resistance in vivo.  相似文献   
994.
During the transition from anoxygenic to oxygenic photosynthesis, the Type 2 reaction center underwent many changes, none so dramatic as the remarkable increase in complexity at the protein level, from only three or four subunits in the anoxygenic reaction center to possibly more than 25 in Photosystem 2 (PS2). The evolutionary source of most of these proteins is enigmatic, as they have no apparent homology to any other proteins in existing databases. However, some of the proteins in PS2 have apparent homologies to each other, suggesting ancient gene duplications have played an important role in the development of the complex. These homologies include the well-known examples of the D1 and D2 reaction center core proteins and the CP43 and CP47 core antenna proteins. In addition, PsbE and PsbF, the two subunits comprising cytochrome b-559, show homology to each other, suggesting that a homodimeric cytochrome preceded the heterodimeric one. Other potential homologies that appear to be statistically significant include PsbV with the N-terminal part of D1 and PsbT with PsbI. Most of the proteins that make up the photosynthetic apparatus bear no relation to any other proteins from any source. This suggests that a period of remarkable evolutionary innovation took place when the ability to make oxygen was invented. This was probably a response to the production of highly toxic oxygen and these new proteins served to protect and repair the photosynthetic apparatus from the harmful effects of oxygen.  相似文献   
995.
Liu Y  Liu Z  Androphy E  Chen J  Baleja JD 《Biochemistry》2004,43(23):7421-7431
The E6 protein from HPV type 16 binds proteins containing a seven-residue leucine-containing motif. Previous work demonstrated that peptides containing the consensus sequence are a mixture of alpha-helix and unstructured conformations. To design monomeric E6-binding peptides that are stable in aqueous solution, we used a protein grafting approach where the critical residues of the E6-binding motif of E6-associated protein, E6AP, LQELLGE, were incorporated into exposed helices of two stably folded peptide scaffolds. One series was built using the third zinc finger of the Sp1 protein, which contains a C-terminal helix. A second series was built using a Trp-cage scaffold, which contains an N-terminal helix. The chimeric peptides had very different activities in out-competing the E6-E6AP interaction. We characterized the peptides by circular dichroism spectroscopy and determined high-resolution structures by NMR methods. The E6-binding consensus motif was found to be helical in the high-quality structures, which had backbone root-mean-square deviations of less than 0.4 A. We have successfully grafted the E6-binding motif into two parent peptides to create ligands that have biological activity while preserving the stable, native fold of their scaffolds. The data also indicate that conformational change is common in E6-binding proteins during the formation of the complex with the viral E6 protein.  相似文献   
996.
The membrane interactions and position of a positively charged and highly aromatic peptide derived from a secretory carrier membrane protein (SCAMP) are examined using magnetic resonance spectroscopy and several biochemical methods. This peptide (SCAMP-E) is shown to bind to membranes containing phosphatidylinositol 4,5-bisphosphate, PI(4,5)P2, and sequester PI(4,5)P2 within the plane of the membrane. Site-directed spin labeling of the SCAMP-E peptide indicates that the position and structure of membrane bound SCAMP-E are not altered by the presence of PI(4,5)P2, and that the peptide backbone is positioned within the lipid interface below the level of the lipid phosphates. A second approach using high-resolution NMR was used to generate a model for SCAMP-E bound to bicelles. This approach combined oxygen enhancements of nuclear relaxation with a computational method to dock the SCAMP-E peptide at the lipid interface. The model for SCAMP generated by NMR is consistent with the results of site-directed spin labeling and places the peptide backbone in the bilayer interfacial region and the aromatic side chains within the lipid hydrocarbon region. The charged side chains of SCAMP-E lie well within the interface with two arginine residues lying deeper than a plane defined by the position of the lipid phosphates. These data suggest that SCAMP-E interacts with PI(4,5)P2 through an electrostatic mechanism that does not involve specific lipid-peptide contacts. This interaction may be facilitated by the position of the positively charged side chains on SCAMP-E within a low-dielectric region of the bilayer interface.  相似文献   
997.
McTigue PM  Peterson RJ  Kahn JD 《Biochemistry》2004,43(18):5388-5405
The design of modified nucleic acid probes, primers, and therapeutics is improved by considering their thermodynamics. Locked nucleic acid (LNA) is one of the most useful modified backbones, with incorporation of a single LNA providing a substantial increase in duplex stability. In this work, the hybridization DeltaH(o), DeltaS(o), and melting temperature (T(M)) were measured from absorbance melting curves for 100 duplex oligonucleotides with single internal LNA nucleotides on one strand, and the results provided DeltaDeltaH(o), DeltaDeltaS(o), DeltaDelta, and DeltaT(M) relative to reference DNA oligonucleotides. LNA pyrimidines contribute more stability than purines, especially A(L), but there is substantial context dependence for each LNA base. Both the 5' and 3' neighbors must be considered in predicting the effect of an LNA incorporation, with purine neighbors providing more stability. Enthalpy-entropy compensation in DeltaDeltaH(o) and DeltaDeltaS(o) is observed across the set of sequences, suggesting that LNA can stabilize the duplex by either preorganization or improved stacking, but not both simultaneously. Singular value decomposition analysis provides predictive sequence-dependent rules for hybridization of singly LNA-substituted DNA oligonucleotides to their all-DNA complements. The results are provided as sets of DeltaDeltaH(o), DeltaDeltaS(o), and DeltaDelta parameters for all 32 of the possible nearest neighbors for LNA+DNA:DNA hybridization (5' MX(L) and 5' X(L)N, where M, N, and X = A, C, G, or T and X(L) represents LNA). The parameters are applicable within the standard thermodynamic prediction algorithms. They provide T(M) estimates accurate to within 2 degrees C for LNA-containing oligonucleotides, which is significantly better accuracy than previously available.  相似文献   
998.
Dihydrofolate reductase (DHFR) has several flexible active site loops that facilitate ligand binding and catalysis. Previous studies of backbone dynamics in several complexes of DHFR indicate that the time scale and amplitude of motion depend on the conformation of the active site loops. In this study, information on dynamics is extended to methyl-containing side chains. To understand the role of side chain dynamics in ligand binding and loop conformation, methyl deuterium relaxation rates of Escherichia coli DHFR in binary folate and ternary folate:NADP+ complexes have been measured, together with chi(1) rotamer populations for threonine, isoleucine, and valine residues, determined from measurements of 3J(CgammaCO) and 3J(CgammaN) coupling constants. The results indicate that, in addition to backbone motional restriction in the adenosine-binding site, side chain flexibility in the active site and the surrounding active site loops is diminished upon binding NADP+. Resonances for several methyls in the active site and the surrounding active site loops were severely broadened in the folate:NADP+ ternary complex, suggesting the presence of motion on the chemical shift time scale. The side chains of Ile14 and Ile94, which pack against the nicotinamide and pterin rings of the cofactor and substrate, respectively, exhibit rotamer disorder in the ternary folate:NADP+ complex. Conformational fluctuations of these side chains may play a role in transition state stabilization; the observed line broadening for Ile14 suggests motions on a microsecond/millisecond time scale.  相似文献   
999.
1000.
Synthesis of active Klebsiella aerogenes urease requires four accessory proteins to generate, in a GTP-dependent process, a dinuclear nickel active site with the metal ions bridged by a carbamylated lysine residue. The UreD and UreF accessory proteins form stable complexes with urease apoprotein, comprised of UreA, UreB, and UreC. The sites of protein-protein interactions were explored by using homobifunctional amino group-specific chemical cross-linkers with reactive residues being identified by matrix-assisted laser desorption-ionization time-of-flight mass spectrometry (MALDI-TOF MS) of tryptic peptides. On the basis of studies of the UreABCD complex, UreD is capable of cross-linking with UreB Lys(9), UreB Lys(76), and UreC Lys(401). Furthermore UreD appears to be positioned over UreC Lys(515) according to decreased reactivity of this residue compared with its reactivity in UreD-free apoprotein. Several UreB-UreC and UreC-UreC cross-links also were observed within this complex; e.g. UreB Lys(76) with the UreC amino terminus, UreB Lys(9) with UreC Lys(20), and UreC Lys(515) with UreC Lys(89). These interactions are consistent with the proximate surface locations of these residues observed in the UreABC crystal structure. MALDI-TOF MS analyses of UreABCDF are consistent with a cross-link between the UreF amino terminus and UreB Lys(76). On the basis of an unexpected cross-link between UreB Lys(76) and UreC Lys(382) (distant from each other in the UreABC structure) along with increased side chain reactivities for UreC Lys(515) and Lys(522), UreF is proposed to induce a conformational change within urease that repositions UreB and potentially could increase the accessibility of nickel ions and CO(2) to residues that form the active site.  相似文献   
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