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  • Book
    edited by Gianfranco Donelli.
    Contents:
    Methods for dynamic investigations of surface-attached in vitro bacterial and fungal biofilms / Claus Sternberg, Thomas Bjarnsholt, and Mark Shirtliff
    Aqueous two-phase system technology for patterning bacterial communities and biofilms / Mohammed Dwidar, Shuichi Takayama, and Robert J. Mitchell
    Quorum sensing in gram-positive bacteria : assay protocols for Staphylococcal agr and Enterococcal fsr systems / Akane Shojima and Jiro Nakayama
    Advanced techniques for in situ analysis of the biofilm matrix (structure, composition, dynamics) by means of laser scanning microscopy / Thomas R. Neu and John R. Lawrence
    Multiplex fluorescence in situ hybridization (M-FISH) and confocal laser scanning microscopy (CLSM) to analyze multispecies oral biofilms / Lamprini Karygianni, Elmar Hellwig, and Ali Al-Ahmad
    Field emission scanning electron microscopy of biofilm-growing bacteria Involved in nosocomial infections / Claudia Vuotto and Gianfranco Donelli
    Experimental approaches to investigating the vaginal biofilm microbiome / Marc M. Baum, Manjula Gunawardana, and Paul Webster
    Imaging bacteria and biofilms on hardware and periprosthetic tissue in orthopedic infections / Laura Nistico, Luanne Hall-Stoodley, and Paul Stoodley
    Animal models to evaluate bacterial biofilm development / Kim Thomsen, Hannah Trøstrup, and Claus Moser
    Animal models to investigate fungal biofilm formation / Jyotsna Chandra, Eric Pearlman, and Mahmoud A. Ghannoum
    Nonmammalian model systems to investigate fungal biofilms / Marios Arvanitis ... [et al.]
    Microbiological methods for target-oriented screening of biofilm inhibitors / Livia Leoni and Paolo Landini
    In vitro screening of antifungal compounds able to counteract biofilm development / Marion Girardot and Christine Imbert
    Biofilm matrix-degrading enzymes / Jeffrey B. Kaplan
    Efficacy evaluation of antimicrobial drug-releasing polymer matrices / Iolanda Francolini, Antonella Piozzi, and Gianfranco Donelli
    Antibiotic polymeric nanoparticles for biofilm-associated infection therapy / Wean Sin Cheow and Kunn Hadinoto
    Pharmacokinetics and pharmacodynamics of antibiotics in biofilm infections of Pseudomonas aeruginosa in vitro and in vivo / Wang Hengzhuang, Niels Høiby, and Oana Ciofu
    Contribution of confocal laser scanning microscopy in deciphering biofilm tridimensional structure and reactivity / Arnaud Bridier and Romain Briandet
    Chip calorimetry for evaluation of biofilm treatment with biocides, antibiotics, and biological agents / Frida Mariana Morais, Friederike Buchholz, and Thomas Maskow
    Bacteriophage attack as an anti-biofilm strategy / Sanna Sillankorva and Joana Azeredo
    Photodynamic therapy as a novel antimicrobial strategy against biofilm-based nosocomial infections : study protocols / Francesco Giuliani
    Capturing air-water interface biofilms for microscopy and molecular analysis / Margaret C. Henk
    Biofilm-growing bacteria involved in the corrosion of concrete wastewater pipes : protocols for comparative metagenomic analyses/ Vicente Gomez-Alvarez
    Culture-independent methods to study subaerial biofilm growing on biodeteriorated surfaces of stone cultural heritage and frescoes / Francesca Cappitelli, Federica Villa, and Andrea Polo
    Biofilms of thermophilic bacilli isolated from dairy processing plants and efficacy of sanitizers / Sara A. Burgess, Denise Lindsay, and Steve H. Flint.
    Digital Access Springer 2014
  • Article
    Shichi H, Williams TC.
    J Supramol Struct. 1979;12(4):419-24.
    Frogs (Rana pipiens) were injected subcutaneously with (3H)-leucine and allowed to incorporate the radioactive amino acid into newly assembled disks in the retinal rod outer segment. The labeled disks served as a temporal marker for following the turnover of rod outer segments. Animals were killed at different times after injection and outer segments were isolated and phosphorylated with ATP in the light. The visual pigment (as isorhodopsin) was regenerated with 9-cis retinal, extracted, and chromatographed on epichlorohydrin triethanolamine cellulose so that phosphorylated pigment could be separated from unphosphorylated pigment. The ratio of (3H)-radioactivity of phosphorylated pigment to that of unphosphorylated pigment was then plotted against the time after injection. The ratio was high when (3H)-labeled disks were largely associated with the basal region of the rod and decreased as the labeled disks moved toward the rod apical region. The results were interpreted as suggesting that newer disks are phosphorylated preferentially to older disks. Papain digestion of (3H)-labeled disks indicated that rhodopsin in newer disks is more susceptible to proteolysis than that in older disks.
    Digital Access Access Options
  • Book
    Alan Roland, [editor].
    Print 1978