Synopses & Reviews
With an extraordinary reputation for authority and accuracy, this landmark biology text continues to be an invaluable learning partner for students and teachers. The authors focus on the "big ideas" of biology: each chapter is organized around key concepts that build in a logical way, and are clearly explained and reinforced by the text discussion and illustration. The straightforward writing style, appropriate level of depth, and judiciously-selected coverage are other hallmarks.
A comprehensive new supplements package includes a highly-interactive student learning CD-ROM. The Special Edition of The Biology Place allows students to explore animations, take quizzes, and access the most up-to-date biology resources on the web.
Synopsis
Using the relationship of genes and traits -- how the molecular expression of genes leads to the outcome of traits in individuals and in populations -- as the overarching theme, Genetics: Analysis and Principles emphasizes the scientific method to give readers the insight needed to develop scientific reasoning skills. Thirty-six text-integrated experiments in transmission and molecular genetics follow the five-step scientific method as they show students the "how" (experimental procedures) and "why" (the underlying scientific principles) behind important experiments that created the current body of genetics knowledge. Chapter by chapter, students see what it is that geneticists actually do how they conduct experiments, collect data, and use problem-solving skills to interpret that data.
Description
Genetics: Analysis and Principles emphasizes the scientific method to give students the insight needed to develop scientific reasoning skills. Thirty-six text-integrated experiments in transmission and molecular genetics follow the five-step scientific method as they show students the "how" (experimental procedures) and "why" (the underlying scientific principles) behind important experiments that created the current body of genetics knowledge. Chapter by chapter, students see what it is that geneticists actually do how they conduct experiments, collect data, and use problem-solving skills to interpret that data. The text challenges students to think scientifically and rely on their own careful analysis of the data scientists have collected. As a result, students experience genetics as the exciting, dynamic science that it is.
Table of Contents
1. Introduction: Themes in the Study of Life.
I: THE CHEMISTRY OF LIFE.
2. The Chemical Context of Life.
3. Water and the Fitness of the Environment.
4. Carbon and the Molecular Diversity of Life.
5. The Structure and Function of Macromolecules.
6. An Introduction to Metabolism.
II: THE CELL.
7. A Tour of the Cell.
8. Membrane Structure and Function.
9. Cellular Respiration: Harvesting Chemical Energy.
10. Photosynthesis.
11. Cell Communication.
12. The Cell Cycle.
III: GENETICS.
13. Meiosis and Sexual Life Cycles.
14. Mendel and the Gene Idea.
15. The Chromosomal Basis of Inheritance.
16. The Molecular Basis of Inheritance.
17. From Gene to Protein.
18. Microbial Models: The Genetics of Viruses and Bacteria.
19. The Organization and Control of Eukaryotic Genomes.
20. DNA Technology.
21. The Genetic Basis of Development.
IV: MECHANISMS OF EVOLUTION.
22. Descent with Modification: A Darwinian View of Life.
23. The Evolution of Populations.
24. The Origin of Species.
25. Tracing Phylogeny.
V: THE EVOLUTIONARY HISTORY OF BIOLOGICAL DIVERSITY.
26. Early Earth and the Origin of Life.
27. Prokaryotes and the Origins of Metabolic Diversity.
28. The Origins of Eukaryotic Diversity.
29. Plant Diversity I: The Colonization of Land.
30. Plant Diversity II: The Evolution of Seed Plants.
31. Fungi.
32. Introduction to Animal Evolution.
33. Invertebrates.
34. Vertebrate Evolution and Diversity.
VI: PLANT FORM AND FUNCTION.
35. Plant Structure and Growth.
36. Transport in Plants.
37. Plant Nutrition.
38. Plant Reproduction and Development.
39. Control Systems in Plants.
VII: ANIMAL FORM AND FUNCTION.
40. An Introduction to Animal Structure and Function.
41. Animal Nutrition.
42. Circulation and Gas Exchange.
43. The Body's Defenses.
44. Controlling the Internal Environment.
45. Chemical Signals in Animals.
46. Animal Reproduction.
47. Animal Development.
48. Nervous Systems.
49. Sensory and Motor Mechanisms.
VIII: ECOLOGY.
50. An Introduction to Ecology and the Biosphere.
51. Behavioral Biology.
52. Population Ecology.
53. Community Ecology.
54. Ecosystems.
55. Conservation Biology.