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  • Book
    edited by Stephan Sudowe, Angelika B. Reske-Kunz.
    Contents:
    Comparison between Agrobacterium-mediated and direct gene transfer using the gene gun / Caixia Gao and Klaus K. Nielsen
    Transient gene expression in epidermal cells of plant leaves by biolistic DNA delivery / Shoko Ueki [and others]
    Transformation of nuclear DNA in meristematic and embryogenic tissues / Mulpuri Sujatha and K.B.R.S. Visarada
    Biolistic DNA delivery to leaf tissue of plants with the non-vacuum gene gun (handygun) / Anssi L. Vuorinen [and others]
    Handgun-mediated inoculation of plants with viral pathogens for mechanistic studies / Victor Gaba, Moshe Lapidot, and Amit Gal-On
    Biolistics-based gene silencing in plants using a modified particle inflow gun / Kevin M. Davies [and others]
    Biolistic transformation of Caenorhabditis elegans / Meltem Isik and Eugene Berezikov
    Improved vectors for selection of transgenic Caenorhabditis elegans / Annabel A. Ferguson [and others]
    Biolistic transformation of Brugia Malayi / Tarig B. Higazi and Thomas R. Unnasch
    Biolistic transfection of human embryonic kidney (HEK) 293 cells / Xiongwei Li [and others]
    Biolistic transfection of tumor tissue samples / Kandan Aravindaram, Shu-Yi Yin, and Ning-Sun Yang
    Biolistic transfection of freshly isolated adult ventricular myocytes / David F. Steele, Ying Dou, and David Fedida
    Biolistic transfection of neurons in organotypic brain slices / John A. O'Brien and Sarah C.R. Lummis
    Biolistic DNA delivery to mice with the low pressure gene gun / Meng-Chi Yen and Ming-Derg Lai
    Chemokine overexpression in the skin by biolistic DNA delivery / Ahmad Jalili
    Enhancement of gene gun-induced vaccine-specific cytotoxic T-cell response by administration of chemotherapeutic drugs / Steve Pascolo
    Dendritic cell-specific biolistic transfection using the Fascin gene promoter / Yvonne Hohn, Stephan Sudowe, and Angelika B. Reske-Kunz
    Particle-mediated administration of plasmid DNA on corneas of BALB/c mice / Dirk Bauer [and others]
    Optimizing particle-mediated epidermal delivery of an influenza DNA vaccine in ferrets / Eric J. Yager [and others]
    Methods for monitoring gene gun-induced HBV and HCV-specific immune responses in mouse models / Gustaf Ahlen, Matti Sallberg, and Lars Frelin
    Gene gun immunization to combat malaria / Elke S. Bergmann-Leitner and Wolfgang W. Leitner
    Identification of T cell epitopes of Mycobacterium tuberculosis with biolistic DNA vaccination / Toshi Nagata and Yukio Koide
    Biolistic DNA vaccination against trypanosoma infection / Marianne Bryan, Siobhan Guyach, and Karen A. Norris
    Biolistic DNA vaccination against melanoma / Julia Steitz and Thomas Tuting
    Biolistic DNA vaccination against cervical cancer / Michal Smahel
    Efficiency of biolistic DNA vaccination in experimental type I allergy / Verena Raker [and others]
    Safety assessment of biolistic DNA vaccination / Barbara Langer [and others]
    DiOlistics: delivery of fluorescent dyes into cells / Nyssa Sherazee and Veronica A. Alvarez
    Protein antigen delivery by gene gun-mediated epidermal antigen incorporation (EAI) / Sandra Scheiblhofer [and others].
    Digital Access Springer 2012
  • Article
    Griffin WS, Woodward DJ, Chanda R.
    Brain Res Bull. 1978 Jul-Aug;3(4):369-72.
    To study the question of whether or not cell death contributes significantly to normal or stressed postnatal brain development in a way which is biochemically quantifiable, we carried out an experiment to assess the amount of cell death in developing cerebellum. By measuring the loss of DNA content and the loss of 14C from labelled thymidine previously incorporated into the DNA fraction (DNAF) in X-irradiated neonatal animals, shown by histological methods to have cell death to the degree of degranulating the external granular layer (EGL), we showed that when cells die both label and DNA content are greatly decreased in the cerebellum. Experiments on both normal and malnourished animals showed that cell death does not contribute significantly to cerebellar development in either malnutrition-stressed or normal animals. Here, we present a biochemical tool for assessing cell death and evidence that cell death does not contribute significantly to cerebellar development.
    Digital Access Access Options