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排序方式: 共有270条查询结果,搜索用时 62 毫秒
51.
Barbara Nesta Maria Valeri Angela Spagnuolo Roberto Rosini Marirosa Mora Paolo Donato Christopher J. Alteri Mariangela Del Vecchio Scilla Buccato Alfredo Pezzicoli Isabella Bertoldi Lapo Buzzigoli Giovanna Tuscano Maria Falduto Valentina Rippa Yaqoub Ashhab Giuliano Bensi Maria Rita Fontana Kate L. Seib Harry L. T. Mobley Mariagrazia Pizza Marco Soriani Laura Serino 《PLoS pathogens》2014,10(5)
SslE, the Secreted and surface-associated lipoprotein from Escherichia coli, has recently been associated to the M60-like extracellular zinc-metalloprotease sub-family which is implicated in glycan recognition and processing. SslE can be divided into two main variants and we recently proposed it as a potential vaccine candidate. By applying a number of in vitro bioassays and comparing wild type, knockout mutant and complemented strains, we have now demonstrated that SslE specifically contributes to degradation of mucin substrates, typically present in the intestine and bladder. Mutation of the zinc metallopeptidase motif of SslE dramatically impaired E. coli mucinase activity, confirming the specificity of the phenotype observed. Moreover, antibodies raised against variant I SslE, cloned from strain IHE3034 (SslEIHE3034), are able to inhibit translocation of E. coli strains expressing different variants through a mucin-based matrix, suggesting that SslE induces cross-reactive functional antibodies that affect the metallopeptidase activity. To test this hypothesis, we used well-established animal models and demonstrated that immunization with SslEIHE3034 significantly reduced gut, kidney and spleen colonization by strains producing variant II SslE and belonging to different pathotypes. Taken together, these data strongly support the importance of SslE in E. coli colonization of mucosal surfaces and reinforce the use of this antigen as a component of a broadly protective vaccine against pathogenic E. coli species. 相似文献
52.
Evgenii Kliuchnikov Artem Zhmurov Kenneth A. Marx Alex Mogilner Valeri Barsegov 《PLoS computational biology》2022,18(6)
We introduce a Stochastic Reaction-Diffusion-Dynamics Model (SRDDM) for simulations of cellular mechanochemical processes with high spatial and temporal resolution. The SRDDM is mapped into the CellDynaMo package, which couples the spatially inhomogeneous reaction-diffusion master equation to account for biochemical reactions and molecular transport within the Langevin Dynamics (LD) framework to describe dynamic mechanical processes. This computational infrastructure allows the simulation of hours of molecular machine dynamics in reasonable wall-clock time. We apply SRDDM to test performance of the Search-and-Capture of mitotic spindle assembly by simulating, in three spatial dimensions, dynamic instability of elastic microtubules anchored in two centrosomes, movement and deformations of geometrically realistic centromeres with flexible kinetochores and chromosome arms. Furthermore, the SRDDM describes the mechanics and kinetics of Ndc80 linkers mediating transient attachments of microtubules to the chromosomal kinetochores. The rates of these attachments and detachments depend upon phosphorylation states of the Ndc80 linkers, which are regulated in the model by explicitly accounting for the reactions of Aurora A and B kinase enzymes undergoing restricted diffusion. We find that there is an optimal rate of microtubule-kinetochore detachments which maximizes the accuracy of the chromosome connections, that adding chromosome arms to kinetochores improve the accuracy by slowing down chromosome movements, that Aurora A and kinetochore deformations have a small positive effect on the attachment accuracy, and that thermal fluctuations of the microtubules increase the rates of kinetochore capture and also improve the accuracy of spindle assembly. 相似文献
53.
Valeri B. Kozhemyako Galina N. Veremeichik Yuri N. Shkryl Svetlana N. Kovalchuk Vladimir B. Krasokhin Valeri A. Rasskazov Yuri N. Zhuravlev Victor P. Bulgakov Yuri N. Kulchin 《Marine biotechnology (New York, N.Y.)》2010,12(4):403-409
Silicatein genes are known to be involved in siliceous spicule formation in marine sponges. Proteins encoded by these genes,
silicateins, were recently proposed for nanobiotechnological applications. We studied silicatein genes of marine sponges Latrunculia oparinae collected in the west Pacific region, shelf of Kuril Islands. Five silicatein genes, LoSilA1, LoSilA1a, LoSilA2, and LoSilA3 (silicatein-α group), LoSilB (silicatein-β group), and one cathepsin gene, LoCath, were isolated from the sponge L. oparinae for the first time. The deduced amino acid sequence of L. oparinae silicateins showed high-sequence identity with silicateins described previously. LoCath contains the catalytic triad of amino acid residues Cys-His-Asn characteristic for cathepsins as well as motifs typical for
silicateins. A phylogenetic analysis places LoCath between sponge silicateins-β and L-cathepsins suggesting that the LoCath gene represents an intermediate form between silicatein and cathepsin genes. Additionally, we identified, for the first time,
silicatein genes (AcSilA and AcSilB) in nonspicule-forming marine sponge, Acаnthodendrilla sp. The results suggest that silicateins could participate also in the function(s) unrelated to spiculogenesis. 相似文献
54.
Svetlana N. Kovalchuk Irina Yu. Bakunina Viktor I. Emelyanenko Konstantin V. Guzev Valeri A. Rasskazov 《Carbohydrate research》2009,344(2):191-252
An endo-(1→3)-β-d-glucanase (L0) with molecular mass of 37 kDa was purified to homogeneity from the crystalline style of the scallop Chlamys albidus. The endo-(1→3)-β-d-glucanase was extremely thermolabile with a half-life of 10 min at 37 °C. L0 hydrolyzed laminaran with Km ∼ 0.75 mg/mL, and catalyzed effectively transglycosylation reactions with laminaran as donor and p-nitrophenyl β d-glucoside as acceptor (Km ∼ 2 mg/mL for laminaran) and laminaran as donor and as acceptor (Km ∼ 5 mg/mL) yielding p-nitrophenyl β d-glucooligosaccharides (n = 2-6) and high-molecular branching (1→3),(1→6)-β-d-glucans, respectively. Efficiency of hydrolysis and transglycosylation processes depended on the substrate structure and decreased appreciably with the increase of the percentage of β-(1→6)-glycosidic bonds, and laminaran with 10% of β-(1→6)-glycosidic bonds was the optimal substrate for both reactions. The CD spectrum of L0 was characteristic for a protein with prevailing β secondary-structural elements. Binding L0 with d-glucose as the best acceptor for transglycosylation was investigated by the methods of intrinsic tryptophan fluorescence and CD. Glucose in concentration sufficient to saturate the enzyme binding sites resulted in a red shift in the maximum of fluorescence emission of 1-1.5 nm and quenching the Trp fluorescence up to 50%. An apparent association constant of L0 with glucose (Ka = 7.4 × 105 ± 1.1 × 105 M−1) and stoichiometry (n = 13.3 ± 0.7) was calculated. The cDNA encoding L0 was sequenced, and the enzyme was classified in glycoside hydrolases family 16 on the basis of the amino acid sequence similarity. 相似文献
55.
56.
Granulocytes were isolated from whole blood of guinea pigs by counterflow centrifugation and labeled with [14C]diisopropylfluorophosphate ([14C]DFP). One-half of the labeled cells was injected intravenously via the femoral vein into a guinea pig, while the other half was cryogenically preserved with 5% dimethyl sulfoxide (DMSO), 6% hydroxyethyl starch (HES), and 4% human albumin, at a rate of 4 °C per minute by storage at ?80 °C and then stored for 3 days at ?80 °C. Ninety percent of the isolated granulocytes were recovered after cryogenic preservation, thawing, and washing. Aliquots before injection all produced fluorescein from fluorescein diacetate and excluded ethidium bromide. Latex ingestion was 78% and yeast ingestion was 75%. The frozen-thawed-washed-resuspended labeled granulocytes were injected into a second guinea pig. Paired animals sacrificed 35 min after injection were examined in whole-body sections for distribution of radiolabeled granulocytes to the tissues. In two pairs of animals, activity was found in the lung, liver, spleen, and kidney. The technique does not permit a distinction between fresh and cryopreserved granulocytes although there was a greater deposition of fresh cells in the liver and spleen. No activity was found in the blood of the vena cava in animals with either fresh or frozen cells. An animal injected with free [14C]DFP revealed a vascular distribution with high activity in blood, lung, and kidney, and less activity in the liver and spleen. The data indicate that radiolabeled, cryogenically preserved guinea pig granulocytes exhibited a tissue distribution qualitatively similar to fresh granulocytes, and free [14C]DFP infused without granulocytes differed qualitatively and quantitatively from fresh and cryopreserved granulocytes. 相似文献
57.
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59.
Valeri P. Shcherbakov M. Winklhofer Marianne Hanzlik Nikolai Petersen 《European biophysics journal : EBJ》1997,26(4):319-326
Electron micrographs of magnetotactic bacteria reveal that chains of magnetosomes are often bent. This is surprising inasmuch
as straight chains are actually the most favourable arrangement for magnetonavigation achieving the maximum value of the bacterial
net magnetic moment. In order to answer the question of what causes the chains to bend, we calculated the stability limit
of straight magnetosome chains by taking into account elastic and magnetic forces. For several scenarios, the threshold values
of external forces leading to elastic instability were computed. From our calculations and observations on freeze-dried cells,
we conclude that, under normal conditions, magnetosome chains are straight or only slightly bent, whereas shrinkage during
preparation may cause severe artifacts such as kinks or zig-zag structures in the chains.
Received: 10 February 1997 / Accepted: 9 April 1997 相似文献
60.