NEET Exam  >  NEET Tests  >  Test: Pre-Fertilization Events & Double Fertilization (October 20) - NEET MCQ

Test: Pre-Fertilization Events & Double Fertilization (October 20) - NEET MCQ


Test Description

10 Questions MCQ Test - Test: Pre-Fertilization Events & Double Fertilization (October 20)

Test: Pre-Fertilization Events & Double Fertilization (October 20) for NEET 2024 is part of NEET preparation. The Test: Pre-Fertilization Events & Double Fertilization (October 20) questions and answers have been prepared according to the NEET exam syllabus.The Test: Pre-Fertilization Events & Double Fertilization (October 20) MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Pre-Fertilization Events & Double Fertilization (October 20) below.
Solutions of Test: Pre-Fertilization Events & Double Fertilization (October 20) questions in English are available as part of our course for NEET & Test: Pre-Fertilization Events & Double Fertilization (October 20) solutions in Hindi for NEET course. Download more important topics, notes, lectures and mock test series for NEET Exam by signing up for free. Attempt Test: Pre-Fertilization Events & Double Fertilization (October 20) | 10 questions in 10 minutes | Mock test for NEET preparation | Free important questions MCQ to study for NEET Exam | Download free PDF with solutions
Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 1

Starting from the innermost part, the correct sequence of parts in an ovule are:

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 1

Starting from the innermost part, the correct sequence of parts in an ovule is egg, Embryosac,  nucellus, integument. This sequence can be seen in following
Draw a neat labelled diagram of a mature anatropous ovule before  fertilization.
  A diagrammatic view of an ovule 

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 2

Match the terms on the Column I with their corresponding descriptions Column II:

Column I

A. Monocarpellary
B. Syncarpous
C. Micropyle

Column II

1. Refers to the condition where pistils are fused together.
2. Refers to the condition where gynoecium consists a single pistil.
3. The small opening in the ovule through which pollen tubes enter.

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 2

A. Monocarpellary:
- This term refers to the condition where the gynoecium (the female parts of a flower) consists of a single pistil.
- A pistil is a single or fused carpel, and the carpel is the individual unit of the gynoecium.
- In a monocarpellary flower, there is only one carpel, meaning there is only one ovule-producing organ.
- Hence, option A (Monocarpellary) matches with 2 (Refers to the condition where gynoecium consists a single pistil).
B. Syncarpous:
- This term is used to describe the condition where multiple pistils are fused together.
- The pistils could be completely fused, or they could maintain separate ovaries but share a common style or stigma.
- This condition is often found in flowers that are highly evolved, as it allows for more efficient pollination and fertilization.
- Therefore, option B (Syncarpous) matches with 1 (Refers to the condition where pistils are fused together).
C. Micropyle:
- Micropyle is a small opening in the ovule of a seed plant.
- It's through this opening that the pollen tube enters during fertilization.
- The micropyle allows for the sperm cells carried within the pollen tube to reach the ovule and fertilize it, leading to the formation of a seed.
- As a result, option C (Micropyle) matches with 3 (The small opening in the ovule through which pollen tubes enter).

So, the correct matching is: A - 2, B - 1, C - 3. Therefore, the answer is D.

1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 3

Assertion: In monosporic development, all four megaspores produced from the megaspore mother cell (MMC) do not contribute to the formation of the female gametophyte.

Reason: Monosporic development results in the formation of four functional megaspores.

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 3

Explanation: In monosporic development, only one megaspore out of the four produced from the megaspore mother cell (MMC) develops into the female gametophyte. The other three megaspores typically degenerate. Therefore, the assertion is correct. However, the reason is incorrect as it states that all four megaspores become functional, which is not the case in monosporic development.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 4

The female gametophyte in angiosperm is:

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 4

Embryo sac: The female gametophyte of flowering plants, which produces the two female gametes – the egg cell and central cell – for double-fertilization by the two sperm cells of the male gametophyte (pollen grain).
Draw a labelled diagram of the mature embryo sac of angiosperms.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 5

Sporopollenin an organic material is present in:

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 5
  • The exine of the pollen grain is made of sporopollenin. Sporopollenin is one of the most resistant organic compounds.
  • It can withstand high temperature, strong acids, and alkalis and cannot be degraded by any of the known enzymes.
  • Hence, it acts as a shield and protects the pollen grain from getting damaged.

Structure of pollen grain:

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 6

Why is the bilobed nature of an anther distinct in a transverse section?

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 6

The bilobed nature of an anther is distinct in a transverse section due to the presence of microsporangia located at the corners of each lobe.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 7

Embryo sac represents: 

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 7
  • Megaspores are produced by meiosis in the megaspore mother cells. Megaspore then develops into a female gametophyte or embryo sac.
  • Megagametophyte or the female gametophyte is the embryo sac that develops from the megaspore through megagametogenesis.
  • Megasporangium is a structure that along with its protective coverings forms the ovule.
  • The female gamete is the egg cell which upon fusion with the male gamete forms a diploid zygote.

Hence, embryo sac represents megagametophyte.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 8

Male gametes in angiosperms are formed by the division of:

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 8

Generative cell which is a cell of the male gemetophyte or pollen grain in seed plants that divides to give rise directly or indirectly two male gametes.

Additional information:

  • Each pollen grain contains vegetative or non-reproductive cells and a generative cell or reproductive cell.
  • In flowering plants, the vegetative tube cell produces the pollen tube, and then the generative cell divides to produce two sperm cells or male gametes.
  • Pollens present in these microsporangia. The microsporangia are also called pollen sac.
  • It is also said that the pollen sac develops from a parent cell called the archesporial cell.
  • The archesporial cell is divided into the outer and inner layers.
  • The inner layer produces the sporogenous tissue which eventually forms the pollen mother cell.
  • This sporogenous tissue is surrounded by the tapetum layer which provides nourishment to the pollen or microspore mother cell present within the sporogenous tissue.
  • The microspore mother cell is diploid and divides meiotically to make haploid microspores of pollen. This describes the method of microsporogenesis.

So, the right answer is option D that is Generative cell.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 9

Filiform apparatus is a characteristic feature of:

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 9

A synergid cell wall forms a highly thickened structure called the filiform apparatus at the micropylar end consisting of numerous finger-like projections into synergid cytoplasm. These synergid cells are necessary for pollen tube guidance in the ovule.

Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 10

What is the function of germ pore?

Detailed Solution for Test: Pre-Fertilization Events & Double Fertilization (October 20) - Question 10

First we should know about germ pore to answer this question.

  • A germ pore is a tiny pore in a fungal spore’s outer wall. It can be apical or eccentric in its position, and can be visualised as a lighter coloured region on the cell wall on light microscopy. The mushroom spore that has a pore at one end is the apical germ pore.

Now, let us find the solution from the options:

  • A germ pore is a small pore in the outer wall of the fungal pore from which the germ tube comes out.
  • Water is absorbed by the embryo in the seed germination process, which results in the cells being rehydrated and extended. Thus, the option A is incorrect.
  • The root of a number is a radical, which may be square roots, cube roots, and so on. A radical is sometimes considered a square root. Any function identified by a root is a radical function. Thus, the option C is incorrect.
  • The germ pore plays an important function in plant fertilization. It assists in the creation of pollen tube and releases male gametes during fertilisation.

Thus, the correct answer is option ‘D’ Initiation of pollen tube.

Information about Test: Pre-Fertilization Events & Double Fertilization (October 20) Page
In this test you can find the Exam questions for Test: Pre-Fertilization Events & Double Fertilization (October 20) solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Pre-Fertilization Events & Double Fertilization (October 20), EduRev gives you an ample number of Online tests for practice

Top Courses for NEET

Download as PDF

Top Courses for NEET