Chapter 21: Endocrine System Back To Chapter

21.5: Feedback Loops

TABLE OF
CONTENTS

X

Chapter 1: Scientific Inquiry

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1.1: Characteristics of Life
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1.2: Levels of Organization
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1.3: The Scientific Method
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1.4: Inductive Reasoning
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1.5: Deductive Reasoning
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1.6: Correlation and Causation
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1.7: Taxonomy
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1.8: Phylogeny

Chapter 2: Chemistry of Life

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2.1: The Periodic Table and Organismal Elements
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2.2: Atomic Structure
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2.3: Electron Behavior
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2.4: Electron Orbital Model
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2.5: Elements and Compounds
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2.6: Molecular Shapes
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2.7: Carbon Skeletons
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2.8: Chemical Reactions
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2.9: Isotopes
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2.10: Covalent Bonds
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2.11: Ionic Bonds
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2.12: Hydrogen Bonds
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2.13: Van der Waals Interactions
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2.14: States of Water
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2.15: pH
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2.16: Solvents
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2.17: Redox Reactions
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2.18: Adhesion
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2.19: Cohesion
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2.20: Specific Heat
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2.21: Vaporization

Chapter 3: Macromolecules

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3.1: What are Proteins?
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3.2: Protein Organization
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3.3: Protein Folding
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3.4: What are Carbohydrates?
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3.5: Dehydration Synthesis
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3.6: Hydrolysis
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3.7: What are Lipids?
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3.8: Nucleic acids
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3.9: Phosphodiester Linkages

Chapter 4: Cell Structure and Function

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4.1: What are Cells?
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4.2: Cell Size
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4.3: Eukaryotic Compartmentalization
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4.4: Prokaryotic Cells
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4.5: Cytoplasm
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4.6: The Nucleus
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4.7: Endoplasmic Reticulum
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4.8: Ribosomes
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4.9: Golgi Apparatus
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4.10: Microtubules
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4.11: Peroxisomes and Mitochondria
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4.12: Gap Junctions
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4.13: The Extracellular Matrix
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4.14: Tissues
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4.15: Plant Cell Wall
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4.16: Plasmodesmata

Chapter 5: Membranes and Cellular Transport

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5.1: What are Membranes?
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5.2: Membrane Fluidity
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5.3: The Fluid Mosaic Model
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5.4: What is an Electrochemical Gradient?
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5.5: Diffusion
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5.6: Osmosis
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5.7: Tonicity in Animals
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5.8: Tonicity in Plants
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5.9: Introduction to Membrane Proteins
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5.10: Facilitated Transport
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5.11: Primary Active Transport
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5.12: Secondary Active Transport
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5.13: Receptor-mediated Endocytosis
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5.14: Pinocytosis
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5.15: Phagocytosis
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5.16: Exocytosis

Chapter 6: Cell Signaling

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6.1: What is Cell Signaling?
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6.2: Bacterial Signaling
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6.3: Yeast Signaling
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6.4: Contact-dependent Signaling
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6.5: Autocrine Signaling
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6.6: Paracrine Signaling
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6.7: Synaptic Signaling
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6.8: G-protein Coupled Receptors
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6.9: Internal Receptors
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6.10: Endocrine Signaling
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6.11: What are Second Messengers?
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6.12: Intracellular Signaling Cascades
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6.13: Ion Channels
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6.14: Enzyme-linked Receptors

Chapter 7: Metabolism

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7.1: What is Metabolism?
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7.2: First Law of Thermodynamics
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7.3: Second Law of Thermodynamics
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7.4: Kinetic Energy
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7.5: Potential Energy
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7.6: Free Energy
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7.7: Activation Energy
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7.8: Hydrolysis of ATP
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7.9: Phosphorylation
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7.10: Induced-fit Model
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7.11: Enzyme Kinetics
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7.12: Enzyme Inhibition
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7.13: Feedback Inhibition
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7.14: Allosteric Regulation
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7.15: Cofactors and Coenzymes

Chapter 8: Cellular Respiration

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8.1: Introduction to Cellular Respiration
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8.2: What is Glycolysis?
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8.3: Energy-requiring Steps of Glycolysis
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8.4: Energy-releasing Steps of Glycolysis
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8.5: Outcomes of Glycolysis
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8.6: Pyruvate Oxidation
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8.7: The Citric Acid Cycle
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8.8: Products of the Citric Acid Cycle
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8.9: Electron Transport Chains
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8.10: Chemiosmosis
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8.11: Electron Carriers
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8.12: ATP Yield
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8.13: Fermentation
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8.14: Dietary Connections

Chapter 9: Photosynthesis

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9.1: What is Photosynthesis?
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9.2: Light as Energy
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9.3: Anatomy of Chloroplasts
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9.4: Photosystem II
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9.5: Photosystem I
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9.6: The Calvin Cycle
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9.7: C4 Pathway and CAM

Chapter 10: Cell Cycle and Division

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10.1: What is the Cell Cycle?
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10.2: Genomic DNA in Prokaryotes
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10.3: Binary Fission
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10.4: Genomic DNA in Eukaryotes
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10.5: Interphase
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10.6: Mitosis and Cytokinesis
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10.7: Positive Regulator Molecules
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10.8: Negative Regulator Molecules
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10.9: Cancer

Chapter 11: Meiosis

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11.1: What is Meiosis?
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11.2: Meiosis I
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11.3: Meiosis II
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11.4: Crossing Over
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11.5: Nondisjunction

Chapter 12: Classical and Modern Genetics

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12.1: Genetic Lingo
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12.2: Punnett Squares
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12.3: Monohybrid Crosses
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12.4: Dihybrid Crosses
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12.5: Law of Segregation
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12.6: Law of Independent Assortment
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12.7: Test Cross
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12.8: Pedigree Analysis
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12.9: Probability Laws
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12.10: Multiple Allele Traits
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12.11: Chromosomal Theory of Inheritance
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12.12: Non-nuclear Inheritance
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12.13: X-linked Traits
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12.14: Sex-linked Disorders
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12.15: X-Inactivation
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12.16: Epistasis
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12.17: Polygenic Traits
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12.18: Pleiotropy
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12.19: Nature and Nurture

Chapter 13: DNA Structure and Function

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13.1: The DNA Helix
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13.2: DNA Packaging
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13.3: Organization of Genes
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13.4: Karyotyping
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13.5: Replication in Prokaryotes
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13.6: Replication in Eukaryotes
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13.7: Proofreading
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13.8: Mismatch Repair
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13.9: Nucleotide Excision Repair
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13.10: Mutations
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13.11: Transcription
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13.12: Translation
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13.13: Bacterial Transformation

Chapter 14: Gene Expression

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14.1: What is Gene Expression?
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14.2: The Central Dogma
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14.3: Transcription Factors
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14.4: RNA Structure
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14.5: RNA Stability
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14.6: pre-mRNA Processing
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14.7: Types of RNA
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14.8: MicroRNAs
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14.9: RNA Splicing
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14.10: Epigenetic Regulation
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14.11: RNA Interference
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14.12: Operons

Chapter 15: Biotechnology

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15.1: What is Genetic Engineering?
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15.2: Antibiotic Selection
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15.3: Recombinant DNA
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15.4: Transgenic Organisms
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15.5: Adult Stem Cells
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15.6: Embryonic Stem Cells
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15.7: Induced Pluripotent Stem Cells
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15.8: In-vitro Mutagenesis
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15.9: DNA Isolation
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15.10: Gene Therapy
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15.11: Reproductive Cloning
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15.12: CRISPR
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15.13: Complementary DNA
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15.14: PCR
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15.15: Genomics

Chapter 16: Viruses

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16.1: What are Viruses?
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16.2: Viral Structure
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16.3: Lytic Cycle of Bacteriophages
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16.4: Lysogenic Cycle of Bacteriophages
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16.5: Retrovirus Life Cycles
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16.6: Viral Recombination
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16.7: Viral Mutations

Chapter 17: Nutrition and Digestion

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17.1: What is Monogastric Digestion?
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17.2: Anatomy of the Intestines
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17.3: Accessory Organs
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17.4: Lipid Digestion
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17.5: Protein Digestion
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17.6: Carbohydrate Digestion
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17.7: Neural Regulation
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17.8: Hormonal Regulation

Chapter 18: Nervous System

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18.1: What is a Nervous System?
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18.2: The Parasympathetic Nervous System
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18.3: The Sympathetic Nervous System
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18.4: The Blood-brain Barrier
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18.5: Neuron Structure
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18.6: The Synapse
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18.7: Glial Cells
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18.8: The Resting Membrane Potential
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18.9: Action Potentials
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18.10: Long-term Potentiation
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18.11: Long-term Depression

Chapter 19: Sensory Systems

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19.1: What is a Sensory System?
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19.2: The Tongue and Taste Buds
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19.3: Gustation
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19.4: Olfaction
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19.5: Hearing
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19.6: Hair Cells
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19.7: The Cochlea
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19.8: The Vestibular System
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19.9: The Retina
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19.10: Vision
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19.11: Somatosensation
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19.12: Thermosensation

Chapter 20: Musculoskeletal System

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20.1: What is the Skeletal System?
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20.2: Bone Structure
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20.3: Joints
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20.4: Bone Remodeling
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20.5: Skeletal Muscle Anatomy
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20.6: Classification of Skeletal Muscle Fibers
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20.7: Muscle Contraction
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20.8: Cross-bridge Cycle
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20.9: Motor Units
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20.10: The Spinal Cord
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20.11: Nociception

Chapter 21: Endocrine System

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21.1: What is the Endocrine System?
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21.2: Types of Hormones
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21.3: Intracellular Hormone Receptors
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21.4: Cell-surface Signaling
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21.5: Feedback Loops
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21.6: Hypothalamic-Pituitary Axis

Chapter 22: Circulatory and Pulmonary Systems

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22.1: The Respiratory System
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22.2: Breathing
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22.3: Lung Capacity
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22.4: Gas Exchange and Transport
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22.5: Anatomy of the Circulatory System
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22.6: Anatomy of the Heart
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22.7: The Cardiac Cycle
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22.8: Blood Flow

Chapter 23: Osmoregulation and Excretion

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23.1: What Are Osmoregulation and Excretion?
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23.2: Kidney Structure
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23.3: Filtration and Urine Formation
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23.4: Urea Cycle
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23.5: Hormonal Regulation
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23.6: Comparative Excretory Systems
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23.7: Osmoregulation in Fishes
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23.8: Osmoregulation in Insects

Chapter 24: Immune System

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24.1: What is the Immune System?
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24.2: Cell-mediated Immune Responses
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24.3: Humoral Immune Responses
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24.4: Antibody Structure
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24.5: Affinity and Avidity
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24.6: Cross-reactivity
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24.7: Allergic Reactions
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24.8: Inflammation
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24.9: Vaccinations

Chapter 25: Reproduction and Development

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25.1: Spermatogenesis
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25.2: Oogenesis
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25.3: Fertilization
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25.4: Cleavage and Blastulation
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25.5: Gastrulation
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25.6: Neurulation
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25.7: Cell Migration
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25.8: Determination

Chapter 26: Behavior

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26.1: What is Behavior?
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26.2: Imprinting
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26.3: Communication
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26.4: Migration
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26.5: Mate Choice
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26.6: Fixed Action Patterns
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26.7: Optimal Foraging
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26.8: Parental Care
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26.9: Altruism
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26.10: Inclusive Fitness

Chapter 27: Ecosystems

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27.1: What is an Ecosystem?
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27.2: Trophic Levels
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27.3: Primary Production
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27.4: Production Efficiency
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27.5: Trophic Efficiency
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27.6: What are Biogeochemical Cycles?
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27.7: The Water Cycle
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27.8: The Carbon Cycle
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27.9: The Nitrogen Cycle
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27.10: The Phosphorus Cycle
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27.11: The Sulfur Cycle
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27.12: Bioremediation

Chapter 28: Population and Community Ecology

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28.1: What are Populations and Communities?
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28.2: Distribution and Dispersion
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28.3: Life Histories
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28.4: Energy Budgets
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28.5: Population Growth
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28.6: Ecological Niches
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28.7: Ecological Succession
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28.8: Keystone Species
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28.9: Symbiosis
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28.10: Competition
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28.11: Predator-Prey Interactions
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28.12: Ecological Disturbance

Chapter 29: Biodiversity and Conservation

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29.1: What is Biodiversity?
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29.2: Threats to Biodiversity
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29.3: Biodiversity and Human Values
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29.4: What is Conservation Biology?
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29.5: Sustainable Development
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29.6: Conservation of Small Populations
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29.7: What is Weather?
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29.8: What is Climate?
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29.9: Global Climate Change
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29.10: Conservation of Declining Populations
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29.11: Habitat Fragmentation

Chapter 30: Speciation and Diversity

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30.1: What is a Species?
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30.2: Formation of Species
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30.3: Speciation Rates
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30.4: Genetics of Speciation
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30.5: Hybrid Zones

Chapter 31: Natural Selection

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31.1: What is Natural Selection?
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31.2: Types of Selection
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31.3: Frequency-dependent Selection
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31.4: Limits to Natural Selection

Chapter 32: Population Genetics

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32.1: What is Population Genetics?
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32.2: Hardy-Weinberg Principle
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32.3: Mutation, Gene Flow, and Genetic Drift
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32.4: Genetic Drift
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32.5: Gene Flow

Chapter 33: Evolutionary History

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33.1: Phylogenetic Trees
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33.2: Conditions on Early Earth
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33.3: The Colonization of Land
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33.4: What is Evolutionary History?
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33.5: The Evidence for Evolution
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33.6: The Fossil Record
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33.7: Convergent Evolution

Chapter 34: Plant Structure, Growth, and Nutrition

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34.1: Introduction to Plant Diversity
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34.2: Non-vascular Seedless Plants
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34.3: Seedless Vascular Plants
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34.4: Introduction to Seed Plants
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34.5: Basic Plant Anatomy: Roots, Stems, and Leaves
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34.6: Plant Cells and Tissues
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34.7: Meristems and Plant Growth
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34.8: Primary and Secondary Growth in Roots and Shoots
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34.9: Morphogenesis
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34.10: Light Acquisition
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34.11: Water and Mineral Acquisition
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34.12: Short-distance Transport of Resources
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34.13: Xylem and Transpiration-driven Transport of Resources
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34.14: Regulation of Transpiration by Stomata
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34.15: Adaptations that Reduce Water Loss
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34.16: Phloem and Sugar Transport
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34.17: The Soil Ecosystem
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34.18: Key Elements for Plant Nutrition
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34.19: The Roles of Bacteria and Fungi in Plant Nutrition
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34.20: Epiphytes, Parasites, and Carnivores
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34.21: The Apoplast and Symplast

Chapter 35: Plant Reproduction

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35.1: Pollination and Flower Structure
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35.2: The Angiosperm Life Cycle
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35.3: Seed Structure and Early Development of the Sporophyte
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35.4: Fruit Development, Structure, and Function
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35.5: Asexual Reproduction
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35.6: Plant Tissue Culture
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35.7: Plant Breeding and Biotechnology

Chapter 36: Plant Responses to the Environment

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36.1: Plant Hormones
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36.2: Photoreceptors and Plant Responses to Light
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36.3: Biological Clocks and Seasonal Responses
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36.4: Responses to Gravity and Touch
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36.5: Responses to Drought and Flooding
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36.6: Responses to Heat and Cold Stress
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36.7: Responses to Salt Stress
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36.8: Defenses Against Pathogens and Herbivores

Full Table of Contents

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Feedback Loops

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TRANSCRIPT

Hormone production is regulated by a number of factors, including other hormones, the activation of the nervous system, and humoral stimuli, concentration changes that occur in extracellular fluids like blood.

In most cases excessive hormone production is prevented by negative feedback, a loop that starts with a stimulus, inducing the release of a particular substance, like a hormone, to maintain a certain level, before triggering a signal that results in a decrease in further release of the hormone.

For example, an increase in blood glucose levels releases the hormone insulin from the pancreas into the blood stream, delivering insulin to cells throughout the body. Insulin then causes the cells to take up glucose, which lowers blood sugar levels, and in turn signals the pancreas to stop producing insulin.

21.5: Feedback Loops

In most cases, excessive hormone production is prevented by negative feedback—a loop that starts with a stimulus inducing the release of a particular substance, like a hormone, to maintain a certain level before triggering a signal that results in a decrease in further release of the hormone.

Blood-sugar Levels

For example, an increase in blood glucose levels releases the hormone insulin from beta cells of the pancreas into the bloodstream, delivering insulin to cells throughout the body. Insulin stimulates cells to take up glucose and use it for energy production. Insulin also converts and stores excess glucose as glycogen in the liver. Collectively, these actions lower blood glucose levels, and in turn, signals the pancreas to stop producing insulin.

When blood glucose levels fall below normal, for example during exercise, alpha cells of the pancreas release the hormone glucagon. Glucagon converts glycogen stored in the liver to glucose, which can then be used by other cells in the body for energy production. Glucagon also stimulates the liver to absorb amino acids from blood and convert them to glucose. An increase in blood glucose levels then signals the pancreas to stop releasing glucagon via negative feedback regulation.

Suggested Reading

Chapter 1: Scientific Inquiry

Chapter 2: Chemistry of Life

Chapter 3: Macromolecules

Chapter 4: Cell Structure and Function

Chapter 5: Membranes and Cellular Transport

Chapter 6: Cell Signaling

Chapter 7: Metabolism

Chapter 8: Cellular Respiration

Chapter 9: Photosynthesis

Chapter 10: Cell Cycle and Division

Chapter 11: Meiosis

Chapter 12: Classical and Modern Genetics

Chapter 13: DNA Structure and Function

Chapter 14: Gene Expression

Chapter 15: Biotechnology

Chapter 16: Viruses

Chapter 17: Nutrition and Digestion

Chapter 18: Nervous System

Chapter 19: Sensory Systems

Chapter 20: Musculoskeletal System

Chapter 21: Endocrine System

Chapter 22: Circulatory and Pulmonary Systems

Chapter 23: Osmoregulation and Excretion

Chapter 24: Immune System

Chapter 25: Reproduction and Development

Chapter 26: Behavior

Chapter 27: Ecosystems

Chapter 28: Population and Community Ecology

Chapter 29: Biodiversity and Conservation

Chapter 30: Speciation and Diversity

Chapter 31: Natural Selection

Chapter 32: Population Genetics

Chapter 33: Evolutionary History

Chapter 34: Plant Structure, Growth, and Nutrition

Chapter 35: Plant Reproduction

Chapter 36: Plant Responses to the Environment

21.5: Feedback Loops

Blood-sugar Levels

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