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  • Book
    Mark C. Leake, editors.
    Contents:
    The biophysics of infection / Mark C. Leake
    Single-molecule observation of DNA replication repair pathways in E. coli / Adam J.M. Wollman, Aisha H. Syeda, Peter McGlynn and Mark C. Leake
    Investigating the swimming of microbial pathogens using digital holography / K.L. Thornton, R.C. Findlay, P.B. Walrad and L.G. Wilson
    What is the 'minimum inhibitory concentration' (mic) of pexiganan acting on escherichia coli?--a cautionary case study / Alys K. Jepson, Jana Schwarz-Linek, Lloyd Ryan, Maxim G. Ryadnov and Wilson C.K. Poon
    Evolution of drug resistance in bacteria / B. Waclaw
    Using biophysics to monitor the essential protonmotive force in bacteria / Mei-Ting Chen and Chien-Jung Lo
    The Type I restriction enzymes as barriers to horizontal gene transfer: determination of the DNA target sequences recognised by livestock-associated methicillin-resistant Staphylococcus aureus clonal complexes 133/ST771 and 398 / Kai Chen, Augoustinos S. Stephanou, Gareth A. Roberts, John H. White, Laurie P. Cooper, Patrick J. Houston, Jodi A. Lindsay and David T.F. Dryden
    Biomechanical analysis of infectious biofilms / David Head
    Designing a single-molecule biophysics tool for characterising DNA damage for techniques that kill infectious pathogens through DNA damage effects / Helen Miller, Adam J.M. Wollman and Mark C. Leake
    Bacterial surfaces: front lines in host-pathogen interaction / Jane E. King and Ian S. Roberts
    Biophysical approaches to bacterial gene regulation by riboswitches / Cibran Perez-Gonzalez, Jonathan P. Grondin, Daniel A. Lafontaine and J. Carlos Penedo
    Bugs on a slippery plane / Dmitri O. Pushkin and Martin A. Bees
    Transcription regulation and membrane stress management in enterobacterial pathogens / Nan Zhang, Goran Jovanovic, Christopher McDonald, Oscar Ces, Xiaodong Zhang and Martin Buck
    How biophysics may help us understand the flagellar motor of bacteria which cause infections / Matthew A.B. Baker
    Mechanics of bacterial cells and initial surface colonization / Sebastian Aguayo and Laurent Bozec
    Neutron reflectivity as a tool for physics-based studies of model bacterial membranes / Robert D. Barker, Laura E. McKinley and Simon Titmuss
    Mechanisms of Salmonella typhi host restriction / Stefania Spanò --Insights into biological complexity from simple foundations / L. Albergante, D. Liu, S. Palmer and T.J. Newman
    Force spectroscopy in studying infection / Zhaokun Zhou and Mark C. Leake
    Imaging immunity in lymph nodes: past, present and future / James Butler, Amy Sawtell, Simon Jarrett, Jason Cosgrove, Roger Leigh, Jon Timmis and Mark Coles
    Novel approaches to manipulating bacterial pathogen biofilms: whole-systems design philosophy and steering microbial evolution / Alexandra S. Penn
    Index.
    Digital Access Springer 2016
    Access via Advances in experimental medicine and biology ; 2016; 915
    Location
    Version
    Call Number
    Items
    Advances in experimental medicine and biology ; 2016; 915
    2016
  • Book
    Patrick Henry Kellough and Jean L. Kellough
    Print [1985]
  • Article
    Beckmann JS, Johnson PF, Abelson J.
    Science. 1977 Apr 08;196(4286):205-8.
    Four thousand Escherichia coli clones containing yeast DNA inserted into the plasmid pBR313 have been isolated. Of these, 175 clones were identified as carrying yeast transfer RNA genes. The initial analysis of the inserted transfer RNA genes via the colony hybridization technique with individual radioactive transfer RNA species is reported. The data indicate that yeast transfer RNA genes are not highly clustered, although some clustering exists. In addition, it was observed that the reiteration number of different transfer RNA genes may vary extensively.
    Digital Access Access Options