Beschreibung:
Molecular Methods for Virus Detection provides both reviews of individual methods and instructions for detecting viral and mycobacterial nucleic acid sequences in clinical specimens.
D.L. Wiedbrauk and A.M. Drevon, Nucleic Acid Detection Methods.D.L. Wiedbrauk and J. Stoerker, Quality Assurance in the Molecular Biology Laboratory.D.L. Stoler and N.L. Michael, Nucleic Acid Blotting Techniques for Virus Detection.J.Carr, In Situ Hybridization.R.L. Hodinka, Antiviral Susceptibility Testing Using DNA-DNA Hybridization.J.C. Wilbur and M.S. Urdea, Quantitation of Viral Nucleic Acids Using Branched DNA (bDNA) Signal Amplification.I. Bronstein and C.E.M. Olesen, Chemiluminescence Methods.B.J. McCreedy, Polymerase Chain Reaction.F. Ferre, P. Pezzoli, E. Buxton, C. Duffy, A. Marchese, and A. Diagle, Quantitation of RNA Targets Using the Polymerase Chain Reaction.J.B. Mahony and M.A. Chernesky, Multiplex Polymerase Chain Reaction (M-PCR).G.J. Nuovo, PCR in Situ Hybridization.R. Sooknanan, B. van Gemen, and L.T. Malek, Nucleic Acid Sequence Based Amplification (NASBA(tm)).S.S.Ghosh, E. Fahy, and T.R. Gingeras, The Self-Sustained Sequence Replication (3SR) Reaction and its Application in Clinical Diagnostics and Molecular Biology.J.D. Burczak, S. Ching, H.-Y. Hu, and H.H. Lee, Ligase Chain Reaction (LCR) for the Detection of Infectious Agents.G. T. Walker, et al., A Chemiluminescent DNA Probe Test Based upon Strand Displacement Amplification (SDA).D.M. Schuster, M.S. Berninger, and A. Rashtchian, Ligation Activated Transcription Amplification: Amplification and Detection of Human Papillomaviruses.Subject Index.