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  • Book
    editor, Scott C. Sherman.
    Contents:
    General principles / R. Darrell Nelson and Jonah Gunalda
    Anesthesia and analgesia / Tarlan Hedayati
    Rheumatology / Todd Taylor, Usama Khalid, and Jehangir Meer
    Complications / Erik Nordquist
    Special imaging techniques / Joy L. English
    Pediatrics / Ghazala Q. Sharieff
    Approach to neck and back pain / Zheng Ben Ma and Emily Senecal Miller
    Specific disorders of the spine / Andrew D. Perron and Carl A. Germann
    Cervical spine trauma / Michael E. Nelson
    Thoracolumbar spine trauma / Sean Dyer
    Hand / David E. Manthey and Kim L. Askew
    Wrist / Andrea L. Blome and Megan E. Healy
    Forearm / Eric Toth and James Webley
    Elbow / Carl A. Germann and Brook M. Goddard
    Upper arm / Casey Glass
    Shoulder / Adnan Hussain and Sanjeev Malik
    Pelvis / Hany Y. Atallah
    Hip / Gregory W. Hendey
    Thigh / Rachel R. Bengtzen and Alexander P. Skog
    Knee / Michael C. Bond
    Leg / Adriana Segura Olson, George Chiampas, and Jacob Stelter
    Ankle / Moira Davenport and Madison Galasso
    Foot / Dennis Hanlon and Christopher Morris.
    Digital Access
    Provider
    Version
    AccessEmergency Medicine
    2018
    AccessPhysiotherapy
    2018
  • Book
    R.F. Lyndon.
    Summary: "Plant Development" offers to students of plant physiology a concise and highly readable introduction to plant development. Focusing on events at the molecular and cellular levels, the book highlights some of the key processes operating in the formation of plants, and examines areas of research yielding a fuller understanding of the underlying regulatory mechanisms. While assuming a basic knowledge of plant morphology, the book describes a host developmental strategies across a spectrum of plant groups ranging from algae to higher plants. The opening chapters deal with the evolution of fundamental structure and highlights some of the related problems before leading into a careful consideration of meristem structure and function. Central chapters examine the control of plant shape and direction of growth, and provides a platform for the subsequent discussion of cell differentiation. Chapter 9 looks at genetic regulation of development, and the final section focuses on competence, determination and co-ordination of growth. Nielsen 9780045810338 20160528

    Contents:
    Part 1 Development of the basic structures: the problems of development - embryogenesis. Part 2 Iterative growth - meristem structure and functioning: root and shoot meristems - structure and growth
    meristem functioning - formation of branches, leaves and floral organs. Part 3 Control of shape and directions of growth - the cellular basis of form: shape, growth rates, and surface structure
    control of the plane of cell division
    the cellular basis of polarity. Part 4 Cell differentiation: control of the differentiation of vascular tissues
    cell enlargement, maturation, and differentiation
    genes and development. Part 5 Competence and determination: competence and determination in differentiation
    competence and determination in flowering. Part 6 Coordination of development: pattern formation, positional information, and integration of growth. Nielsen 9780045810338 20160528
    Print 1990
  • Article
    Luchnik AN, Glaser VM, Shestakov SV.
    Mol Biol Rep. 1977 Dec;3(6):437-42.
    DNA repair and cell survival in haploid and its diploid derivative strains of Saccharomyces cerevisiae were studied after 100 krad X-ray irradiation. The cells were in the G1 stage of the cell cycle, where haploid cells had only one copy of genetic material per genome and diploid had two copies. It was found that diploid could repair double-strand breaks in its DNA after 48 hr of liquid holding which was accompanied by a four-fold rise in survival. In contrast a haploid strain failed to repair its DNA and showed no increase in survival after liquid holding. It is concluded that (1) repair of DNA double-strand breaks requires the availability of two homologous DNA duplexes, (2) restoration of cell viability during liquid holding is connected with repair of DNA double-strand breaks and (3) this repair is a slow process possibly associated with slow finding and conjugation of homologous chromosomes.
    Digital Access Access Options