Question
Explain double fertilisation and trace the post-fertilisation events in sequential order leading to seed formation in a typical dicotyledonous plant.
✓
Answer
Double fertilisation:
- On reaching synergid, pollen tube releases the two male gametes into cytoplasm of synergid.
- One of the male gamete fuses with egg nucleus to form a diploid cell called zygote. This event is called syngamy.
- Other male gamete fuses with polar nuclei at the centre to produce a triploid primary endosperm nucleus (PEN). This is termed as triple fusion. As syngamy and triple fusion take place simultaneously in the embryo sac, it is termed as double fertilisation.
- The central cell after triple fusion forms primary endosperm cell (PEC) which later develops into endosperm.
- The zygote later develops into an embryo.
Following are the post-fertilisation events:
- Development of embryo: Embryo develops in fertilised ovule, from the zygote. The early stages of embryo development from a zygote is known as embryogeny. The formation of embryo starts only after certain amount of endosperm formation to assure the nutrition supply, for development and growth of embryo.
- Development of seeds: Refer to Basic Concepts Point 10 (Embryogeny in Dicots). As a result of double fertilisation number of changes takes place in an ovule due to which ovule is converted into seeds.
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
A flower of brinjal plant following the process of sexual reproduction produces 360 viable seeds.
Answer the following questions giving reasons:
How many megaspore mother cells are involved?
Answer the following questions giving reasons:
How many megaspore mother cells are involved?
The number of trophic levels in an ecosystem are limited. Comment.
Differentiate between DNA and RNA. Explain the transcription process in prokaryotic organisms with the help of diagram.
Differentiate between:
(a) Hypocotyl and Epicotyl
(b) Coleoptile and Coleorrhiza
(c) Integument and Testa
(d) Perisperm and Pericarp.
(a) Hypocotyl and Epicotyl
(b) Coleoptile and Coleorrhiza
(c) Integument and Testa
(d) Perisperm and Pericarp.
Answer the following questions:
Draw a labelled diagram of a human ovum released after ovulation.
Draw a labelled diagram of a human ovum released after ovulation.
The following is the illustration of the sequence of ovarian events (a-i) in a human female.
Write briefly the changes in the following organs in the different phases of the menstrual cycle:
- Ovaries.
- Uterus.
- Fallopian tube.
Himani while watching a TV programme based on life in polar region observed that all animals in polar regions possess larger size. Also, smaller animals are not found in that region. She asked about this surprising fact to her teacher.
- Why smaller animals (e.g. humming birds) are rarely found in polar regions?
- What are the adaptations shown by polar animals?
- What are the chief characteristics of polar region animals?
- What values are shown by Himani?
An organism is able to survive on a culture medium, containing nutrient A, by the enzyme-catalysed reactions.
$\text{A}\xrightarrow{\ \ \ \text{p}\ \ \ }\text{B}\xrightarrow{\ \ \ \text{q}\ \ \ }\text{C}\xrightarrow{\ \ \ \text{r}\ \ \ }\text{D}$
A mutant organism failed to survive on this medium, but grew well when nutrient B was added to it.
→$\text{A}\xrightarrow{\ \ \ \text{p}\ \ \ }\text{B}\xrightarrow{\ \ \ \text{q}\ \ \ }\text{C}\xrightarrow{\ \ \ \text{r}\ \ \ }\text{D}$
A mutant organism failed to survive on this medium, but grew well when nutrient B was added to it.
- Which gene of this mutant organism is defective?
- What does such a condition indicate of ?
- Mention the major components and their functions in an operon.
- Indicate the value expressed in this sequence of reactions.
Answer the following questions:
Write the specific location and the functions of the following cells in human males:
Write the specific location and the functions of the following cells in human males:
- Leydig cells.
- Sertoli cells.
- Primary spermatocyte.