Topics
Reproduction
Reproduction in Organisms
Sexual Reproduction in Flowering Plants
- Flower - a Fascinating Organ of Angiosperms
- Accessory Organs
- Essential Parts of Flower: Androecium
- Essential Parts of Flower: Gynoecium
- Sexual Reproduction in Plants
- Pre-fertilization in Plant: Structure and Events
- Structure and Development of Anther
- Transverse Section of Mature Anther (Microsporangium)
- Microspores and Pollen Grains
- Advantages and Disadvantages of Pollen Grains
- Structure and Development of Ovule
- Artificial Hybridization or Artificial Fertilization
- Self-pollination
- Cross-pollination
- Abiotic Agents
- Biotic Agents
- Double Fertilization and Triple Fusion
- Post Fertilisation in Plant: Structures and Events
- Development of Seed
- Development of Fruit
Genetics and Evolution
Human Reproduction
- Microscopic Anatomy of Ovary
- Menstrual Cycle (Ovarian Cycle)
- Embryo Development Upto Blastocyst Formation
- Gametogenesis
- Fertilization in Human
- Implantation in Human
Biology and Human Welfare
Reproductive Health
Biotechnology and Its Applications
Ecology and Environment
Principles of Inheritance and Variation
- Introduction of Principles of Inheritance and Variation
- Terminology Related to Mendelism
- Mendel's Experiments on Inheritance
- Extensions of Mendelian Genetics (Deviation from Mendelism)
- Intragenic Interactions - Dominance
- Multiple Alleles
- Historical Development of Chromosome Theory
- Comparison Between Gene and Chromosome Behaviour
- Mendel's Laws > The Law of Segregation (Law of Purity of Gametes)
- Sex Determination in Some Insects
- Sex Determination in Birds
- Mendelian Genetics
- Chromosomal Disorders or Abnormalities
- Linkage and Crossing Over
Molecular Basis of Inheritance
Evolution
Human Health and Diseases
Strategies for Enhancement in Food Production
- Introduction of Strategies for Enhancement in Food Production
- Animal Husbandry (Livestock) > Animal Breeding
- Animal Husbandry (Livestock) > Pisciculture (Fish Farming)
- Plant Breeding
Microbes in Human Welfare
Biotechnology - Principles and Processes
- Biotechnology
- Principles of Biotechnology
- Tools of Recombinant DNA Technology
- Cloning Vectors
- Competent Host (For Transformation with Recombinant DNA)
- Processes of Recombinant DNA Technology
Biotechnology and Its Application
- Biotechnology
- Transgenic Animals
- Biosafety Issues
Organisms and Populations
Ecosystem
Biodiversity and Its Conservation
- Biodiversity
- Importance of Species Diversity to the Ecosystem
- Patterns of Biodiversity
- Loss of Biodiversity
- Endangered Organisms
- Extinction
Environmental Issues
- Environmental Issues
- Air 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 Global Warming
- Ozone Depletion in the Stratosphere
- Degradation by Improper Resource Utilisation and Maintenance
- Radioactive Waste Management and E-waste
- Post-fertilization events
- The zygote
- Embryogenesis
Notes
Post-fertilisation Events in Organisms:
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Events in sexual reproduction after the formation of the zygote are called post-fertilization events.
Notes
A) The Zygote:
- The formation of the diploid zygote is universal in all sexually reproducing organisms.
- In organisms with external fertilisation, zygote is formed in the external medium (usually water), whereas in those exhibiting internal fertilisation, zygote is formed inside the body of the organism.
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In organisms belonging to fungi and algae, the zygote develops a thick wall that is resistant to desiccation and damage. It undergoes a period of rest before germination.
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In organisms with a haplontic life cycle, the zygote divides by meiosis to form haploid spores that grow into haploid individuals.
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Every sexually reproducing organism, including human beings begin life as a single cell - the zygote.
The Zygote
Notes
B) Embryogenesis:
- Embryogenesis refers to the process of development of the embryo from the zygote.
- During embryogenesis, the zygote undergoes cell division (mitosis) and cell differentiation. While cell divisions increase the number of cells in the developing embryo; cell differentiation helps groups of cells to undergo certain modifications to form specialised tissues and organs to form an organism.
Embryogenesis in animals:
Animals are categorised based on whether the development of the zygote takes place outside the body of the female parent or inside.
- Oviparous animals: Development of zygote takes place outside the body of organisms and lays fertilised/ unfertilized eggs. In oviparous animals like reptiles and birds, the fertilised eggs covered by the hard calcareous shells are laid in a safe place in the environment; after a period of incubation young ones hatch out.
- Viviparous animals: Development of the zygote takes place within the uterus of the female parent; the offspring are born as a juvenile. The embryo in viviparous organisms receives nourishment from the mother’s blood through the placenta. After attaining a certain stage of growth, the young ones are delivered out of the body of the female organism. Because of proper embryonic care and protection, the chances of survival of young ones are greater in viviparous organisms.
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Note: Many species of sharks and even snakes are ovoviviparous. In such organisms, the eggs are incubated within a modified portion of the oviduct called the uterus and the young ones are born alive after hatching. During their development, they depend on stored yolk for their nourishment.
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Embryogenesis in flowering plants:
In flowering plants, the zygote is formed inside the ovule. After fertilization, the sepals and stamens of the flower wither and fall off. The pistil, however, remains attached to the plant. The zygote develops into the embryo and the ovules develop into the seed. The ovary develops into fruits which develop a thick wall called the pericarp, protective in function. After dispersal, seeds germinate under favourable conditions to produce new plants.
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A few kinds of fruit showing seeds (S) and protective pericarp (P) |
