Topics
The Living World
- Concept of Living
- Characteristics of Living Beings
- Diversity in the Living World
- Biodiversity
- Understanding Taxonomy
- Binomial Nomenclature
- Taxonomic Categories
- Taxonomic Hierarchy of Living Organisms: Unit of Classification
- Taxonomical Aids
Class 11
Biological Classification
- Introduction of Biological Classification
- History of Classification
- Types of Classification
- Five Kingdom Classification
- Salient Features of Five Kingdoms
- Characteristics of the Five Kingdoms
- Merits and Demerits of the Five Kingdom Classification
- Kingdom Monera
- Archaebacteria vs Eubacteria
- Heterotrophic bacteria vs Mycoplasma
- Kingdom Protista
- Kingdom Fungi
- Kingdom Plantae
- Kingdom Animalia
- Viruses, Viroids, Prions and Lichens
Class 12
Plant Kingdom
- Introduction of Plant Kingdom
- Classification of Plant Kingdom
- Algae
- Cryptogams > Division II- Bryophytes
- Cryptogams > Division III- Pteridophytes
- Sub-Kingdom Phanerogamae
- Phanerogams > Division I-Gymnosperms
- Phanerogams > Division II- Angiosperms
- Dicot Seeds Vs Monocot Seeds
Animal Kingdom
- Kingdom Animalia
- Classification of Kingdom Animalia
- Classification of Animals
- Germ Layer Organisation
- Classification Based on Body Cavity
- Other Characteristic Features
- Phylum: Porifera
- Phylum: Cnidaria/Coelenterata
- Phylum: Ctenophora
- Phylum: Platyhelminthes
- Phylum: Aschelminthes
- Phylum: Annelida
- Phylum: Arthropoda
- Phylum: Mollusca
- Phylum: Echinodermata
- Phylum: Hemichordata
- Phylum: Chordata
- Chordates vs Non-chordates
- Subphylum: Vertebrata/Craniata
- Subphylum: Vertebrata/Craniata > Class: Cyclostomata
- Subphylum -Vertebrata/Craniata > Class: Chondrichthyes
- Subphylum -Vertebrata/Craniata > Class: Osteichthyes
- Subphylum: Vertebrata/Craniata > Class: Amphibia
- Subphylum: Vertebrata/Craniata > Class: Reptilia
- Subphylum: Vertebrata/Craniata > Class: Aves
- Subphylum: Vertebrata/Craniata > Class: Mammalia
Morphology of Flowering Plants
- Plant Morphology
- The Root
- The Stem
- The Leaf
- The Inflorescence
- Flower
- Flower Symmetry
- Types of Flowers
- The Fruit
- The Seed
- Structure of Dicotyledonous seed vs. Monocotyledonous seed
- Structure of a Dicotyledonous Seed
- Structure of Monocotyledonous Seed
- Semi-technical Description of a Typical Flowering Plant
- Solanaceae
- Malvaceae
- Cruciferae (Brassicaceae)
- Leguminosae
- Compositae
- Graminae
Anatomy of Flowering Plants
- Tissues - “The Teams of Workers”
- Meristems or Meristematic Tissues
- Permanent Tissue
- Simple Permanent Tissues (Supporting Tissue)
- Complex Permanent Tissues
- Complex Permanent Tissue: Xylem Structure and Function (Conducting Tissue)
- Complex Permanent Tissue: Phloem Structure and Function (Conducting Tissue)
- Tissue System
- Epidermal Tissue System
- Ground Tissue System
- Vascular Tissue System
- Anatomy of Dicotyledonous and Monocotyledonous Plants
- Difference between Monocot and Dicot Plants
- Dicotyledonous root vs. Monocotyledonous root
- Dicotyledonous stem vs. Monocotyledonous stem
- Dicotyledonous Root
- Monocotyledonous Root
- Dicotyledonous Stem
- Monocotyledonous Stem
- Isobilateral (Monocotyledonous) Leaf
- Dorsiventral (Dicotyledonous) Leaf
- Secondary Growth
- Vascular Cambium
- Cork Cambium
- Secondary Growth in Roots
Structural Organisation in Animals
- Introduction of Structural Organisation in Animals
- Tissues - “The Teams of Workers”
- Animal Tissues
- Epithelial Tissue
- Connective Tissue
- Muscular Tissue
- Neural Tissues
- Organ and Organ System
- Frog
- Morphology of Frog
- Anatomy of Frog
Cell The Unit of Life
- Cell: Structural and Functional Unit of Life
- Cell Theory
- An Overview of Cell
- Prokaryotic Cells
- Cell Envelope and Its Modifications
- Ribosomes and Inclusion Bodies
- Structure of Prokaryotic and Eukaryotic Cells
- Eukaryotic Cells
- Structure of the Cell > Plasma Membrane / Cell Membrane
- Structure of the Cell > Cell Wall: “Supporter and Protector”
- Endomembrane System
- Mitochondria - “Power House of the Cell”
- Plastids
- Ribosomes - "The sites of protein synthesis"
- Cilia and Flagella
- Centrosome and Centrioles
- Cytoskeleton
- Structure of the Cell > Nucleus: “Brain” of the Cell
- Microbodies
- Plant Cell Vs Animal Cell
- Difference between Gram-positive and Gram-negative Bacteria.
Biomolecules
- Concept of Biomolecules
- Analysis of Chemical Composition
- Biomolecules in the Cell > Lipids
- Primary and Secondary Metabolites
- Biomacromolecules
- Proteins
- Polysaccharides
- Biomolecules in the Cell > Nucleic Acids
- Biomolecules in the Cell
- Structure of Proteins
- Enzymes - Chemical Reactions
- Enzyme- High Rates Chemical Conversion
- Nature of Enzyme Action
- Factors Affecting Enzyme Activity
- Classification and Nomenclature of Enzymes
- Enzymes - Co-factors
- Nature of Bond Linking Monomers in a Polymer
Cell Cycle and Cell Division
- Cell Cycle - "Divide, Grow and Redivide"
- Phases of Cell Cycle
- Comparison table between the G, S, and G₂ phases
- Mitosis > Karyokinesis (Division of Nucleus)
- Mitosis > Cytokinesis (Division of Cytoplasm)
- Significance of Mitosis
- Meiosis: Reduction Division
- Stages of Meiosis: Meiosis I
- Stages of Meiosis: Meiosis II
- Comparison table between Meiosis I and Meiosis II
- Significance of Meiosis
Transport in Plants
- Introduction of Transport in Plants
- Diffusion
- Active Transport
- Turgidity and Flaccidity (Plasmolysis)
- Imbibition
- Comparison of Different Transport Processes
- Plant Water Relation
- Long Distance Transport of Water
- Plants Absorb Water
- Water Movement up a Plant
- Transpiration - Transpiration and Photosynthesis – a Compromise
- Uptake and Transport of Mineral Nutrients
- Uptake of Mineral Ions
- Phloem Transport - Flow from Source to Sink
- Phloem Transport - Pressure Flow Or Mass Flow Hypothesis
- Diffusion of Gases
Photosynthesis in Higher Plants
- Concept of Photosynthesis
- Experiments on Photosynthesis
- Site of Photosynthesis
- Pigments in Photosynthesis
- Light Reaction
- Electron Transport
- Splitting of Water
- Cyclic and Non-cyclic Photo-phosphorylation
- Chemiosmotic Hypothesis
- Use of ATP and NADPH
- Primary Acceptor of CO2
- The Calvin Cycle
- The C4 Pathway
- Photorespiration
- Factors Affecting Photosynthesis
Respiration in Plants
- Introduction of Respiration in Plants
- Breathing in Plants
- Cellular Respiration
- Glycolysis
- Fermentation
- Aerobic Respiration
- Tricarboxylic Acid Cycle (Citric Acid Cycle or Kreb’s Cycle)
- Electron Transport System (Ets) and Oxidative Phosphorylation
- Respiratory Balance Sheet
- Amphibolic Pathways
- Respiratory Quotient
Mineral Nutrition
- Methods to Study the Mineral Requirements of Plants
- Essential Mineral Elements
- Criteria for Essentiality
- Macro and Micro Nutrients and Their Role
- Deficiency Symptoms of Essential Elements
- Toxicity of Micronutrients
- Soil as Reservoir of Essential Elements
- Biological Nitrogen Fixation
Digestion and Absorption
- Introduction of Digestion and Absorption
- Alimentary Canal
- Digestive Glands
- Role of Digestive Enzymes and Gastrointestinal Hormones
- Peristalsis, Digestion, Absorption and Assimilation of Proteins, Carbohydrates and Fats
- Calorific Values of Proteins
- Calorific Values of Carbohydrates
- Calorific Values of Fats
- Digestion of Food
- Absorption of Digested Products
- Nutritional and Digestive Tract Disorders
- Egestion of Food
- Nutritional and Digestive Tract Disorders
Plant Growth and Development
- Introduction of Plant Growth and Development
- Growth in Plants
- Plant Growth Generally is Indeterminate
- Plant Growth is Measurable
- Phases of Growth
- Growth Rates
- Growth Comparisons
- Conditions for Growth
- Differentiation, Dedifferentiation and Redifferentiation
- Concept of Development
- Plant Growth Regulators
- Physiological Effects of Plant Growth Regulators
Breathing and Exchange of Gases
- Introduction of Breating and Exchange of Gases
- Respiratory Organs
- Mechanism of Breathing
- Respiratory Volumes and Capacities
- Exchange of Gases
- Transport of Gases
- Regulation of Respiration
- Disorders of Respiratory System
- Difference between Inspiration and Expiration
Body Fluids and Circulation
- Fluids in Our Body
- Blood
- Plasma (The Liquid Portion of Blood)
- Formed Elements
- Blood Transfusion and Blood Groups (ABO and Rh system)
- Lymph and Lymphatic System
- Circulatory Pathways
- Human Circulatory System
- Cardiac Cycle
- Electrocardiogram (ECG)
- Pulmonary and Systemic Circulation (Double Circulation)
- Regulation of Cardiac Activity
- Disorders of Circulatory System
- Difference between RBCs, WBCs and Platelets
Excretory Products and Their Elimination
- Introduction of Excretory Products and Their Elimination
- Modes of Excretion: Ammonotelism, Ureotelism, and Uricotelism
- Human Excretory System
- Function of the Kidney - “Production of Urine”
- Function of the Tubules
- Mechanism of Concentration of the Filtrate
- Regulation of Kidney Function
- Micturition
- Role of other organs in excretion
- Disorders of the Excretory System
Locomotion and Movement
- Introduction of Locomotion and Movement
- Types of Movement
- Muscles
- Comparison Between Skeletal, Visceral And Cardiac Muscles
- Skeletal Muscle (Voluntary Muscle)
- Structure of Contractile Proteins
- Mechanism of Muscle Contraction
- Skeletal System
- The Human Skeleton: Axial Skeleton
- The Human Skeleton: Appendicular Skeleton
- Joints and Its Classification
- Disorders of Muscular and Skeletal System
Neural Control and Coordination
- Coordination and Integration in the Human Body
- Neural System
- Human Neural System
- Neuron: Structural & Functional Unit
- Generation and Conduction of Nerve Impulse
- Transmission of Impulses
- Central Neural System
Chemical Coordination and Integration
- Introduction of Chemical Coordination and Integration
- Human Endocrine Glands and Harmones
- Human Endocrine System
- The Hypothalamus
- Pituitary Gland or Hypophysis Gland
- The Pineal Gland
- Thyroid Gland
- Parathyroid Gland
- Thymus Gland
- Adrenal Gland (Suprarenal Gland)
- Pancreas (Islets of Langerhans)
- Testis
- Ovary
- Hormones of Heart, Kidney and Gastrointestinal Tract
- Mechanism of Hormone Action
Sexual Reproduction in Flowering Plants
- Flower
- Pre-fertilisation in Flowering Plant: Structures and Events
- Structure and Development of Anther
- Pre-fertilization in Plant: Microsporangium
- Microsporogenesis
- Structure and Development of Male Gametophyte
- Structure and Development of Ovule
- Megasporogenesis
- Development of Female Gametophyte or Embryo Sac
- Pollination
- Autogamy
- Geitonogamy
- Xenogamy
- Agents of Pollination
- Anemophily
- Hydrophily
- Animal-Mediated Pollination (Zoophily)
- Outbreeding Devices
- Pollen Pistil Interaction
- Artificial Hybridization or Artificial Fertilization
- Double Fertilization and Triple Fusion
- Post-Fertilization Structures and Events
- Endosperm
- Embryo
- The Seed
- Fruits
- Apomixis
- Polyembryony
Human Reproduction
- Human Reproduction
- The Male Reproductive System
- The Female Reproductive System
- Gametogenesis
- Spermatogenesis
- Oogenesis
- Spermatogenesis Vs Oogenesis
- Menstrual Cycle (Ovarian Cycle)
- Major Events of Menstrual Cycle
- Menstrual Hygiene
- Fertilization in Human
- Implantation in Human
- Pregnancy and Embryonic Development
- Parturition (Birth) in Human
- Lactation in Human
Reproductive Health
- Concept of Reproductive Health
- Population Explosion and Birth Control
- Birth Control
- Natural Contraceptive Methods
- Artificial Contraceptive Methods
- Induced Abortion or Medical Termination of Pregnancy (MTP)
- Sexually Transmitted Diseases (STD) or Sexually Transmitted Infections (STI)
- Infertility
- Assisted Reproductive Technologies (ART)
Principles of Inheritance and Variation
- Heredity and Variation
- Mendel's Experiments on Inheritance
- Monohybrid Cross
- Punnett Square
- Back Cross and Test Cross
- Inheritance of One Gene
- Mendel's Laws > The Law of Dominance
- Mendel's Laws > The Law of Segregation (Law of Purity of Gametes)
- Exceptions to Mendel's Principles > Incomplete Dominance
- Exceptions to Mendel's Principles > Co-Dominance
- Inheritance of Two Genes
- Mendel's Laws > The Law of Independent Assortment
- Chromosomal Theory of Inheritance
- Linkage and Recombination
- Polygenic Inheritance
- Exceptions to Mendel's Principles > Pleiotropy
- Difference Between Polygenic Inheritance and Pleiotropy
- Sex Determination
- Sex Determination in Humans
- Sex Determination in Honey Bees
- Mutations
- Human Genetic Disorders
- Pedigree Analysis
- Mendelian Disorders in Humans
- Chromosomal Disorders or Abnormalities
Reproduction in Organisms
Molecular Basis of Inheritance
- Introduction of Molecular Basis of Inheritance
- Structure of Polynucleotide Chain
- Packaging of DNA
- Griffith’s Experiment
- Properties of Genetic Material
- The RNA World
- The Experimental Proof
- The Machinery and the Enzymes
- Transcription
- Transcription Unit and the Gene
- Process of Transcription in Bacteria
- tRNA – the Adapter Molecule
- Applications and Future Challenges
- Polymorphism
- DNA Fingerprinting
Evolution
- Universe and Earth's Formation
- Origin of Life on Earth
- Theories of Origin of Life
- Urey and Miller’s Experiment
- Evolution of Life Forms - a Theory
- Evidences Supporting the Theory of Evolution
- Adaptive Radiation
- Convergent Evolution
- Biological Evolution
- Theories of Biological Evolution
- Hardy Weinberg’s Principle
- Natural Selection and Speciation
- Brief Account of Evolution
- Human Evolution
Human Health and Diseases
- Common Diseases in Human Beings
- Bacterial Diseases
- Viral Diseases
- Protozoan Diseases
- Helminthic Diseases
- Fungal Diseases
- Prevention and Control of Infectious Diseases
- Immunity
- Types of Immunity > Innate Immunity
- Types of Immunity > Acquired Immunity
- Active and Passive Immunity
- Vaccination and Immunization
- Allergies
- Autoimmunity
- The Immune System
- Acquired Immuno Deficiency Syndrome (AIDS)
- Cancer
- Causes of Cancer
- Symptoms and Diagnosis of Cancer
- Prevention/Treatment of Cancer
- Drug Abuse
- Adolescence and Drug/Alcohol Abuse
- Addiction and Dependence
- Effects of Drug and Alcohol Abuse
- Prevention and Control of Drugs and Alcohol Abuse
Microbes in Human Welfare
Biotechnology - Principles and Processes
Biotechnology and Its Application
Organisms and Populations
Ecosystem
Strategies for Enhancement in Food Production
Biodiversity and Conservation
Environmental Issues
- Pollution
- Controlling Vehicular Air Pollution: a Case Study of Delhi
- Effects of Domestic Sewage and Industrial Effluents on Water
- Solid Wastes
- Radioactive Wastes
- Greenhouse Effect and Climate Change
- Ozone Depletion in the Stratosphere
- Degradation by Improper Resource Utilisation and Maintenance
- Forest Conservation
- Case Study of People's Participation in Conservation of Forests
Notes
Polymorphism:
- Polymorphism is the variation at the genetic level.
- It arises in an individual either in somatic cells or in the germ cells.
- Mutations are inheritable (Unless the mutation in the germ cell hampers the ability of an individual to produce offsprings).
- If more than one variant (allele) occurs at a locus with a frequency of more than 0.01, then the allelic sequence variation is known as 'DNA polymorphism'. Thus, any inheritable mutation which is observed at high frequency in a population is referred to as 'DNA polymorphism'.
- Variations are majorly observed in non-coding DNA sequences (they do not have any immediate effect on individual).
- Polymorphism ranges from single to large scale changes, both of which play important role in evolution and speciation.
- Dr. Alec Jeffreys developed the technique of DNA fingerprinting in an attempt to identify DNA markers for inherited diseases.
- He used satellite DNA as probe that shows a very high degree of polymorphism. It was called Variable Number of Tandem Repeats (VNTR) or mini-satellite.
- A technique to identify a person on the basis of a person's DNA specificity is called DNA fingerprinting.
Notes
Variable Number of Tandem Repeats (VNTR):
- VNTRs are also known as minisatellites and are made up of tandem repeats of short base sequences (10-100 base pairs).
- It is a small sequence of DNA present one behind other (tandemly) in variable numbers.
- High degree of variation is seen in the number of repeats.
- Size of VNTR varies from 0.1 to 20 kb. Copy number varies from chromosome to chromosome in an individual.
- The autoradiogram obtained after hybridization with VNTR probe produces bands of differing sizes. These bands are characteristic for an individual.
- Except monozygotic twins, no two individuals have same autoradiogram pattern.
- By use of polymerase chain reaction and different probes, the sensitivity of DNA fingerprinting can be increased.
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Schematic representation of DNA fingerprinting: Few representative chromosomes have been shown to contain different copy number of VNTR |
