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71.
Solvent effects on the conformational transition of a model polyalanine peptide 总被引:4,自引:0,他引:4
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Nguyen HD Marchut AJ Hall CK 《Protein science : a publication of the Protein Society》2004,13(11):2909-2924
We have investigated the folding of polyalanine by combining discontinuous molecular dynamics simulation with our newly developed off-lattice intermediate-resolution protein model. The thermodynamics of a system containing a single Ac-KA(14)K-NH(2) molecule has been explored by using the replica exchange simulation method to map out the conformational transitions as a function of temperature. We have also explored the influence of solvent type on the folding process by varying the relative strength of the side-chain's hydrophobic interactions and backbone hydrogen bonding interactions. The peptide in our simulations tends to mimic real polyalanine in that it can exist in three distinct structural states: alpha-helix, beta-structures (including beta-hairpin and beta-sheet-like structures), and random coil, depending upon the solvent conditions. At low values of the hydrophobic interaction strength between nonpolar side-chains, the polyalanine peptide undergoes a relatively sharp transition between an alpha-helical conformation at low temperatures and a random-coil conformation at high temperatures. As the hydrophobic interaction strength increases, this transition shifts to higher temperatures. Increasing the hydrophobic interaction strength even further induces a second transition to a beta-hairpin, resulting in an alpha-helical conformation at low temperatures, a beta-hairpin at intermediate temperatures, and a random coil at high temperatures. At very high values of the hydrophobic interaction strength, polyalanines become beta-hairpins and beta-sheet-like structures at low temperatures and random coils at high temperatures. This study of the folding of a single polyalanine-based peptide sets the stage for a study of polyalanine aggregation in a forthcoming paper. 相似文献
72.
Backbone dynamics of the human MIA protein studied by (15)N NMR relaxation: implications for extended interactions of SH3 domains 总被引:1,自引:0,他引:1
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Stoll R Renner C Buettner R Voelter W Bosserhoff AK Holak TA 《Protein science : a publication of the Protein Society》2003,12(3):510-519
The melanoma inhibitory activity (MIA) protein is a clinically valuable marker in patients with malignant melanoma as enhanced values diagnose metastatic melanoma stages III and IV. Here, we report the backbone dynamics of human MIA studied by (15)N NMR relaxation experiments. The folded core of human MIA is found to be rigid, but several loops connecting beta-sheets, such as the RT-loop for example, display increased mobility on picosecond to nanosecond time scales. One of the most important dynamic features is the pronounced flexibility of the distal loop, comprising residues Asp 68 to Ala 75, where motions on time scales up to milliseconds occur. Further, significant exchange contributions are observed for residues of the canonical binding site of SH3 domains including the RT-loop, the n-Src loop, for the loop comprising residues 13 to 19, which we refer to as the"disulfide loop", in part for the distal loop, and the carboxyl terminus of human MIA. The functional importance of this dynamic behavior is discussed with respect to the biological activity of several point mutations of human MIA. The results of this study suggest that the MIA protein and the recently identified highly homologous fibrocyte-derived protein (FDP)/MIA-like (MIAL) constitute a new family of secreted proteins that adopt an SH3 domain-like fold in solution with expanded ligand interactions. 相似文献
73.
Contribution of the dimeric state to the thermal stability of the flavoprotein D-amino acid oxidase
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Pollegioni L Iametti S Fessas D Caldinelli L Piubelli L Barbiroli A Pilone MS Bonomi F 《Protein science : a publication of the Protein Society》2003,12(5):1018-1029
The flavoenzyme DAAO from Rhodotorula gracilis, a structural paradigm of the glutathione-reductase family of flavoproteins, is a stable homodimer with a flavin adenine dinucleotide (FAD) molecule tightly bound to each 40-kD subunit. In this work, the thermal unfolding of dimeric DAAO was compared with that of two monomeric forms of the same protein: a Deltaloop mutant, in which 14 residues belonging to a loop connecting strands betaF5-betaF6 have been deleted, and a monomer obtained by treating the native holoenzyme with 0.5 M NH(4)SCN. Thiocyanate specifically and reversibly affects monomer association in wild-type DAAO by acting on hydrophobic residues and on ionic pairs between the betaF5-betaF6 loop of one monomer and the alphaI3' and alphaI3" helices of the symmetry-related monomer. By using circular dichroism spectroscopy, protein and flavin fluorescence, activity assays, and DSC, we demonstrated that thermal unfolding involves (in order of increasing temperatures) loss of tertiary structure, followed by loss of some elements of secondary structure, and by general unfolding of the protein structure that was concomitant to FAD release. Temperature stability of wild-type DAAO is related to the presence of a dimeric structure that affects the stability of independent structural domains. The monomeric Deltaloop mutant is thermodynamically less stable than dimeric wild-type DAAO (with melting temperatures (T(m)s) of 48 degrees C and 54 degrees C, respectively). The absence of complications ensuing from association equilibria in the mutant Deltaloop DAAO allowed identification of two energetic domains: a low-temperature energetic domain related to unfolding of tertiary structure, and a high-temperature energetic domain related to loss of secondary structure elements and to flavin release. 相似文献
74.
Standard methods of characterization of electron paramagnetic resonance (EPR) spectra of spin-labeled biomembranes limit the resolution of lateral heterogeneity to only two or three domain types. This disables examination of the structure—function relationship in complex membranes, which might be composed of a larger number of different domain types. To enable exploration of this kind, a new approach based on analysis of EPR spectra with multi-run, hybrid evolutionary optimization is proposed here. From the multiple runs a quasi-continuous distribution of membrane spectral parameters (order parameter, proportion of spectral component, polarity correction factor, rotational correlation time and broadening constant) can be constructed and presented by a new presentation technique CODE (colored distribution of EPR spectral parameters). Through this the concept of a soft picture of membrane heterogeneity is introduced, in contrast to the standard discrete domain picture. The soft characterization method, established on synthetic spectra, was used to examine the lateral heterogeneity of liposome membranes as well as of membranes of neutrophils from healthy and asthmatic horses. In liposome membranes the determined number of domain types was the same as already established by standard procedures of EPR spectra line-shape interpretation. In membranes of neutrophils a quasi-continuous distribution of membrane domain properties was detected by the new method. 相似文献
75.
A high-resolution multidimensional NMR study of ligand-binding to Escherichia coli malate synthase G (MSG), a 723-residue monomeric enzyme (81.4 kDa), is presented. MSG catalyzes the condensation of glyoxylate with an acetyl group of acetyl-CoA, producing malate, an intermediate in the citric-acid cycle. We show that despite the size of the protein, important structural and dynamic information about the molecule can be obtained on a per-residue basis. 15N-1HN residual dipolar couplings and carbonyl chemical shift changes upon alignment in Pf1 phage establish that there are no significant domain reorientations in the molecule upon ligand binding, in contrast to what was anticipated on the basis of both the X-ray structure of the glyoxylate-bound form of the enzyme and structural studies of a related set of proteins. The chemical shift changes of 1HN, 15N and 13CO nuclei upon binding of pyruvate, a glyoxylate-mimicking inhibitor, and acetyl-CoA have been mapped onto the three-dimensional structure of the molecule. Binding constants of pyruvate, glyoxylate, and acetyl-CoA (in the presence of pyruvate) have been measured, along with the kinetic parameters for glyoxylate and pyruvate binding. The on-rates of pyruvate and glyoxalate binding, approximately 1.2 x 10(6)M(-1)s(-1) and approximately 2.7 x 10(6)M(-1)s(-1), respectively, are significantly lower than what is anticipated from a simple diffusion-controlled process. Some structural implications of the chemical shift perturbations upon binding and the estimated ligand on-rates are discussed. 相似文献
76.
Barroso G Sirand-Pugnet P Mouhamadou B Labarère J 《Journal of molecular evolution》2003,57(4):383-396
The complete sequences and secondary structures of the mitochondrial small subunit (SSU) ribosomal RNAs of both mostly cultivated mushrooms Agaricus bisporus (1930 nt) and Lentinula edodes (2164 nt) were achieved. These secondary structures and that of Schizophyllum commune (1872 nt) were compared to that previously established for Agrocybe aegerita. The four structures are near the model established for Archae, Bacteria, plastids, and mitochondria; particularly the helices 23 and 37, described as specific to bacteria, are present. Within the four Agaricales (Homobasidiomycota), the SSU-rRNA core is conserved in size (966 to 1009 nt) with the exception of an unusual extension of 40 nt in the H17 helix of S. commune. The four core sequences possess 76% of conserved positions and a cluster of C in their 3 end, which could constitute a signal involved in the RNA maturation process. Among the nine putative variable domains, three (V3, V5, V7) do not show significant length variations and possess similar percentages of conserved positions (69%) than the core. The other six variable domains show important length variations, due to independent large size inserted/deleted sequences, and higher rates of nucleotide substitutions than the core (only 31% of conserved positions between the four species). Interestingly, the inserted/deleted sequences are located in few preferential sites (hot spots for insertion/deletion) where they seem to arise or disappear haphazardly during evolution. These sites are located on the surface of the tertiary structure of the 30S ribosomal subunit, at the beginning of hairpin loops; the insertions lead to a lengthening of existing hairpins or to branching loops bearing up to five additional helices. 相似文献
77.
An auxiliary beta2 subunit, when coexpressed with Slo alpha subunits, produces inactivation of the resulting large-conductance, Ca(2+) and voltage-dependent K(+) (BK-type) channels. Inactivation is mediated by the cytosolic NH(2) terminus of the beta2 subunit. To understand the structural requirements for inactivation, we have done a mutational analysis of the role of the NH(2) terminus in the inactivation process. The beta2 NH(2) terminus contains 46 residues thought to be cytosolic to the first transmembrane segment (TM1). Here, we address two issues. First, we define the key segment of residues that mediates inactivation. Second, we examine the role of the linker between the inactivation segment and TM1. The results show that the critical determinant for inactivation is an initial segment of three amino acids (residues 2-4: FIW) after the initiation methionine. Deletions that scan positions from residue 5 through residue 36 alter inactivation, but do not abolish it. In contrast, deletion of FIW or combinations of point mutations within the FIW triplet abolish inactivation. Mutational analysis of the three initial residues argues that inactivation does not result from a well-defined structure formed by this epitope. Inactivation may be better explained by linear entry of the NH(2)-terminal peptide segment into the permeation pathway with residue hydrophobicity and size influencing the onset and recovery from inactivation. Examination of the ability of artificial, polymeric linkers to support inactivation suggests that a variety of amino acid sequences can serve as adequate linkers as long as they contain a minimum of 12 residues between the first transmembrane segment and the FIW triplet. Thus, neither a specific distribution of charge on the linker nor a specific structure in the linker is required to support the inactivation process. 相似文献
78.
The Drosophila brain is generated by a complex series of morphogenetic movements. To better understand brain development and to provide a guide for experimental manipulation of brain progenitors, we created a fate map using photoactivated gene expression to mark cells originating within specific mitotic domains and time-lapse microscopy to dynamically monitor their progeny. We show that mitotic domains 1, 5, and 9 give rise to discrete cell populations within specific regions of the brain. Two novel observations were that the antennal sensory system, composed of four disparate cell clusters, arose from mitotic domain 5 and that mitotic domain B produced glial cells, while neurons were produced from mitotic domains 1, 5, and 9. Time-lapse analysis of marked cells showed complex mitotic and migratory patterns for cells derived from these mitotic domains. Photoactivated gene expression was also used either to kill, to induce ectopic divisions, or to alter cell fate. This revealed that deficits were not repopulated, while ectopic cells were removed and extra glia were tolerated. 相似文献
79.
Over the past years, modification by covalent attachment of SUMO (small ubiquitin-like modifier) has been demonstrated for of a number of cellular and viral proteins. While increasing evidence suggests a role for SUMO modification in the regulation of protein-protein interactions and/or subcellular localization, most SUMO targets are still at large. In this report we show that Topors, a Topoisomerase I and p53 interacting protein of hitherto unknown function, presents a novel cellular target for SUMO-1 modification. In a yeast two-hybrid system, Topors interacted with both SUMO-1 and the SUMO-1 conjugating enzyme UBC9. Multiple SUMO-1 modified forms of Topors could be detected after cotransfection of exogenous SUMO-1 and Topors induced the colocalization of a YFP tagged SUMO-1 protein in a speckled pattern in the nucleus. A subset of these Topors' nuclear speckles were closely associated with the PML nuclear bodies (POD, ND10). A central domain comprising Topors residues 437 to 574 was sufficient for both sumolation and localization to nuclear speckles. One SUMO-1 acceptor site at lysine residue 560 could be identified within this region. However, sumolation-deficient Topors mutants showed that sumolation obviously is not required for localization to nuclear speckles. 相似文献
80.
Effect of pH and salt bridges on structural assembly: molecular structures of the monomer and intertwined dimer of the Eps8 SH3 domain
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Kishan KV Newcomer ME Rhodes TH Guilliot SD 《Protein science : a publication of the Protein Society》2001,10(5):1046-1055
The SH3 domain of Eps8 was previously found to form an intertwined, domain-swapped dimer. We report here a monomeric structure of the EPS8 SH3 domain obtained from crystals grown at low pH, as well as an improved domain-swapped dimer structure at 1.8 A resolution. In the domain-swapped dimer the asymmetric unit contains two "hybrid-monomers." In the low pH form there are two independently folded SH3 molecules per asymmetric unit. The formation of intermolecular salt bridges is thought to be the reason for the formation of the dimer. On the basis of the monomer SH3 structure, it is argued that Eps8 SH3 should, in principle, bind to peptides containing a PxxP motif. Recently it was reported that Eps8 SH3 binds to a peptide with a PxxDY motif. Because the "SH3 fold" is conserved, alternate binding sites may be possible for the PxxDY motif to bind. The strand exchange or domain swap occurs at the n-src loops because the n-src loops are flexible. The thermal b-factors also indicate the flexible nature of n-src loops and a possible handle for domain swap initiation. Despite the loop swapping, the typical SH3 fold in both forms is conserved structurally. The interface of the acidic form of SH3 is stabilized by a tetragonal network of water molecules above hydrophobic residues. The intertwined dimer interface is stabilized by hydrophobic and aromatic stacking interactions in the core and by hydrophilic interactions on the surface. 相似文献