762 Pages
by
CRC Press
768 Pages
by
CRC Press
Also available as eBook on:
This comprehensive yet balanced work emphasizes the principles and rationale underlying recombinant DNA methodology while furnishing a general understanding of the experimental protocols-suggesting flexible approaches to resolving particular molecular necessities that are easily adaptable to readers' specific applications.
Features summary tables presenting at-a-glance information on practices of recombinant DNA methodologies!
Recombinant DNA Principles and Methodologies discusses basic and advanced topics requisite to the employment of recombinant DNA technology, such as
Elucidating the material with over 2250 edifying references, equations, drawings, and photographs, this state-of-the-art resource is a valuable hands-on guide for molecular and cell biologists, biochemists, bioprocess technologists, applied and industrial microbiologists, virologists, geneticists, chemical engineers, and upper-level undergraduate and graduate students in these disciplines.
Why Cloning?, James J. Greene
Biochemistry of Nucleic Acids, Paul S. Miller
Enzymology of Recombinant DNA, Frank J. Castora
Basic Escherichia coli Genetics Useful for Recombinant DNA Techniques, Darren D. Sledjeski and Susan Garges
Formulation of Cloning Strategies, John B. Dame
Isolation and Purification of Nucleic Acids, James J. Greene
Gel Electrophoresis, Southern and Northern Analysis, James J. Greene and Frank J. Castora
Hybridization Probes, Frank J. Castora and James J. Greene
cDNA Cloning and the Construction of Recombinant DNA, Dante S. Zarlenga
Molecular Cloning by Plasmid Vectors, Paulina Balbás and Francisco Bolívar
Phage Lambda: Basic Biology and Use as a Vector, Susan Frackman and Michael Feiss
Cosmid Cloning, John Collins and Werner Lindenmaier
Multipurpose Cloning Vectors, August J. Sick, Joseph M. Fernandez, and Jay M. Short
Mammalian Expression Vectors, Ricky R. Hirschhorn and Nava Sarver
Approaches to the Expression of Foreign Genes, Allan R. Shatzman
Screening for Specific Recombinant Clones, Lucia Irene González-Villaseñor and Mark M. Manak
Principles and Applications of the Polymerase Chain Reaction, Garbriela S. Dveksler and Carl W. Dieffenbach
DNA Sequencing, Maurice A. Kashdan, Phillip T. Moen, Jr.,Venigalla B. Rao, and Bachtoi S. Rao
Site-Directed Mutagenesis, Alfred Johnson and Marvin Reitz
Biochemistry of Nucleic Acids, Paul S. Miller
Enzymology of Recombinant DNA, Frank J. Castora
Basic Escherichia coli Genetics Useful for Recombinant DNA Techniques, Darren D. Sledjeski and Susan Garges
Formulation of Cloning Strategies, John B. Dame
Isolation and Purification of Nucleic Acids, James J. Greene
Gel Electrophoresis, Southern and Northern Analysis, James J. Greene and Frank J. Castora
Hybridization Probes, Frank J. Castora and James J. Greene
cDNA Cloning and the Construction of Recombinant DNA, Dante S. Zarlenga
Molecular Cloning by Plasmid Vectors, Paulina Balbás and Francisco Bolívar
Phage Lambda: Basic Biology and Use as a Vector, Susan Frackman and Michael Feiss
Cosmid Cloning, John Collins and Werner Lindenmaier
Multipurpose Cloning Vectors, August J. Sick, Joseph M. Fernandez, and Jay M. Short
Mammalian Expression Vectors, Ricky R. Hirschhorn and Nava Sarver
Approaches to the Expression of Foreign Genes, Allan R. Shatzman
Screening for Specific Recombinant Clones, Lucia Irene González-Villaseñor and Mark M. Manak
Principles and Applications of the Polymerase Chain Reaction, Garbriela S. Dveksler and Carl W. Dieffenbach
DNA Sequencing, Maurice A. Kashdan, Phillip T. Moen, Jr.,Venigalla B. Rao, and Bachtoi S. Rao
Site-Directed Mutagenesis, Alfred Johnson and Marvin Reitz
Biography
James Greene (Catholic University, Washington D.C., USA)
"
…provide[s] clear insights into the biological, chemical, and physical rationale behind common molecular methods used in lab manuals and commericial kits.
"- Trends in Genetics