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101.
M Kunimoto Y Ito K Obara 《Comparative biochemistry and physiology. A, Comparative physiology》1986,84(3):545-551
Single smooth muscle cells were isolated from guinea-pig taenia caeci by digestion with collagenase. The 45Ca desaturation curve from isolated cells, which were previously washed with Ca2+-free solution containing EGTA in Ca2+-free modified Locke solution, consisted of three components (half-time: 1.0, 3.8 and 12.4 min). The 45Ca efflux from isolated cells in the third component was significantly increased by caffeine. This increase was suppressed by procaine, but was not affected by La3+. These results suggest that, in guinea-pig taenia caeci, there are at least four Ca2+ compartments: superficial low and high affinity bound Ca2+ and cellular low and high affinity bound Ca2+. Caffeine releases Ca2+ from the cellular high affinity binding sites. 相似文献
102.
Aleshin AE DiScipio RG Stec B Liddington RC 《The Journal of biological chemistry》2012,287(23):19642-19652
The complement membrane attack complex (MAC) forms transmembrane pores in pathogen membranes. The first step in MAC assembly is cleavage of C5 to generate metastable C5b, which forms a stable complex with C6, termed C5b-6. C5b-6 initiates pore formation via the sequential recruitment of homologous proteins: C7, C8, and 12–18 copies of C9, each of which comprises a central MAC-perforin domain flanked by auxiliary domains. We recently proposed a model of pore assembly, in which the auxiliary domains play key roles, both in stabilizing the closed conformation of the protomers and in driving the sequential opening of the MAC-perforin β-sheet of each new recruit to the growing pore. Here, we describe an atomic model of C5b-6 at 4.2 Å resolution. We show that C5b provides four interfaces for the auxiliary domains of C6. The largest interface is created by the insertion of an interdomain linker from C6 into a hydrophobic groove created by a major reorganization of the α-helical domain of C5b. In combination with the rigid body docking of N-terminal elements of both proteins, C5b becomes locked into a stable conformation. Both C6 auxiliary domains flanking the linker pack tightly against C5b. The net effect is to induce the clockwise rigid body rotation of four auxiliary domains, as well as the opening/twisting of the central β-sheet of C6, in the directions predicted by our model to activate or prime C6 for the subsequent steps in MAC assembly. The complex also suggests novel small molecule strategies for modulating pathological MAC assembly. 相似文献
103.
Jiongjia Cheng Rebecca Goldstein Boguslaw Stec Anne Gershenson Mary F. Roberts 《The Journal of biological chemistry》2012,287(48):40317-40327
Staphylococcus aureus phosphatidylinositol-specific phospholipase C (PI-PLC) is a secreted virulence factor for this pathogenic bacterium. A novel crystal structure shows that this PI-PLC can form a dimer via helix B, a structural feature present in all secreted, bacterial PI-PLCs that is important for membrane binding. Despite the small size of this interface, it is critical for optimal enzyme activity. Kinetic evidence, increased enzyme specific activity with increasing enzyme concentration, supports a mechanism where the PI-PLC dimerization is enhanced in membranes containing phosphatidylcholine (PC). Mutagenesis of key residues confirm that the zwitterionic phospholipid acts not by specific binding to the protein, but rather by reducing anionic lipid interactions with a cationic pocket on the surface of the S. aureus enzyme that stabilizes monomeric protein. Despite its structural and sequence similarity to PI-PLCs from other Gram-positive pathogenic bacteria, S. aureus PI-PLC appears to have a unique mechanism where enzyme activity is modulated by competition between binding of soluble anions or anionic lipids to the cationic sensor and transient dimerization on the membrane. 相似文献
104.
Aleshin AE Schraufstatter IU Stec B Bankston LA Liddington RC DiScipio RG 《The Journal of biological chemistry》2012,287(13):10210-10222
The complement membrane attack complex (MAC) is formed by the sequential assembly of C5b with four homologous proteins as follows: one copy each of C6, C7, and C8 and 12-14 copies of C9. Together these form a lytic pore in bacterial membranes. C6 through C9 comprise a MAC-perforin domain flanked by 4-9 "auxiliary" domains. Here, we report the crystal structure of C6, the first and longest of the pore proteins to be recruited by C5b. Comparisons with the structures of the C8αβγ heterodimer and perforin show that the central domain of C6 adopts a "closed" (perforin-like) state that is distinct from the "open" conformations in C8. We further show that C6, C8α, and C8β contain three homologous subdomains ("upper," "lower," and "regulatory") related by rotations about two hinge points. In C6, the regulatory segment includes four auxiliary domains that stabilize the closed conformation, inhibiting release of membrane-inserting elements. In C8β, rotation of the regulatory segment is linked to an opening of the central β-sheet of its clockwise partner, C8α. Based on these observations, we propose a model for initiation and unidirectional propagation of the MAC in which the auxiliary domains play key roles: in the assembly of the C5b-8 initiation complex; in driving and regulating the opening of the β-sheet of the MAC-performin domain of each new recruit as it adds to the growing pore; and in stabilizing the final pore. Our model of the assembled pore resembles those of the cholesterol-dependent cytolysins but is distinct from that recently proposed for perforin. 相似文献
105.
Baculoviruses-- re-emerging biopesticides 总被引:15,自引:0,他引:15
Szewczyk B Hoyos-Carvajal L Paluszek M Skrzecz I Lobo de Souza M 《Biotechnology advances》2006,24(2):143-160
Biological control of agricultural pests has gained importance in recent years due to increased pressure to reduce the use of agrochemicals and their residues in the environment and food. Viruses of a few families are known to infect insects but only those belonging to the highly specialized family Baculoviridae have been used as biopesticides. They are safe to people and wildlife, their specificity is very narrow. Their application as bioinsecticides was limited until recently because of their slow killing action and technical difficulties for in vitro commercial production. Two approaches for the wider application of baculoviruses as biopesticides will be implemented in future. In countries where use of genetically modified organisms is restricted, the improvements will be mainly at the level of diagnostics, in vitro production and changes in biopesticide formulations. In the second approach, the killing activity of baculoviruses may be augmented by genetic modifications of the baculovirus genome with genes of another natural pathogen. It is expected that the baculoviruses improved by genetic modifications will be gradually introduced in countries which have fewer concerns towards genetically modified organisms. 相似文献
106.
107.
Danuta M. Gillner David L. Bienvenue Boguslaw P. Nocek Andrzej Joachimiak Vincentos Zachary Brian Bennett Richard C. Holz 《Journal of biological inorganic chemistry》2009,14(1):1-10
The catalytic and structural properties of the H67A and H349A dapE-encoded N-succinyl-l,l-diaminopimelic acid desuccinylase (DapE) from Haemophilus influenzae were investigated. On the basis of sequence alignment with the carboxypeptidase from Pseudomonas sp. strain RS-16, both H67 and H349 were predicted to be Zn(II) ligands. The H67A DapE enzyme exhibited a decreased catalytic efficiency (180-fold) compared with wild-type (WT) DapE towards N-succinyldiaminopimelic acid. No catalytic activity was observed for H349A under the experimental conditions used. The electronic paramagnetic resonance (EPR) and electronic absorption data indicate that the Co(II) ion bound to H349A-DapE is analogous to that of WT DapE after the addition of a single Co(II) ion. The addition of 1 equiv of Co(II) to H67A DapE provides spectra that are very different from those of the first Co(II) binding site of the WT enzyme, but that are similar to those of the second binding site. The EPR and electronic absorption data, in conjunction with the kinetic data, are consistent with the assignment of H67 and H349 as active-site metal ligands for the DapE from H. influenzae. Furthermore, the data suggest that H67 is a ligand in the first metal binding site, while H349 resides in the second metal binding site. A three-dimensional homology structure of the DapE from H. influenzae was generated using the X-ray crystal structure of the DapE from Neisseria meningitidis as a template and superimposed on the structure of the aminopeptidase from Aeromonas proteolytica (AAP). This homology structure confirms the assignment of H67 and H349 as active-site ligands. The superimposition of the homology model of DapE with the dizinc(II) structure of AAP indicates that within 4.0 Å of the Zn(II) binding sites of AAP all of the amino acid residues of DapE are nearly identical. 相似文献
108.
Iain Anderson Luke E. Ulrich Boguslaw Lupa Dwi Susanti Iris Porat Sean D. Hooper Athanasios Lykidis Magdalena Sieprawska-Lupa Lakshmi Dharmarajan Eugene Goltsman Alla Lapidus Elizabeth Saunders Cliff Han Miriam Land Susan Lucas Biswarup Mukhopadhyay William B. Whitman Carl Woese James Bristow Nikos Kyrpides 《PloS one》2009,4(6)
Background
Methanomicrobiales is the least studied order of methanogens. While these organisms appear to be more closely related to the Methanosarcinales in ribosomal-based phylogenetic analyses, they are metabolically more similar to Class I methanogens.Methodology/Principal Findings
In order to improve our understanding of this lineage, we have completely sequenced the genomes of two members of this order, Methanocorpusculum labreanum Z and Methanoculleus marisnigri JR1, and compared them with the genome of a third, Methanospirillum hungatei JF-1. Similar to Class I methanogens, Methanomicrobiales use a partial reductive citric acid cycle for 2-oxoglutarate biosynthesis, and they have the Eha energy-converting hydrogenase. In common with Methanosarcinales, Methanomicrobiales possess the Ech hydrogenase and at least some of them may couple formylmethanofuran formation and heterodisulfide reduction to transmembrane ion gradients. Uniquely, M. labreanum and M. hungatei contain hydrogenases similar to the Pyrococcus furiosus Mbh hydrogenase, and all three Methanomicrobiales have anti-sigma factor and anti-anti-sigma factor regulatory proteins not found in other methanogens. Phylogenetic analysis based on seven core proteins of methanogenesis and cofactor biosynthesis places the Methanomicrobiales equidistant from Class I methanogens and Methanosarcinales.Conclusions/Significance
Our results indicate that Methanomicrobiales, rather than being similar to Class I methanogens or Methanomicrobiales, share some features of both and have some unique properties. We find that there are three distinct classes of methanogens: the Class I methanogens, the Methanomicrobiales (Class II), and the Methanosarcinales (Class III). 相似文献109.
Thionins, ubiquitous plant toxins, are believed to act by lysing the membrane of pathogenic organisms. Several competing mechanisms
were proposed for the lysis of phospholipid membranes by the toxins. In order to study in more detail the proposed mechanisms
and possibly resolve among the competing proposals, the interactions of purothionins with a model lipid membrane in the form
of a monolayer were studied. The monolayer formed at the air-water interface was studied by synchrotron X-ray reflectivity
and grazing incidents diffraction methods. The model membrane was composed of 90:10 mol% DPPC:DPPS (dipylmitoyl phosphatidylcholine:dipylmitoyl
phosphatidylserine). The protein interaction with the monolayer disturbs the in-plane and out-of-plane order of phospholipids,
increases the amount of the liquid phase of the monolayer, and increases the average surface area per alkyl chain. The results
indicate that the protein is bound only transiently, and after ~4 h most of the properties of the monolayer are reminiscent
of the pure DPPC monolayer suggesting partial withdrawal of DPPS. Obtained electron density distributions perpendicular to
the membrane interface do not show any significant contribution from the adsorbed proteins, further supporting the withdrawal
hypothesis. 相似文献