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排序方式: 共有224条查询结果,搜索用时 78 毫秒
1.
Andreas Barth 《BBA》2007,1767(9):1073-1101
This review discusses the application of infrared spectroscopy to the study of proteins. The focus is on the mid-infrared spectral region and the study of protein reactions by reaction-induced infrared difference spectroscopy. 相似文献
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Summary Antimonate staining procedures and energy dispersive X-ray microanalytical techniques were used to determine the patterns of localization of calcium in nonstimulated and gravistimulated corn roots. In horizontally positioned roots within the region of the developing bend there was a change in the staining from that principally localized within cells of the stele to asymmetric staining within the vacuoles of the cortical cells along the upper root surface. There was little staining in the walls. The pattern observed is quite different from that seen in gravistimulated coleoptiles. Staining of mitochondria, plastids and Golgi stacks was seen in most cell types, but no asymmetry of staining was observed. In the rootcap where graviperception is thought to occur, there was little staining of any cellular organelles. 相似文献
3.
(+)-CC -1065 is biologically potent DNA-reactive antitumor antibiotic produced by Streptomyces zelensis. This antibiotic covalently modifies DNA by alkylation of N-3 of a adenine in the minor groove. As a Structural consequence of covalent modification of DNA, the helix axis id bent into the minor groove. The drug-induced bending of DNA has similarities to intrinsic. A-tract bending and the 3′ adenine of A-tracts shows a unique reactivity to alkylation by (+) -CC-1065. Upon covalent modification of A-tracts, the magnitude of bending is increased and helix is stiffened. Using high-field NMR, hydroxyl-radical footprinting and gel electrophoresis, the molecular basis for the high reactivity of the bonding sequence 5′ - AGTTA* (an asterisk indicates the covalent modification site) to (+)-CC-1065 has been shown to involve the inherent conformational flexibility of this sequence. Furthermore, these studies also demonstrate that after alkylation the drug-induced bending is focused over the TT region. By analogy with the junction bend model for A-tracts, a ‘truncated junction bend model’ is proposed for this structure. Last, the application of (+)-CC-1065 entrapped/induced bending of DNA as a probe for the Sp1-induced bending of the 21-base-pair repeat an Mu transpose bending of the att L3 sequence is described. 相似文献
4.
Projection of Monte Carlo and molecular dynamics trajectories onto the normal mode axes: human lysozyme 总被引:3,自引:0,他引:3
A method is presented to describe the internal motions of proteins obtained from molecular dynamics or Monte Carlo simulations as motions of normal mode variables. This method calculates normal mode variables by projecting trajectories of these simulations onto the axes of normal modes and expresses the trajectories as a linear combination of normal mode variables. This method is applied to the result of the molecular dynamics and the Monte Carlo simulations of human lysozyme. The motion of the lowest frequency mode extracted from the simulations represents the hinge bending motion very faithfully. Analysis of the obtained motions of the normal mode variables provides an explanation of the anharmonic aspects of protein dynamics as due first to the anharmonicity of the actual potential energy surface near a minimum and second to trans-minimum conformational changes. 相似文献
5.
Calmodulin (CAM) is a modulatory protein that regulates cellular activity by binding to a large number of proteins. Key elements in the Ca2+-dependent mechanism of interaction between CAM and the proteins it activates are the selectivity for Ca2+ ions and the requirement for Ca2+-dependent conformational changes. We report on results from a series of molecular dynamics simulations that identified discrete steps in the mechanism of structural rearrangement of CAM. The findings implicate the side chains of arginine residues in the bending of the central alpha helix. Structural and energetic considerations point to a dynamic hydrogen bonding pattern around the arginine residues as a ratcheting-type mechanism, causing the kinking of the central helix in consecutive steps stabilized by each new pattern of hydrogen bonds. Initial model building studies to locate potential binding sites of ligands such as trifluoperazine (TFP) indicate that the compaction of CAM results in several structural changes, that explain the selective binding of molecules such as TFP in the N-terminal domain. The present studies identify specific residues involved in the process of compaction and point to specific CAM residues involved in the binding of the ligand. These insights lead directly to propositions for experimental engineering of the molecular structure of CAM in order to probe the hypotheses and their consequences for the function of this important protein. 相似文献
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Chronic coccidian infestation compromises flight feather quality in house sparrows Passer domesticus
Péter L. Pap Csongor I. Vágási Lőrinc Bărbos Attila Marton 《Biological journal of the Linnean Society. Linnean Society of London》2013,108(2):414-428
Parasites usurp indispensable resources for birds during a moult, and this is particularly relevant for those parasites residing in host intestines. This might compromise the nutritionally demanding moult and, thus, feather functionality. Although lower feather quality has profound and multifaceted adverse effects on residual fitness, surprisingly, little is known about parasites' effect on feather traits, especially over the longer term. We conducted an aviary experiment by medicating half of a group of naturally infested house sparrows Passer domesticus against intestinal coccidians for 15 months, spanning two consecutive postnuptial moults, whereas the other half was kept infested (i.e. without medication). Coccidian infestation significantly and negatively affected the size of the uropygial gland during the second moulting period compared to the medicated group. Furthermore, wing length was significantly shorter after the second moulting in the non‐medicated compared to the medicated female birds, which indicates that the negative effects of coccidians emerge only after a prolonged exposure to parasite infestation. Non‐medicated birds grew poorer quality flight feathers detected in a large number of feather traits both after the first and second moults. In the case of non‐medicated birds, the primaries were lighter and shorter, and had a smaller vane area, thinner rachis and decreased stiffness, although a higher barb and barbule density, which may have various consequences for fitness through reducing flight performance. Our findings demonstrate that, besides the well‐known immediate consequences for host breeding success, parasites might also have serious, long‐lasting effects through influencing feather quality and, ultimately, fitness of the host. © 2013 The Linnean Society of London 相似文献
9.
Z. K. J. Kok 《Molecular simulation》2016,42(15):1274-1280
Various mechanical properties of single-walled carbon nanotubes (SWCNT) and double-walled carbon nanotubes (DWCNT) are evaluated using molecular dynamics (MD) simulations. A tensioning process was first performed on a SWCNT whose interaction is based on the Brenner’s ‘second generation’ potential under varying length–diameter ratios and strain rates, in order to understand the SWCNT’s behaviour under axial tension. The results showed an increase in the SWCNT’s ultimate tensile strength and a decrease in critical strain given the conditions of increasing strain rate and a decreasing length–diameter ratio. Comparison was done with previous studies on axial tensioning of SWCNT to validate the results obtained from the set-up, based on the general stress–strain relationship and key mechanical properties such as the strain at failure and the Young’s modulus. A DWCNT was then constructed, and Lennard-Jones ‘12-6’ potential was used to describe the energy present between the nanotube layers. Extraction of the inner tube in a DWCNT was performed using two inner wall tubings of different diameters to draw comparison to the energies needed to separate fully the outer and inner tubing. Finally, a bending test was performed on two DWCNTs with different intertube separations. Insights into the entire bending process were obtained through analyses of the variations in the strain energy characteristic of the surface atoms near the bending site, as the DWCNT is gradually bent until failure. 相似文献
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