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  • Book
    edited by R. Scott Watson, Ann E. Thompson.
    Contents:
    Resuscitation and stabilization / Vinay Nadkarni, Robert M. Sutton, Robert A. Berg
    Extracorporeal life support / Heidi J. Dalton, Mark Davidson, and Peter P. Roeleveld
    Transport of the critically ill child / Kathryn Felmet and Richard Orr
    Procedures / S. Pascala, E. Ocal, Stephen M. Schexnayder
    Basic pediatric hemodynamic monitoring / Bradley P. Fuhrman and Jorge G. Sainz
    Respiratory / Jan Hau Lee and Ira M. Cheifetz
    Cardiac disease in pediatric intensive care / Vamsi V. Yarlagadda and Ravi R.Thiagarajan
    Pediatric shock : recognition and management / Diana Pang and Joseph A. Carcillo
    Neurocritical care / Steven L. Shein and Robert S. B. Clark
    Sedation and analgesia / Lynn D. Martin and Iskra I. Ivanova
    Fluids and electrolytes / Desmond Bohn
    Diagnosis and management of renal disorders in the pediatric intensive care unit / Dana Y. Fuhrman and Michael L. Moritz
    Hematology/onc / Phillip Spinella and Jeffrey Bednarski
    Gastrointestinal and nutrition / Renán A. Orellana and Jorge A. Coss Bu
    Infections in the intensive care unit / Samina Afreen, Hector R. Wong, and Marian G. Michaels
    Endocrine disorders in pediatric critical care / Carmen Soto-Rivera, Michael Agus
    Toxicological emergencies / Sandra D.W. Buttram and Anne-Michelle Ruha
    Pharmacology / Athena Zuppa
    Trauma and burns / Joanna C. Lim, Catherine Goodhue, Elizabeth Cleek, Erik R. Barthel, Barbara Gaines, and Jeffrey S. Upperman
    Supportive and end-of-life care in the pediatric intensive care unit / Kelly N. Michelson and Joel E. Frader.
    Digital Access Oxford [2017]
  • Article
    Achtman M, Kennedy N, Skurray R.
    Proc Natl Acad Sci U S A. 1977 Nov;74(11):5104-8.
    Escherichia coli cells carrying the F sex factor are poor recipients in conjugation. This phenomenon is called surface exclusion. Two F cistrons, traS and traT, are independently responsible for part of the whole mechanism. The traS gene product reduces DNA transfer within stable mating aggregates. The traT gene product, pTraT, results in a greatly reduced ability to form stable mating aggregates, and thus also leads to reduced DNA transfer within the cell population. pTraT is a 25,000-dalton protein incorporated into the cell envelope outer membrane. It is found in 29,000-84,000 copies per cell, depending on the plasmid expressing it. There is a parallel variation in recipient ability. Models for surface exclusion are discussed.
    Digital Access Access Options