This book is designed for students who want to learn about and appreciate basic biological topics while studying the smallest units of biology: molecules and cells. Molecular and cellular biology is a dynamic discipline. There are thousands of opportunities within the medical, pharmaceutical, agricultural, and industrial fields. In addition to preparing you for a diversity of career paths, understanding molecular and cell biology will help you make sound decisions that can benefit your diet and health.
Our writers, contributors, and editors are highly educated in sciences and humanities, with extensive classroom teaching and research experience. They are experts on preparing students for standardized tests, as well as undergraduate and graduate admissions coaching.
Take a look at the shortened table of contents:
- Chapter 1. Why Study Cell and Molecular Biology?
- Chapter 2: The Study of Evolution
- Chapter 3: What is Cell Biology?
- Chapter 4: Genetics and Our Genetic Blueprints
- Chapter 5: Getting Down with Atoms
- Chapter 6. How Chemical Bonds Combine Atoms
- Chapter 7: Water, Solutions and Mixtures
- Chapter 8: Which Elements Are in Cells?
- Chapter 9: Macromolecules Are the ‘Big’ Molecules in Living Things
- Chapter 10: Thermodynamics in Living Things
- Chapter 11: ATP as ‘Fuel’
- Chapter 12: Metabolism and Enzymes in the Cell
- Chapter 13: The Difference Between Prokaryotic and Eukaryotic Cells
- Chapter 14: The Structure of a Eukaryotic Cell
- Chapter 15: The Plasma Membrane: The Gatekeeper of the Cell
- Chapter 16: Diffusion and Osmosis
- Chapter 17: Passive and Active Transport
- Chapter 18: Bulk Transport of Molecules Across a Membrane
- Chapter 19: Cell Signaling
- Chapter 20: Oxidation and Reduction
- Chapter 21: Steps of Cellular Respiration
- Chapter 22: Introduction to Photosynthesis
- Chapter 23: Light-Dependent Reactions
- Chapter 24: Calvin Cycle
- Chapter 25: Cytoskeleton
- Chapter 26: How Cells Move
- Chapter 27: Cellular Digestion
- Chapter 28: What is Genetic Material?
- Chapter 29: The Replication of DNA
- Chapter 30: What is Cell Reproduction?
- Chapter 31: The Cell Cycle and Mitosis
- Chapter 32: Meiosis
- Chapter 33: Cell Communities
- Chapter 34: Central Dogma
- Chapter 35: How Genes Make Proteins
- Chapter 36: DNA Repair and Recombination
- Chapter 37: Gene Regulation
- Chapter 38: Genetic Engineering of Plants
- Chapter 39: Using Genetic Engineering in Animals and Humans
- Chapter 40: What is Gene Therapy?
- Conclusion
Tabella dei contenuti
Abridged Table of Contents
Disclaimer
Preface
What is Biology?
Origin of the Term
Nature of the Discipline
Divisions of Biology
Methods of Study
Scales of Study
Chapter 1. Why Study Cell and Molecular Biology?
Chapter 2: The Study of Evolution
Chapter 3: What is Cell Biology?
Chapter 4: Genetics and Our Genetic Blueprints
Chapter 5: Getting Down with Atoms
Chapter 6. How Chemical Bonds Combine Atoms
Chapter 7: Water, Solutions and Mixtures
Chapter 8: Which Elements Are in Cells?
Chapter 9: Macromolecules Are the ‘Big’ Molecules in Living Things
Chapter 10: Thermodynamics in Living Things
Chapter 11: ATP as ‘Fuel’
Chapter 12: Metabolism and Enzymes in the Cell
Chapter 13: The Difference Between Prokaryotic and Eukaryotic Cells
Chapter 14: The Structure of a Eukaryotic Cell
Chapter 15: The Plasma Membrane: The Gatekeeper of the Cell
Chapter 16: Diffusion and Osmosis
Chapter 17: Passive and Active Transport
Chapter 18: Bulk Transport of Molecules Across a Membrane
Chapter 19: Cell Signaling
Chapter 20: Oxidation and Reduction
Chapter 21: Steps of Cellular Respiration
Chapter 22: Introduction to Photosynthesis
Chapter 23: Light-Dependent Reactions
Chapter 24: Calvin Cycle
Chapter 25: Cytoskeleton
Chapter 26: How Cells Move
Chapter 27: Cellular Digestion
Chapter 28: What is Genetic Material?
Chapter 29: The Replication of DNA
Chapter 30: What is Cell Reproduction?
Chapter 31: The Cell Cycle and Mitosis
Chapter 32: Meiosis
Chapter 33: Cell Communities
Chapter 34: Central Dogma
Chapter 35: How Genes Make Proteins
Chapter 36: DNA Repair and Recombination
Chapter 37: Gene Regulation
Chapter 38: Genetic Engineering of Plants
Chapter 39: Using Genetic Engineering in Animals and Humans
Chapter 40: What is Gene Therapy?
Conclusion
Circa l’autore
Dr. Emily Turner, one of the contributors of this book, is a distinguished molecular biologist and educator, known for her profound contributions to the field of cellular and molecular biology. With a Ph.D. in Molecular Biology and over two decades of research experience, Dr. Turner is a true luminary in the realm of life sciences.As a passionate advocate for science education, Dr. Turner has dedicated her career to making the intricacies of cellular and molecular biology accessible to students of all backgrounds. Her journey as an author began with a deep-seated commitment to empower the next generation of scientists, culminating in the co-authorship of ‘Cell and Molecular Biology: An Introductory Guide for Learning Cellular & Molecular Biology.’Dr. Turner’s work is characterized by a rare blend of scholarly excellence and pedagogical prowess. Her research has been published in renowned scientific journals, contributing groundbreaking insights to the fields of genetics and molecular biology. Simultaneously, her engaging teaching style has earned her accolades and the admiration of her students.This collaborative effort marks a milestone in her career, where she, along with her co-authors, has crafted a book that distills the complexities of cellular and molecular biology into an approachable and engaging resource. With an unwavering commitment to the advancement of scientific knowledge, Dr. Emily Turner continues to inspire and educate, leaving an indelible mark on the world of science and education.
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