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 NEUROBIOLOGY ANIMATIONS
       

 IMMUNOLOGY ANIMATIONS
       

 REGENERATIVE BIOLOGY ANIMATIONS
   
Source : Harvard University

       ANIMATIONS BY CATEGORIES

Animation Description

Category

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Heart anatomical structures

Anatomy

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How enzymes act as catalysts

Biochemistry

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Cell Structure

Biochemistry

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Central Dogma of Biochemistry

Biochemistry

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Cellular Transport

Biochemistry

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Cholesterol

Biochemistry

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The Citric Acid Cycle

Biochemistry

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Cloning

Biochemistry

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The Cori Cycle

Biochemistry

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DNA Replication

Biochemistry

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Enzyme Inhibition

Biochemistry

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Enzyme Specificity

Biochemistry

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Fatty Acid Metabolism

Biochemistry

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Gluconeogenesis

Biochemistry

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Glycolysis

Biochemistry

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Introduction to Metabolism

Biochemistry

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Metabolic Process Location

Biochemistry

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Oxidative Phosphorylation

Biochemistry

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The Polymerase Chain Reaction

Biochemistry

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Photosynthesis

Biochemistry

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Protein Folding

Biochemistry

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Protein Synthesis

Biochemistry

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Pyruvate Dehydrogenase Complex

Biochemistry

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Signal Transduction

Biochemistry

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Enzyme Activity

Biochemistry

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Protein Synthesis

Biochemistry

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Biochemical pathways of Normal and Cancer Cells

Cancer

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Breast Cancer

Cancer

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Checkpoints and Cell Cycle Control

Cancer

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Cell Division - Mitosis

Cell Biology

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DNA Replication

Cell Biology

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DNA Transcription

Cell Biology

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RNA Translation

Cell Biology

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Glycolysis

Cell Biology

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Golgi Apparatus

Cell Biology

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Krebs Cycle or Citric Acid Cycle

Cell Biology

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Meiosis

Cell Biology

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Mitochondria and Electron Transport Chain

Cell Biology

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Gregor Mendel and pea plants

Genetics

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Traits of pea plants that Mendel studied

Genetics

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Genes do not blend

Genetics

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Some Genes are Dominant

Genetics

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Genetic inheritance follows rules

Genetics

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Genes are real things

Genetics

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All cells arise from pre-existing cells

Genetics

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Sex cells, Body cells and Chromosomes

Genetics

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Specialized chromosomes determine gender

Genetics

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Chromosomes carry genes

Genetics

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Genes get shuffled when chromosomes exchange pieces

Genetics

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Evolution and inheritance of gene variations

Genetics

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Mendelian laws apply to human beings

Genetics

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Mendelian genetics cannot fully explain human health

Genetics

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DNA and Proteins are key molecules

Genetics

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One gene makes one protein

Genetics

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A gene is made of DNA

Genetics

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Bacteria and Viruses have DNA too

Genetics

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DNA molecule is shaped like a twisted ladder

Genetics

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A half DNA is a template for copying whole

Genetics

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RNA is an intermediary between DNA and protein

Genetics

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Gene is a discrete sequence of DNA nucleotides

Genetics

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The RNA message is sometimes edited

Genetics

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Some viruses store genetic information in RNA

Genetics

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RNA was the first genetic molecule

Genetics

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Mutations are changes in genetic information

Genetics

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Some types of mutations are automatically repaired

Genetics

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DNA is packaged in a chromosome

Genetics

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Higher cells incorporate an ancient chromosome

Genetics

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Some DNA does not encode protein

Genetics

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Certain DNA fragments termed transposons can jump.

Genetics

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Genes can be turned on and off

Genetics

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Genes can be moved between species

Genetics

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DNA responds to signals from outside the cell

Genetics

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Different genes are active in different cells

Genetics

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Master genes control basic body plans

Genetics

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Development balances cell growth and death

Genetics

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A genome is an entire set of genes

Genetics

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Living things share common genes

Genetics

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DNA is only the beginning for understanding the human genome

Genetics

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Arrhythmias

Heart

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Atherosclerosis

Heart

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Coronary artery bypass graft (CABG)

Heart

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Directional Coronary Atherectomy (DCA)

Heart

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Percutaneous transluminal coronary angioplasty (PTCA)

Heart

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Allergic response to foreign antigens

Immunology

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Immune Response

Immunology

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Phagocytosis

Immunology

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Vaccines

Immunology

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Specific Immunity or Acquired immunity

Immunology

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Interferon and prevention of viral replication

Immunology

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Breathing Mechanism

Physiology

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Blood clotting process

Physiology

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Blood Flow

Physiology

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Digestion

Physiology

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Heartburn

Physiology

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Peristalsis

Physiology

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Ulcers

Physiology

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Brain components

Physiology

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Nerve conduction

Physiology

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Reflex response

Physiology

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Red blood cell production

Physiology

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Skeletal muscle

Physiology

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Skeletal system components

Physiology

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Urination

Physiology

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Pituitary gland

Physiology

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Endocrine Glands

Physiology

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Homeostasis

Physiology

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Muscle types

Physiology

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Hearing

Physiology

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Sensation of Smell

Physiology

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The sense of Taste

Physiology

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Components of Skin

Physiology

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Lymph nodes

Physiology

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Gas exchange in Lungs

Physiology

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Cardiac Physiology

Physiology

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About amniotic fluid

Reproduction

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The fertilization process

Reproduction

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Egg cell production

Reproduction

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Egg Production

Reproduction

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Formation of Twins

Reproduction

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Kids Birth

Reproduction

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Placenta delivery

Reproduction

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Placenta formation

Reproduction

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Pregnancy

Reproduction

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Rupturing membranes

Reproduction

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Ultrasound

Reproduction

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Vaginal delivery

Reproduction

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Sperm production

Reproduction

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Sperm release pathway

Reproduction

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Cesarean section

Reproduction

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Chromatography and Gel Electrophoresis

Tools and Techniques

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ANIMATIONS BY CHAPTERS

Chapter 1: The Nature of Science and the Characteristics of Life

·         Activity 1.1 - The scientific method

·         Activity 1.2 - Shared characteristics of life

·         Activity 1.3 - The biological hierarchy

Chapter 2: Organizing the Diversity of Life

·         Activity 2.1 - Derived characteristics

·         Activity 2.2 - The Linnaean hierarchy

Chapter 3: Major Groups of Living Organisms

·         Activity 3.1 - The six kingdoms of life

·         Activity 3.2 - Basics of the bacterial cell

·         Activity 3.3 - The parts of the flower

·         Tutorial 3.4 - Fungi digest food externally

·         Activity 3.5 - How hyphae help fungi grow

·         Activity 3.6 - Tissue layers of the jellyfish

·         Activity 3.7 - Properties of multicellular eukaryotes

Interlude A: Applying What We Learned: Biodiversity and People

·         Activity A.1 - The diversity of species on Earth

·         Activity A.2 - Human population explosion

Chapter 4: Chemical Building Blocks

·         Activity 4.1 - Temperature and molecular movement

·         Activity 4.2 - Salt dissolving in water

·         Tutorial 4.3 - Acids, bases, and pH

·         Activity 4.4 - Building proteins from amino acids

·         Activity 4.5 - Phospholipids form membranes

·         Tutorial 4.6 - Heat changes protein structure: Frying an egg

·         Process Animation 4.1 - Formation of Covalent Bonds

Chapter 5: Cell Structure and Compartments

·         Activity: 5.1: Proteins embedded in the plasma membrane

·         Activity: 5.2: Cell structure in animals

·         Activity: 5.3: Cell structure in plants

·         Activity: 5.4: Cell structure in bacteria

·         Tutorial: 5.5: Vessicle budding and fusing

·         Activity: 5.6: Energy transforming organelles: Mitochondria

·         Activity: 5.7: Energy transforming organelles: Chloroplasts

·         Activity: 5.8: Flagellar movement

·         Tutorial: 5.9 Evolution of organelles

·         Process Animation 5.1: Vessicle budding and fusing

Chapter 6: Membrane Structure and Transport

·         Tutorial 6.1 - Active versus passive movement of molecules

·         Activity 6.2 - Water gain and loss in plant and animal cells

·         Activity 6.3 - Animal cell junctions

·         Tutorial 6.4 - Signaling molecules

·         Process Animation 6.1 - Active Transport

·         Process Animation 6.2a - Exocytosis

·         Process Animation 6.2b - Endocytosis

·         Process Animation 6.3 - Signaling molecules

·         Process Animation 6.4 - A Cell's Response to a Steroid Hormone

Chapter 7: Energy and Enzymes

·         Tutorial 7.1 - Enzyme catalysis

·         Activity 7.2 - The structure and synthesis of DNA

·         Process Animation 7.1a - Process Animation: The Energy of Chemical Reactions

·         Process Animation 7.1b - Process Animation: Heat and Chemical Reactions

·         Process Animation 7.1c - Process Animation: Enzyme Catalysis

·         Process Animation 7.1d - Process Animation: Enzymes and Activation Energy

Chapter 8: Photosynthesis and Respiration

·         Tutorial 8.1 - Photosynthesis

·         Tutorial 8.2 - Catabolism

·         Process Animation 8.1a - Photosynthesis: The Flow of Energy

·         Process Animation 8.1b - Photosynthesis: Overview of Reactions

·         Process Animation 8.1c - Photosynthesis: The Light Reactions

·         Process Animation 8.1d - Photosynthesis: Carbon Fixation Reactions

·         Process Animation 8.2a - Catabolism: Glycolysis

·         Process Animation 8.2b - Catabolism: The Citric Acid Cycle

·         Process Animation 8.2c - Catabolism: Oxidative Phosphorylation

·         Process Animation 8.2d - Catabolism: Aerobic versus Anaerobic Respiration

Chapter 9: Cell Division

·         Tutorial 9.1 - The cell division cycle

·         Tutorial 9.2 - Mitosis and cell division

·         Tutorial 9.3 - Meiosis

·         Activity 9.4 - The stages of meiosis

·         Activity 9.5 - Compare mitosis and meiosis

·         Process Animation 9.1 - The Cell Division Cycle

·         Process Animation 9.2 - Mitosis and Cell Division

·         Process Animation 9.3 - Meiosis

Interlude B: Applying What We Learned: Cancer: Cell Division Out of Control

·         Activity B.1 - Development of Cancer

·         Tutorial B.2 - Suppressing tumors by controlling cell division

·         Tutorial B.3 - A strategy for combating cancer

Chapter 10: Patterns of Inheritance

·         Activity 10.1 - Chromosomes and cells

·         Activity 10.2 - Genetics terminology

·         Activity 10.3 - Independent assortment

·         Activity 10.4 - Linked inheritance versus independent assortment

·         Activity 10.5 - Principles of probability

·         Process Animation 10.1 - Chromosomes and Cells

·         Process Animation 10.2 - The Punnett Square Method

Chapter 11: Chromosomes and Human Genetics

·         Activity 11.1 - Chromosomes and fruit flies

·         Activity 11.2 - Crossing over

·         Tutorial 11.3 - Independent assortment and gamete diversity

·         Tutorial 11.4 - Human pedigree analysis

·         Activity 11.5 - Interactive Punnett square

Chapter 12: DNA

·         Activity 12.1 - Griffith's experiments

·         Tutorial 12.2 - The Hershey-Chase experiment

·         Activity 12.3 - Building a DNA strand

·         Tutorial 12.4 - DNA Replication

·         Tutorial 12.5 - DNA Repair

·         Process Animation 12.1a - DNA Repair: Mutations from DNA Replication

·         Process Animation 12.1b - DNA Repair: Mutations from Sunlight

·         Process Animation 12.2 - DNA Repair: The Hershey-Chase experiment

Chapter 13: From Gene to Protein

·         Activity 13.1 - The flow of genetic information in a eukaryotic cell

·         Activity 13.2 - Protein synthesis

·         Tutorial 13.3 - Transcription

·         Activity 13.4 - Transcription overview

·         Tutorial 13.5 - Removal of introns from RNA

·         Activity 13.6 - Build a protein from mRNA

·         Tutorial 13.7 - Translation

·         Tutorial 13.8 - Impact of DNA mutations on protein synthesis

·         Process Animation 13.1 - The Flow of Genetic Information in a Eukaryotic Cell

·         Process Animation 13.2 - Removal of Introns from RNA

·         Process Animation 13.3 - Translation

Chapter 14: Control of Gene Expression

·         Activity 14.1 - Structural organization of the chromosome

·         Activity 14.2 - DNA packing in eukaryotes

·         Tutorial 14.3 - The Tryptophan Operon

·         Activity 14.4 - Control of Gene Expression in Eukaryotes

·         Process Animation 14.1 - Control of gene expression in eukaryotes

·         Process Animation 14.2 - The Tryptophan Operon

·         Process Animation 14.3 - Structural organization of the chromosome

Chapter 15: DNA Technology

·         Tutorial 15.1 - Genetic testing: Identifying the sickle-cell allele

·         Tutorial 15.2 - Constructing a DNA library

·         Activity 15.3 - The polymerase chain reaction

·         Tutorial 15.4 - Human cloning

·         Activity 15.5 - Genetic engineering

·         Activity 15.6 - Gene therapy for ADA deficiency

·         Process Animation 15.1 - Constructing a DNA library

·         Process Animation 15.2a - Human Cloning: Therapeutic Cloning

·         Process Animation 15.2b - Human Cloning: Reproductive Cloning

·         Process Animation 15.3 - Genetic Engineering

·         Process Animation 15.4 - Genetic testing: Identifying the sickle-cell allele

Interlude C: Harnessing the Human Genome

·         Tutorial C.1 - Sequencing the human genome

·         Tutorial C.2 - From tissue to test results

·         Activity C.3 - Prenatal screening

Chapter 16: How Evolution Works

·         Tutorial 16.1 - Genetic drift

·         Tutorial 16.2 - Natural selection

Chapter 17: Evolution of Populations

·         Tutorial 17.1 - Gene flow

·         Activity 17.2 - The Hardy-Weinberg equation

·         Activity 17.3 - The three models of natural selection

·         Tutorial 17.4 - The crisis in antibiotic resistance

·         Process Animation 17.1 - The Hardy-Weinberg Equation

Chapter 18: Adaptation and Speciation

·         Activity 18.1 - Speciation in action

Chapter 19: The Evolutionary History of Life

·         Activity 19.1 - The history of life on Earth

·         Activity 19.2 - The history of life, part I

·         Activity 19.3 - The history of life, part II

·         Activity 19.4 - Continental drift

·         Tutorial 19.5 - The causes of continental drift

Interlude D: Humans and Evolution

·         Activity D.1 - Hominid evolution

Chapter 20: The Biosphere

·         Tutorial 20.1 - Earth has four giant convection cells

·         Tutorial 20.2 - A rain shadow

·         Tutorial 20.3 - Terrestrial Biomes

·         Activity 20.4 - Biomes and climate zones

Chapter 21: Growth of Populations

·         Activity 21.1 - Unrestrained population growth

·         Activity 21.2 - Restrained population growth

·         Activity 21.3 - Predator-prey interactions

·         Activity 21.4 - Population cycles

·         Activity 21.5 - Human population growth

Chapter 22: Interactions among Organisms

·         Activity 22.1 - Mutualism in action

·         Activity 22.2 - Competition in action

·         Tutorial 22.3 - Character displacement

·         Process Animation 22.1 - Character displacement

Chapter 23: Communities of Organisms

·         Tutorial 23.1 - A food web

·         Activity 23.2 - Succession

·         Activity 23.3 - Climate change over time

Chapter 24: Ecosystems

·         Activity 24.1 - An idealized energy pyramid

·         Tutorial 24.2 - The sulfur cycle

·         Tutorial 24.3 - The phosphorus cycle

·         Process Animation 24.1 - How Ecosystems Work

Chapter 25: Global Change

·         Activity 25.1 - Land transformation: A city growing over time

·         Tutorial 25.2 - The nitrogen cycle

·         Tutorial 25.3 - The carbon cycle

·         Activity 25.4 - Are global temperatures rising?




        ANIMATIONS BY CATEGORIES

GENETICS ATIMATIONS

Addition and Deletion Mutations

cDna

Cell Cycle

Cell Growth

Changes Chromosome Structure

Circular DNA

Cloning Gene

Comprasion of Meiosis and Mitosis

DNA replication

Endonuclease

Features Meiosis

Gene expressions

Gene transcription

Genetic Engineering

Inversion

Lac operon

Lac Operon Induction

Meselson-Stahl Experiment

Microarray

Mitosis

PCR

Plasmid

Protein Synthesis

Random Orientation Meiosis

Replication Fork

RFLP

Slipped Strand

Southern Blot

Spermatogenesis

Spliceosome

Stages of Meiosis

Thymine Dimer

Transcription and Enhacers

Transposition

Transposons Shifting Segments of the Genome

Tryptophan Repressor

Tumor Suppressor Gene

BIOCHEMISTRY ANIMATIONS

Action potential

Cotransport

Electron Transport Chain and ATP Synthesis

Electon Transport System and Formation of ATP

Energy Sources for Prolonged Exercise

Enzyme Action and the Hydrolysis of Sucrose

Feedback

How Enzymes Work

How Glycolysis Work

How the Krebs Cycle Works

How the NAD Works

Hormonal Communication

Membrane-bound Receptors

Metabolic Pathway

Myofilament Contraction

Oxygen Carbon Dioxide

Positive and Negative Feedback Animations

Protein Denaturation

Proton Pump

Second Messenger

Signal Amplification

Sodium-Potassium Pump

Steroid Hormone

Thyroid Hormone

Voltage Gated Ion Channels Tumor Suppressor gene

IMMUNOLOGY ANIMATIONS

Cytotoxic T cell

IgE Mediated (Type I) Hypersensitivity

Monoclonal Antibodies

T cells Dependent Antigens

Vaccine

PHYSIOLOGY ANIMATIONS

Action Potential

Action Potentials and Muscle Contraction

Blood Sugar Regulation in Diabetics

Bone Growth Animations

Breakdown of ATP During Contraction

Chemical Synapse

Cochlear Structures

Diffusion

Endocytosis and Exocytosis

Eukaryote Prokaryote (Processing of gene Information)

Fetal Development and Risk

Gastric Secretion

How Facilitated Diffusion Works

How Osmosis Works

Lysosome

Maturation of the Follicle and Oocyte

Neuromuscular Junction

Osteoporosis

Oxygen Carbon Dioxide

Sarcomere

Signal Amplification

Thyroid Hormone

MICRIBIOLOGY ANIMATIONS

Bacterial Conjugation

Bacterial Spore Formation

Bacterial Transformation

Entry of enveloped viruses into cells

Food Pathogens

Food Spoilage

Hershey-Chase Experiment

HIV Infection Cycle

HIV Replication

HIV Treatment

Lambda Phage Replication Cycle

Malaria

Prion

Replication Cycle of a Retrovirus

Releasing Enveloped Virions

Specialized Transduction by Temperate Phage

Transduction Generalized


HEALTH ANIMATIONS

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Medical Specialty  •  
Alphabetical

Allergy and Immunology

Cancer

Cardiology and Cardiac Surgery

Dermatology

Ear, Nose and Throat (ENT)

Embryology

Endocrinology and Diabetes

Eyes and Vision

Fitness

Gastroenterology

Neurology

Ob/Gyn

Pulmonary Medicine

Orthopaedics

Pregnancy and Parenting

Surgery

Urology




ANA SAYFAÜYE GİRİŞİSON DAKİKAANİMASYONLAREĞİTİM TVBİYOLOJİ SÖZLÜĞÜIB BIOLOGY SYLLABUSİLETİŞİMATATÜRKGalleryAbout Me