DNA vaccines : methods and protocols / edited by W. Mark Saltzman, Hong Shen, Janet L. Brandsma.

Contributor(s): Saltzman, W. Mark | Shen, Hong, 1972- | Brandsma, Janet L
Material type: TextTextSeries: Methods in molecular medicine: 127.Publisher: Totowa, N.J. : Humana Press, ©2006Edition: 2nd edDescription: 1 online resource (xv, 384 pages) : illustrationsContent type: text Media type: computer Carrier type: online resourceISBN: 1588294846; 9781588294845; 9781597451680; 1597451681Subject(s): DNA vaccines -- Research -- Methodology | Vaccines, DNA | Research Design | Vaccins à l'ADN -- Recherche -- Méthodologie | MEDICAL -- PharmacologyGenre/Form: Fulltext. | Illustration. | Internet Resource. | Laboratory Manual. Additional physical formats: Print version:: DNA vaccines.DDC classification: 615/.372 LOC classification: QR189.5.D53 | D63 2006Online resources: Click here to access online
Contents:
DNA vaccine design / Janet L. Brandsma -- Design of plasmid DNA constructs for vaccines / Donna L. Montgomery and Kristala Jones Prather -- Vaccination with messenger RNA / Stave Pascolo -- A stress protein-facilitated antigen expression system for plasmid DNA vaccines / Petra Riedl [and others] -- In vitro assay of immunostimulatory activities of plasmid vectors / Weiwn Jiang, Charles F. Reich, and David S. Pisetsky -- Delivery of DNA vaccines using electroporation / Shawn Babiuk, Sylvia van Drunen Littel-van den Hurk, and Lorne A. Babiuk -- Needle-free injection of DNA vaccines: a brief overview and methodology / Kanakatte Raviprakash and Kevin R. Porter -- Needle-free delivery of veterinary DNA vaccines / Sylvia van Drunen Littel-van den Hurk, Shawn Babiuk, and Lorne A. Babiuk -- Surface-modified biodegradable microspheres for DNA vaccine delivery / Mark E. Keegan and W. Mark Saltzman -- A dendrimer-like DNA-based vector for DNA delivery: a viral and nonviral hybrid approach / Dan Luo [and others] -- Identification of compartments involved in mammalian subcellular trafficking pathways by indirect immunofluorescence / Anne Doody and David Putnam -- Adjuvant properties of CpG oligonucleotides in primates / Daniela Verthelyi -- Complexes of DNA vaccines with cationic, antigenic peptides are potent, polyvalent CD8+ T-cell stimulating immunogens / Petra Riedl, Jörg Reimann, and Reinhold Schirmbeck -- Prime-boost strategies in DNA vaccines / C. Jane Dale [and others] -- Modifying professional antigen-presenting cells to enhance DNA vaccine potency / Chien-Fu Hung, Mu Yang, and T.C. Wu -- Replicase-based DNA vaccines for allergy treatment / Sandra Scheiblhofer [and others] -- Immunological responses of neonates and infants to DNA vaccines / Martha Sedegah and Stepen L. Hoffman -- DNA vaccines for allergy treatment / Richard Weiss, Sandra Sheiblhofer, and Josef Thalhamer -- Protection from autoimmunity by DNA vaccination against T-cell receptor / Thorsten Buch and Ari Waisman -- The use of bone marrow-chimeric mice in elucidating immune mechanisms / Akiko Iwasaki -- A simple method for the production of plasmid DNA in bioreactors / Kristin Listner, Laura Kizer Bentley, and Michel Chartrain -- Practical methods for supercoiled pDNA production / John Ballantyne -- Production of plasmid DNA in industrial quantities according to cGMP guidelines / Joachim Schorr [and others] -- Large-scale, nonchromatographic purification of plasmid DNA / Jason C. Murphy, Michael A. Winters, and Sangeetha L. Sagar -- Assuring the quality, safety, and efficacy of DNA vaccines / James S. Robertson and Elwyn Griffiths.
Summary: In the early 1990s, almost 200 yr after Edward Jenner demonstrated the effectiveness of the smallpox vaccine, a new paradigm for vaccination emerged. The conventional method of vaccination required delivery of whole pathogens or structural subunits, but in this new approach, DNA or genetic information was administered to elicit an immunological response. Once it was observed that plasmid DNA delivered in vivo led to production of an encoded transgene (1), two ground-breaking studies demonstrated that immunological responses could be generated against antigenic transgenes via plasmid DNA delivered by DNA vaccination (as this approach is called) (2,3). The appe- ance of this new vaccination strategy coincided with advances in molecular biology, which provided new tools to study and manipulate the basic elements of an organism's genome and also could also be applied to the design and production of DNA vaccines. DNA Vaccines is a major updated and enhancement of the first edition. It reviews state-of-the-art methods in DNA vaccine technology, with chapters describing DNA vaccine design, delivery systems, adjuvants, current appli- tions, methods of production, and quality control. Consistent with the approach of the Methods in Molecular Medicine series, these chapters contain detailed practical procedures on the latest DNA vaccine technology. The enthusiasm for DNA vaccine technology is made clear by the number of research studies published on this topic since the mid-1990s.
Tags from this library: No tags from this library for this title. Log in to add tags.
    Average rating: 0.0 (0 votes)
Item type Current location Collection Call number Status Date due Barcode Item holds
eBook eBook e-Library

Electronic Book@IST

EBook Available
Total holds: 0

Includes bibliographical references and index.

DNA vaccine design / Janet L. Brandsma -- Design of plasmid DNA constructs for vaccines / Donna L. Montgomery and Kristala Jones Prather -- Vaccination with messenger RNA / Stave Pascolo -- A stress protein-facilitated antigen expression system for plasmid DNA vaccines / Petra Riedl [and others] -- In vitro assay of immunostimulatory activities of plasmid vectors / Weiwn Jiang, Charles F. Reich, and David S. Pisetsky -- Delivery of DNA vaccines using electroporation / Shawn Babiuk, Sylvia van Drunen Littel-van den Hurk, and Lorne A. Babiuk -- Needle-free injection of DNA vaccines: a brief overview and methodology / Kanakatte Raviprakash and Kevin R. Porter -- Needle-free delivery of veterinary DNA vaccines / Sylvia van Drunen Littel-van den Hurk, Shawn Babiuk, and Lorne A. Babiuk -- Surface-modified biodegradable microspheres for DNA vaccine delivery / Mark E. Keegan and W. Mark Saltzman -- A dendrimer-like DNA-based vector for DNA delivery: a viral and nonviral hybrid approach / Dan Luo [and others] -- Identification of compartments involved in mammalian subcellular trafficking pathways by indirect immunofluorescence / Anne Doody and David Putnam -- Adjuvant properties of CpG oligonucleotides in primates / Daniela Verthelyi -- Complexes of DNA vaccines with cationic, antigenic peptides are potent, polyvalent CD8+ T-cell stimulating immunogens / Petra Riedl, Jörg Reimann, and Reinhold Schirmbeck -- Prime-boost strategies in DNA vaccines / C. Jane Dale [and others] -- Modifying professional antigen-presenting cells to enhance DNA vaccine potency / Chien-Fu Hung, Mu Yang, and T.C. Wu -- Replicase-based DNA vaccines for allergy treatment / Sandra Scheiblhofer [and others] -- Immunological responses of neonates and infants to DNA vaccines / Martha Sedegah and Stepen L. Hoffman -- DNA vaccines for allergy treatment / Richard Weiss, Sandra Sheiblhofer, and Josef Thalhamer -- Protection from autoimmunity by DNA vaccination against T-cell receptor / Thorsten Buch and Ari Waisman -- The use of bone marrow-chimeric mice in elucidating immune mechanisms / Akiko Iwasaki -- A simple method for the production of plasmid DNA in bioreactors / Kristin Listner, Laura Kizer Bentley, and Michel Chartrain -- Practical methods for supercoiled pDNA production / John Ballantyne -- Production of plasmid DNA in industrial quantities according to cGMP guidelines / Joachim Schorr [and others] -- Large-scale, nonchromatographic purification of plasmid DNA / Jason C. Murphy, Michael A. Winters, and Sangeetha L. Sagar -- Assuring the quality, safety, and efficacy of DNA vaccines / James S. Robertson and Elwyn Griffiths.

Print version record.

In the early 1990s, almost 200 yr after Edward Jenner demonstrated the effectiveness of the smallpox vaccine, a new paradigm for vaccination emerged. The conventional method of vaccination required delivery of whole pathogens or structural subunits, but in this new approach, DNA or genetic information was administered to elicit an immunological response. Once it was observed that plasmid DNA delivered in vivo led to production of an encoded transgene (1), two ground-breaking studies demonstrated that immunological responses could be generated against antigenic transgenes via plasmid DNA delivered by DNA vaccination (as this approach is called) (2,3). The appe- ance of this new vaccination strategy coincided with advances in molecular biology, which provided new tools to study and manipulate the basic elements of an organism's genome and also could also be applied to the design and production of DNA vaccines. DNA Vaccines is a major updated and enhancement of the first edition. It reviews state-of-the-art methods in DNA vaccine technology, with chapters describing DNA vaccine design, delivery systems, adjuvants, current appli- tions, methods of production, and quality control. Consistent with the approach of the Methods in Molecular Medicine series, these chapters contain detailed practical procedures on the latest DNA vaccine technology. The enthusiasm for DNA vaccine technology is made clear by the number of research studies published on this topic since the mid-1990s.

There are no comments for this item.

to post a comment.

Powered by Koha