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排序方式: 共有175条查询结果,搜索用时 15 毫秒
71.
Ihalainen JA D'Haene S Yeremenko N van Roon H Arteni AA Boekema EJ van Grondelle R Matthijs HC Dekker JP 《Biochemistry》2005,44(32):10846-10853
In many natural habitats, growth of cyanobacteria may be limited by a low concentration of iron. Cyanobacteria respond to this condition by expressing a number of iron-stress-inducible genes, of which the isiA gene encodes a chlorophyll-binding protein known as IsiA or CP43'. IsiA monomers assemble into ring-shaped polymers that encircle trimeric or monomeric photosystem I (PSI), or are present in supercomplexes without PSI, in particular upon prolonged iron starvation. In this report, we present steady-state and time-resolved fluorescence measurements of isolated IsiA aggregates that have been purified from an iron-starved psaFJ-minus mutant of Synechocystis PCC 6803. We show that these aggregates have a fluorescence quantum yield of approximately 2% compared to that of chlorophyll a in acetone, and that the dominating fluorescence lifetimes are 66 and 210 ps, more than 1 order of magnitude shorter than that of free chlorophyll a. Comparison of the temperature dependence of the fluorescence yields and spectra of the isolated aggregates and of the cells from which they were obtained suggests that these aggregates occur naturally in the iron-starved cells. We suggest that IsiA aggregates protect cyanobacterial cells against the deleterious effects of light. 相似文献
72.
Dynamic cell surface hydrophobicity of Lactobacillus strains with and without surface layer proteins
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Vadillo-Rodríguez V Busscher HJ Norde W de Vries J van der Mei HC 《Journal of bacteriology》2004,186(19):6647-6650
Variations in surface hydrophobicity of six Lactobacillus strains with and without an S-layer upon changes in ionic strength are derived from contact angle measurements with low- and high-ionic-strength aqueous solutions. Cell surface hydrophobicity changed in response to changes in ionic strength in three out of the six strains, offering these strains a versatile mechanism to adhere to different surfaces. The dynamic behavior of the cell surface hydrophobicity could be confirmed for two selected strains by measuring the interaction force between hydrophobic and hydrophilic tips with use of atomic force microscopy. 相似文献
73.
Rodrigues L van der Mei HC Teixeira J Oliveira R 《Applied and environmental microbiology》2004,70(7):4408-4410
Biofilms were grown on preconditioned voice prostheses with biosurfactants obtained from probiotic bacteria Lactococcus lactis 53 and Streptococcus thermophilus A in an artificial throat model. Both biosurfactants greatly reduced microbial numbers on prostheses and also induced a decrease in the airflow resistance that occurs on voice prostheses after biofilm formation. This study presents a promising strategy for prolonging the lifespan of voice prostheses. 相似文献
74.
Bakker DP Postmus BR Busscher HJ van der Mei HC 《Applied and environmental microbiology》2004,70(6):3758-3760
Various mechanisms have been demonstrated to be operative in bacterial adhesion to surfaces, but whether bacterial adhesion to surfaces can ever be captured in one generally valid mechanism is open to question. Although many papers in the literature make an attempt to generalize their conclusions, the majority of studies of bacterial adhesion comprise only two or fewer strains. Here we demonstrate that three strains isolated from a medical environment have a decreasing affinity for substrata with increasing surface free energy, whereas three strains from a marine environment have an increasing affinity for substrata with increasing surface free energy. Furthermore, adhesion of the marine strains related positively with substratum elasticity, but such a relation was absent in the strains from the medical environment. This study makes it clear that strains isolated from a given niche, whether medical or marine, utilize different mechanisms in adherence, which hampers the development of a generalized theory for bacterial adhesion to surfaces. 相似文献
75.
Brouns MR Peeters MC Geurts JM Merckx DM Engelen JJ Hekking JW Terwindt-Rouwenhorst EA Oosterbaan ME Geraedts JP van Straaten HW 《Birth defects research. Part A, Clinical and molecular teratology》2005,73(3):154-161
BACKGROUND: The curly tail (ct) mutant mouse is one of the best-studied mouse models of spina bifida. The ct mutation has been localized to distal chromosome 4 in two independent studies and was recently postulated to be in the Grhl-3 gene. METHODS: A recombinant BALB/c-ct strain was generated and used to precisely map the ct gene. RESULTS: We report the absence of gross chromosomal abnormalities and the precise mapping of the ct gene to a 3-Mb region at 135 Mb (66 cM) from the centromere, closely linked to the polymorphic microsatellite marker D4Mit148. Candidate genes, Idb3, Wnt4, Cdc42, and perlecan, all localized in the critical region, were studied by sequence and expression analyses. Our data indicate that these genes in all probability do not account for the ct phenotype. In addition, our expression data do not provide strong evidence that Grhl-3 is indeed the ct gene. CONCLUSIONS: The ct gene has not yet been identified. A total of 29 candidate genes remain present in the critical region. Refined mapping studies need to be performed to further narrow the region and additional candidate genes need to be examined. Supplementary material for this article can be found on the Birth Defects Research (Part A) website (http://www.mrw.interscience.wiley.com/suppmat/1542-0752/suppmat/2005/73/tables_S3-S6.doc). 相似文献
76.
77.
78.
Effects of Quaternary Ammonium Silane Coatings on Mixed Fungal and Bacterial Biofilms on Tracheoesophageal Shunt Prostheses
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Janine J. H. Oosterhof Kevin J. D. A. Buijssen Henk J. Busscher Bernard F. A. M. van der Laan Henny C. van der Mei 《Applied microbiology》2006,72(5):3673-3677
Two quaternary ammonium silanes (QAS) were used to coat silicone rubber tracheoesophageal shunt prostheses, yielding a positively charged surface. One QAS coating [(trimethoxysilyl)-propyldimethyloctadecylammonium chloride] was applied through chemical bonding, while the other coating, Biocidal ZF, was sprayed onto the silicone rubber surface. The sprayed coating lost its stability within an hour, while the chemically bonded coating appeared stable. Upon incubation in an artificial throat model, allowing simultaneous adhesion and growth of yeast and bacteria, all coated prostheses showed significant reductions in the numbers of viable yeast (to 12% to 16%) and bacteria (to 27% to 36%) compared with those for silicone rubber controls, as confirmed using confocal laser scanning microscopy after live/dead staining of the biofilms. In situ hybridization with fluorescently labeled oligonucleotide probes showed that yeasts expressed hyphae on the untreated and Biocidal ZF-coated prostheses but not on the QAS-coated prostheses. Whether this is a result of the positive QAS coating or is due to the reduced number of bacteria is currently unknown. In summary, this is the first report on the inhibitory effects of positively charged coatings on the viability of yeasts and bacteria in mixed biofilms. Although the study initially aimed at reducing voice prosthetic biofilms, its relevance extends to all biomedical and environmental surfaces where mixed biofilms develop and present a problem. 相似文献
79.
80.
Yun Chen Akshay K. Harapanahalli Henk J. Busscher Willem Norde Henny C. van der Mei 《Applied and environmental microbiology》2014,80(2):637-643
Adhesion of bacteria occurs on virtually all natural and synthetic surfaces and is crucial for their survival. Once they are adhering, bacteria start growing and form a biofilm, in which they are protected against environmental attacks. Bacterial adhesion to surfaces is mediated by a combination of different short- and long-range forces. Here we present a new atomic force microscopy (AFM)-based method to derive long-range bacterial adhesion forces from the dependence of bacterial adhesion forces on the loading force, as applied during the use of AFM. The long-range adhesion forces of wild-type Staphylococcus aureus parent strains (0.5 and 0.8 nN) amounted to only one-third of these forces measured for their more deformable isogenic Δpbp4 mutants that were deficient in peptidoglycan cross-linking. The measured long-range Lifshitz-Van der Waals adhesion forces matched those calculated from published Hamaker constants, provided that a 40% ellipsoidal deformation of the bacterial cell wall was assumed for the Δpbp4 mutants. Direct imaging of adhering staphylococci using the AFM peak force-quantitative nanomechanical property mapping imaging mode confirmed a height reduction due to deformation in the Δpbp4 mutants of 100 to 200 nm. Across naturally occurring bacterial strains, long-range forces do not vary to the extent observed here for the Δpbp4 mutants. Importantly, however, extrapolating from the results of this study, it can be concluded that long-range bacterial adhesion forces are determined not only by the composition and structure of the bacterial cell surface but also by a hitherto neglected, small deformation of the bacterial cell wall, facilitating an increase in contact area and, therewith, in adhesion force. 相似文献