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  • Book
    edited by Ülo Langel.
    Contents:
    Classes of cell-penetrating peptides / Margus Pooga and Ülo Langel
    Penetratin story : an overview / Edmond Dupont, Alain Prochiantz, and Alain Joliot
    Prediction of cell-penetrating peptides / Mattias Hällbrink and Mati Karelson
    Computer-aided virtual screening and designing of cell- penetrating peptides / Ankur Gautam, Kumardeep Chaudhary, Rahul Kumar, and Gajendra Pal Singh Raghava
    Investigating membrane interactions and structures of CPPs / Fatemeh Madani and Astrid Gräslund
    Determining the effects of membrane-interacting peptides on membrane integrity / William C. Wimley
    Study of CPP mechanisms by mass spectrometry / Sandrine Sagan, Chérine Bechara, and Fabienne Burlina
    Methods to study the role of the glycocalyx in the uptake of cell-penetrating peptides / Samuel Schmidt, Rike Wallbrecher, Toin H. van Kuppevelt, and Roland Brock
    Toxicity, immunogenicity, uptake, and kinetics methods for CPPs / Julia Uusna, Kent Langel, and Ülo Langel
    Unraveling the mechanisms of peptide-mediated delivery of nucleic acids using electron microscopy / Helerin Margus, Carmen Juks, and Margus Pooga
    SCARA involvement in the uptake of nanoparticles formed by cell-penetrating peptides / Henrik Helmfors, Staffan Lindberg, and Ülo Langel
    Protein mimicry and the design of bioactive Cell- penetrating peptides / John Howl and Sarah Jones
    Pepducins and other lipidated peptides as mechanistic probes and therapeutics / Ping Zhang, Lidija Covic, and Athan Kuliopulos
    Identification and characterization of homing peptides using in vivo peptide phage display / Maija Hyvönen and Pirjo Laakkonen
    Antimicrobial and antiviral applications of cell- penetrating peptides / Kalle Pärn, Elo Eriste, and Ülo Langel
    Visualizing actin architectures in cells incubated with cell-penetrating peptides / Lin He, Peter D. Watson, and Arwyn T. Jones
    Cell-penetrating peptides as carriers for transepithelial drug delivery in vitro / Stine Rønholt, Mie Kristensen, and Hanne Mørck Nielsen
    Pathway toward tumor cell-selective CPPs? / Isabel D. Alves, Manon Carré, and Solange Lavielle
    PepFects and nickFects for the intracellular delivery of nucleic acids / Piret Arukuusk, Ly Pärnaste, Mattias Hällbrink, and Ülo Langel
    In vitro assays to assess exon skipping in duchenne muscular dystrophy / Prisca Boisguerin, Liz O'Donovan, Michael J. Gait, and Bernard Lebleu
    Applications of ApoB LDLR-binding domain approach for the development of CNS-penetrating peptides for alzheimer's disease / Eliezer Masliah and Brian Spencer
    CPP-based delivery system for in vivo gene delivery / Kaido Kurrikoff, Kadi-Liis Veiman, and Ülo Langel
    Application of CPPs for brain delivery / Artita Srimanee, Jakob Regberg, and Ülo Langel
    Intracellular delivery of nanoparticles with cell penetrating peptides / Giuseppina Salzano and Vladimir P. Torchilin
    Multifunctional oligoaminoamides for the receptor-specific delivery of therapeutic RNA / Judith Weber, Ulrich Lächelt, and Ernst Wagner
    Cell penetrating peptides for chemical biological studies / Ikuhiko Nakase, Toshihide Takeuchi, and Shiroh Futaki
    Experiences with CPP-based self assembling peptide systems for topical delivery of botulinum toxin / Jane Lee, Phil Kennedy, and Jacob M. Waugh
    Applications of CPPs in genome modulation of plants / Alicja Ziemienowicz, Jordan Pepper, and François Eudes
    DNA transfer into animal cells using stearylated CPP based Transfection Reagent / Kristiina Karro, Tiiu Männik, Andres Männik, and Mart Ustav
    Live cell genomics : cell-specific transcriptome capture in live tissues and cells / Thomas J. Bell and James Eberwine
    Live cell genomics : RNA exon-specific RNA-binding protein isolation / Thomas J. Bell and James Eberwine.
    Digital Access Springer 2015
  • Article
    Kinnear A, Lauber JK.
    Comp Biochem Physiol B. 1978;61(1):107-10.
    Changes in several macromolecular species of the vitreous are traced during post-hatching development in normal and glaucomatous avian eyes. 1. Total gel vitreous, and its hydroxyproline content, change little during development. 2. Sol vitreous increases parallel eye growth, the concentrations of hexosamine and hexuronic acid remaining constant. 3. In light-induced avian glaucoma, the sol, but not the gel, is further increased, although the hyaluronic acid components are not diluted in the pathologically enlarged eye.
    Digital Access Access Options