Author:
Edition: 2006
Publisher: Humana Press
Binding: Hardcover
ISBN: 1588293807
Fluorescent Energy Transfer Nucleic Acid Probes: Designs And Protocols (Methods in Molecular Biology) (Methods in Molecular Biology)
The first comprehensive treatment of energy transfer (ET) nucleic acid probes. Medical books Fluorescent Energy Transfer Nucleic Acid Probes. Medical books Fluorescent Energy Transfer Nucleic Acid Probes Desi..., 9781588293800. Fluorescent Energy Transfer Nucleic Acid Probes Designs And Protocols, ISBN-13: 9781588293800, ISBN-10: 1588293807
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Fluorescent Energy Transfer Nucleic Acid Probes Designs And Protocols, ISBN-13: 9781588293800, ISBN-10: 1588293807
format hardback language english publication year 01 04 2006 series methods in molecular biology subject mathematics sciences subject 2 life sciences general title fluorescent energy transfer nucleic acid probes designs and protocols author vladimir v didenko publisher humana pr inc publication date mar 29 2006 pages 372 binding hardcover edition hardback cd rom dimensions 6 00 wx 9 00 hx 1 00 d isbn 1588293807 subject science life sciences biology molecular biology description molecular beaco
Store Search search Title, ISBN and Author Fluorescent Energy Transfer Nucleic Acid Probes: Designs and Protocols [With CDROM] Estimated delivery 3-12 business days Format Hardcover Condition Brand New The first comprehensive treatment of energy transfer (ET) nucleic acid probes. Hands-on experts thoroughly describe all the major probes, both fluorescence resonance energy transfer (FRET)-based and non-FRET-based, and provide a complete set of techniques to monitor DNA and RNA reactions, includi
Fluorescent Energy Transfer Nucleic Acid Probes: Designs and Protocols [With CDROM]
Medical Book Fluorescent Energy Transfer Nucleic Acid Probes
Hands-on experts thoroughly describe all the major probes, both fluorescence resonance energy transfer (FRET)-based and non-FRET-based, and provide a complete set of techniques to monitor DNA and RNA reactions, including hybridization, amplification, cleavage, folding, and associations with proteins, other molecules, and metal ions. Optimal design strategies for customized ET probes are presented, as well as techniques for distance determination in protein-DNA complexes and the detection of topological DNA alterations, mutations, DNA breaks and single nucleotide polymorphisms. Merging work on nanotechnology, and fluorescent probes, authors describe in detail the design and application of ET-using molecular devices, such as biosensors, molecular machines, and logic gates for molecular scale computation.