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41.
Interactions of cationic-hydrophobic peptides with lipid bilayers: a Monte Carlo simulation method 下载免费PDF全文
We present a computational model of the interaction between hydrophobic cations, such as the antimicrobial peptide, Magainin2, and membranes that include anionic lipids. The peptide's amino acids were represented as two interaction sites: one corresponds to the backbone alpha-carbon and the other to the side chain. The membrane was represented as a hydrophobic profile, and its anionic nature was represented by a surface of smeared charges. Thus, the Coulombic interactions between the peptide and the membrane were calculated using the Gouy-Chapman theory that describes the electrostatic potential in the aqueous phase near the membrane. Peptide conformations and locations near the membrane, and changes in the membrane width, were sampled at random, using the Metropolis criterion, taking into account the underlying energetics. Simulations of the interactions of heptalysine and the hydrophobic-cationic peptide, Magainin2, with acidic membranes were used to calibrate the model. The calibrated model reproduced structural data and the membrane-association free energies that were measured also for other basic and hydrophobic-cationic peptides. Interestingly, amphipathic peptides, such as Magainin2, were found to adopt two main membrane-associated states. In the first, the peptide resided mostly outside the polar headgroups region. In the second, which was energetically more favorable, the peptide assumed an amphipathic-helix conformation, where its hydrophobic face was immersed in the hydrocarbon region of the membrane and the charged residues were in contact with the surface of smeared charges. This dual behavior provides a molecular interpretation of the available experimental data. 相似文献
42.
Krichevsky A Kozlovsky SV Tian GW Chen MH Zaltsman A Citovsky V 《Developmental biology》2007,303(2):405-420
Sexual reproduction of flowering plants depends on delivery of the sperm to the egg, which occurs through a long, polarized projection of a pollen cell, called the pollen tube. The pollen tube grows exclusively at its tip, and this growth is distinguished by very fast rates and reaches extended lengths. Thus, one of the most fascinating aspects of pollen biology is the question of how enough cell wall material is produced to accommodate such rapid extension of pollen tube, and how the cell wall deposition and structure are regulated to allow for rapid changes in the direction of growth. This review discusses recent advances in our understanding of the mechanism of pollen tube growth, focusing on such basic cellular processes as control of cell shape and growth by a network of cell wall-modifying enzymes, molecular motor-mediated vesicular transport, and intracellular signaling by localized gradients of second messengers. 相似文献
43.
Zipper interacting protein kinase (ZIPK, also known as death-associated protein kinase 3 [DAPK3]) is a Ser/Thr kinase that functions in programmed cell death. Since its identification eight years ago, contradictory findings regarding its intracellular localization and molecular mode of action have been reported, which may be attributed to unpredicted differences among the human and rodent orthologs. By aligning the sequences of all available ZIPK orthologs, from fish to human, we discovered that rat and mouse sequences are more diverged from the human ortholog relative to other, more distant, vertebrates. To test experimentally the outcome of this sequence divergence, we compared rat ZIPK to human ZIPK in the same cellular settings. We found that while ectopically expressed human ZIPK localized to the cytoplasm and induced membrane blebbing, rat ZIPK localized exclusively within nuclei, mainly to promyelocytic leukemia oncogenic bodies, and induced significantly lower levels of membrane blebbing. Among the unique murine (rat and mouse) sequence features, we found that a highly conserved phosphorylation site, previously shown to have an effect on the cellular localization of human ZIPK, is absent in murines but not in earlier diverging organisms. Recreating this phosphorylation site in rat ZIPK led to a significant reduction in its promyelocytic leukemia oncogenic body localization, yet did not confer full cytoplasmic localization. Additionally, we found that while rat ZIPK interacts with PAR-4 (also known as PAWR) very efficiently, human ZIPK fails to do so. This interaction has clear functional implications, as coexpression of PAR-4 with rat ZIPK caused nuclear to cytoplasm translocation and induced strong membrane blebbing, thus providing the murine protein a possible adaptive mechanism to compensate for its sequence divergence. We have also cloned zebrafish ZIPK and found that, like the human and unlike the murine orthologs, it localizes to the cytoplasm, and fails to bind the highly conserved PAR-4 protein. This further supports the hypothesis that murine ZIPK underwent specific divergence from a conserved consensus. In conclusion, we present a case of species-specific divergence occurring in a specific branch of the evolutionary tree, accompanied by the acquisition of a unique protein–protein interaction that enables conservation of cellular function. 相似文献
44.
DNA methylation in health, disease, and cancer 总被引:5,自引:0,他引:5
The spatial arrangement and three-dimensional structure of DNA in the nucleus is controlled through the interdigitation of DNA binding proteins such as histones and their modifiers, the Polycomb-Trithorax proteins, and the DNA methyltransferase enzymes. DNA methylation forms the foundation of chromatin and is crucial to epigenetic gene regulation in mammals. Disease pathogenesis mediated through infectious agents, inflammation, aging, or genetic damage often involves changes in gene expression. In particular, cellular transformation coincides with multiple changes in chromatin architecture, many of which appear to affect genome integrity and gene expression. Infectious agents, such as viruses directly affect genome structure and induce methylation of particular sequences to suppress host immune responses. Hyperproliferative tissues such as those in the gastrointestinal tract and colon have been shown to gradually acquire aberrant promoter hypermethylation. Here we review recent findings on altered DNA methylation in human disease, with particular focus on cancer and the increasingly large number of genes subject to tumor-specific promoter hypermethylation and the possible role of aberrant methylation in tumor development. 相似文献
45.
46.
Adi Yahalom Geula Davidov Sofiya Kolusheva Hadassa Shaked Shiran Barber-Zucker Raz Zarivach Jordan H. Chill 《生物化学与生物物理学报:生物膜》2019,1861(12):183054
BteA, a 69-kDa cytotoxic protein, is a type III secretion system (T3SS) effector in the classical Bordetella, the etiological agents of pertussis and related mammalian respiratory diseases. Like other cytotoxicity-mediating effectors, BteA uses its multifunctional N-terminal domain to target phosphatidylinositol (PI)-rich microdomains in the host membrane. Despite their structural similarity, T3SS effectors exhibit a variable range of membrane interaction modes, and currently only limited structural information is available for the BteA membrane-targeting domain and the molecular mechanisms underlying its function. Employing a synergistic combination of structural methods, here we determine the structure of this functional domain and uncover key molecular determinants mediating its interaction with membranes. Residues 29–121 of BteA form an elongated four-helix bundle packed against two shorter perpendicular helices, the second of which caps the domain in a critical ‘tip motif’. A flexible region preceding the BteA helical bundle contains the characteristic β-motif required for binding its cognate chaperone BtcA. We show that BteA targets PI(4,5)P2-containing lipoprotein nanodiscs and binds a soluble PI(4,5)P2 analog via an extensive positively charged surface spanning its first two helices, and that this interaction is weaker for PI(3,5)P2 and abolished for PI(4)P. We confirmed this model of membrane-targeting by observation of BteA-induced changes in the structure of PI(4,5)P2-containing phospholipid bilayers using small-angle X-ray scattering (SAXS). We also extended these results to a larger BteA domain (residues 1–287), confirming its interaction with bilayers using calorimetry, fluorescence and SAXS methods. This novel view of the structural underpinnings of membrane targeting by BteA is an important step towards a comprehensive understanding of cytotoxicity in Bordetella, as well as interactions of a broad range of pathogens with their respective hosts. 相似文献
47.
Kathleen M. Gorman Esther Meyer Detelina Grozeva Egidio Spinelli Amy McTague Alba Sanchis-Juan Keren J. Carss Emily Bryant Adi Reich Amy L. Schneider Ronit M. Pressler Michael A. Simpson Geoff D. Debelle Evangeline Wassmer Jenny Morton Diana Sieciechowicz Eric Jan-Kamsteeg Alex R. Paciorkowski Manju A. Kurian 《American journal of human genetics》2019,104(5):948-956
48.
Photosynthesis Research - The acclimation of cyanobacterial photosynthetic apparatus to iron deficiency is crucial for their performance under limiting conditions. In many cyanobacterial species,... 相似文献
49.
A simple approximate solution for the mass action kinetics of small particles (viruses or vesicles) binding to large particles (cells) and their subsequent fusion has been derived. The solution is evaluated in terms of the measurable fluorescence changes expected when the virus or vesicles are labeled with fluorescent probes, which are diluted into the cellular membrane by fusion. Comparison with numerical integrations shows that the approximate solution is extremely accurate. Analytic simplifications for a variety of special cases of this general problem are also shown. 相似文献
50.
A kinetic model for loading of proto-tRNA is presented. The kinetic parameters were first estimated from the results of Francklyn & Schimmel (1989;Nature337, 478--481), who studied the aminoacylation of both tRNA and its minihelix. Then these parameters were reduced several-fold, as is more appropriate for the prebiotic world. The simulations revealed a very slow time course of the loading reaction. We also consider a possibility for the proto-tRNA loading without a catalyst and discuss the feasibility of such processes. Analytical approximations are presented for the kinetics of proto-tRNA loading with and without enzyme. An estimate is given for the time required for the development of template- and sequence-directed systems. 相似文献