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Genetics : from genes to genomes. -- 2nd ed. / by Leland H. Hartwell ... [et al.]. -- McGraw Hill, 2004 |
Contents
索书号:58.14/G328d/2nd ed. Contents: 1.Genetics: The Study of Biological Information 1 2.Mendel's Breakthrough: Patterns, Particles, and Principles of Heredity 13 3.Extensions to Mendel: Complexities in Relating Genotype to Phenotype 43 4.The Chromonosome theory of Inheritance 77 5.Linkage, Recombination, and the Mapping of Genes Chromosomes 113 6.DNA: How the Molecular of Heredity Carries, Replicate, and Recombines Information with contribution by Nancy Hollingsworth, SUNY Stony Brook 155 7.Anatomy and Function of a Gene: Dissection Through Mutation 191 8.Gene Expression: The Flow of Genetic Information from DNA via RNA to Protein 237 9.Deconstructing the Genome: DNA at High Resolution 277 10.Reconstructung the Genome Through Genetic and Molecular Analysis 321 11.The Direct Detection of Genotype Distinguishes Individual Genomes 371 12.The Eukaryotic Chromosome: An Organelle for Packaging and Managing DNA 415 13.Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes 441 14.The Prokaryotic Chromosome: Genetic Analysis in Bacteria 487 15.The Chromosomes of Organelles Outside the Nucleus Exhibit Non-Mendelian Patterns of Inheritance 525 16.Gene Regulation in Prokaryotes 551 17.Gene Regulation in Eukarytes 581 18.Cell-Cycle Regulation and the Genetics of Cancer 617 19.Using Genetics to Study Development 649 20.The Genetic Analysis of Populations and How They Evolve 677 21.Evolution at the Molecular Level 707
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