Great disparities exist between organisms with regard to the relative ease of chromosomal mutagenesis and manipulation. In Chromosomal Mutagenesis, a team of experts provide a variety of chromosomal manipulation techniques, including insertional gene disruptions, gene knockouts, stimulated homologous recombination techniques and other novel tools, for both prokaryotic and eukaryotic organisms, and attempt to expand the genetic toolbox beyond model organisms. Following the format of the highly successful Methods in Molecular Biology format, each chapter offers step-by-step laboratory...
Great disparities exist between organisms with regard to the relative ease of chromosomal mutagenesis and manipulation. In Chromosomal Mutagenesis,...
Great disparities exist between organisms with regard to the relative ease of chromosomal mutagenesis and manipulation. In Chromosomal Mutagenesis, a team of experts provide a variety of chromosomal manipulation techniques, including insertional gene disruptions, gene knockouts, stimulated homologous recombination techniques and other novel tools, for both prokaryotic and eukaryotic organisms, and attempt to expand the genetic toolbox beyond model organisms. Following the format of the highly successful Methods in Molecular Biology format, each chapter offers step-by-step laboratory...
Great disparities exist between organisms with regard to the relative ease of chromosomal mutagenesis and manipulation. In Chromosomal Mutagenesis,...