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Molecular Basis of Inheritance

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Class 12 Biology Chapter 5
Molecular Basis of Inheritance
Important Questions

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Explore critical questions related to Chapter 5 on the Molecular Basis of Inheritance for Class 12 Biology. These carefully crafted queries aim to aid students in preparing for the CBSE Class 12 Biology Examination 2024–25. Engaging with a variety of question formats will empower students to address uncertainties, ensuring thorough readiness for the upcoming exams. Tackling these questions not only boosts confidence but also sharpens problem-solving skills. Elevate your understanding of the molecular mechanisms governing inheritance with these essential important questions of chapter molecular basis of inheritance, covering both vital and most important aspects of the topic.

Introduction

The Molecular Basis of Inheritance is a pivotal aspect of biology that unravels the genetic code governing the transfer of traits from one generation to the next. In the context of Class 12 studies, delving into this chapter opens a portal to understanding the intricate molecular processes that underlie the inheritance of genetic information. From the structure and functions of DNA to the mechanisms of gene expression, this exploration provides a comprehensive overview of the molecular intricacies of heredity. This introduction sets the stage for exploring the Molecular Basis of Inheritance class 12 questions and answers, focusing on important questions of chapter molecular basis of inheritance, and delving into the broader spectrum of crucial inquiries that define this academic journey.

What is the Molecular Basis of Inheritance?

The Molecular Basis of Inheritance delves into the cellular and molecular mechanisms that govern the transmission of genetic information from one generation to the next. At its core, it involves the study of DNA, RNA, and the intricate processes of replication, transcription, and translation. Understanding the molecular basis of inheritance is crucial for unravelling how genetic traits are inherited, expressed, and regulated in living organisms. In the academic realm, exploring this chapter often involves engaging with class 12 questions and answers, with a focus on class 12 important questions to ensure a comprehensive grasp of this intricate subject.

Class 12 Molecular Basis of Inheritance Important Questions and Answers

Q1. Which concept of Charles Darwin is illustrated by the phrase 'Survival of the Fittest'?
Options
(a) Use and disuse of organs
(b) Inheritance of acquired traits
(c) Natural selection
(d) Genetic drift

Ans. (c) Natural selection
Explanation:
The phase 'Survival of the Fittest' summarises the mechanism of natural selection, a concept introduced by Charles Darwin. It refers to the process where individuals with traits that are better suited to their environment have higher survival and reproductive rates, allowing these beneficial traits to be passed onto future generations.

Q2. Which of the following is an example of a homologous structure?
Options
(a) Wings of birds and insects
(b) Flippers of dolphins and legs of humans
(c) Thorns of Bougainvillea and tendrils of Cucurbita
(d) Forelimbs of humans and wings of bats

Ans. (d) Forelimbs of humans and wings of bats

Explanation:
Homologous structures are anatomical features in different species that share a similar structure but may have different functions, indicating common ancestry. The forelimbs of humans and wings of bats exemplify this, as they are structurally similar yet serve different purposes.

Q3. What is adaptive radiation?

Explanation:
Adaptive radiation is an evolutionary process in which organisms rapidly diversify into a variety of new forms, especially in response to environmental changes that introduce new resources or challenges. This phenomenon typically occurs when a species colonises a new habitat with minimal competition. A classic example is Darwin's finches in the Galapagos Islands, where the finches evolved into distinct species with different beak shapes to adapt to various food sources.

Q4. Explain genetic drift and its significance in evolution.

Explanation:
Genetic drift is a mechanism of evolution characterised by random changes in allele frequencies within a population over time. It is particularly significant in small populations, where chance events can lead to substantial changes in the gene pool. This random shift can result in the loss of certain alleles, reducing genetic variation within the population. Consequently, diminished genetic diversity may impact the population's ability to adapt to environmental changes and can increase the risk of extinction.

Q5. Discuss the concept of the origin of life on Earth, including the experiment by Miller and Urey.

Explanation:
The origin of life on Earth is a fundamental question in biology. The widely accepted hypothesis is that life originated through a gradual chemical evolution of non-living organic molecules.

  • Primordial Soup Theory: This theory suggests that life began in a "primordial soup" of organic molecules, in the early oceans of Earth, under a reducing atmosphere.
  • Miller-Urey Experiment: In 1953, Stanley Miller and Harold Urey conducted an experiment to test this hypothesis. They created a closed environment simulating the Earth's early atmosphere, which they believed was rich in methane, ammonia, hydrogen, and water vapour. They exposed this mixture to electric sparks to mimic lightning, a common occurrence on early Earth. After a week, they found that several organic compounds, including amino acids (the building blocks of proteins), had formed spontaneously.
  • Significance: The Miller-Urey experiment provided the first evidence that organic molecules necessary for life could be synthesised from inorganic precursors under conditions thought to resemble those of early Earth. It suggested a possible pathway for the chemical evolution of life.
  • Further Developments: Since then, further research has proposed that life's building blocks could also have originated in other environments, such as hydrothermal vents on the ocean floor. The exact process of how these molecules formed the first living cells remains a topic of research and debate, illustrating the complexity of life's origins.

This experiment and subsequent research into the origin of life highlights the significance of chemical processes in the early Earth environment in the development of life.

CBSE Class 12 Biology Chapter wise Important Questions

Conclusion

The exploration of the Molecular Basis of Inheritance unfolds the intricacies of genetic information transfer, from the structure of DNA to the central processes of replication, transcription, and translation.For students navigating this crucial field, platforms like Oswal.io offer a rich collection of questions and materials. These resources extend beyond theoretical knowledge, offering practical insights and a deeper understanding of the important questions of chapter molecular basis of inheritance.

Frequently Asked Questions

Ans: The Molecular Basis of Inheritance refers to the cellular and molecular mechanisms governing the transmission of genetic information from one generation to the next. It involves the study of DNA, RNA, and the intricate processes of replication, transcription, and translation.
Ans: DNA replication is a critical process in the Molecular Basis of Inheritance as it ensures the accurate transmission of genetic information during cell division. Each strand of the original DNA molecule serves as a template for the synthesis of a new complementary strand, maintaining genetic fidelity.
Ans: The central dogma of molecular biology outlines the sequential processes of DNA replication, transcription (RNA synthesis), and translation (protein synthesis). It elucidates how genetic information flows from DNA to RNA to protein, defining the core processes in the Molecular Basis of Inheritance.
Ans: RNA plays a crucial role in protein synthesis within the Molecular Basis of Inheritance. During transcription, RNA is synthesised from a DNA template, and the resulting messenger RNA (mRNA) carries genetic information to the ribosomes. In translation, ribosomes read the mRNA sequence to assemble amino acids into a polypeptide chain, forming a protein.
Ans: The Molecular Basis of Inheritance provides insights into how genetic traits are inherited and expressed. Understanding the structure of DNA, the processes of replication, transcription, and translation, and the role of RNA allows us to unravel the molecular underpinnings of heredity and genetic diversity.
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