Biotechnology has several key applications:

• •Developing new medicines and vaccines (e.g., insulin).
• •Improving crop yields and pest resistance (e.g., GM crops).
• •Environmental cleanup using bioremediation.
• •Improving food production and preservation (e.g., enzymes in cheese making).
• •Early disease detection using DNA-based tests.

The legal framework includes the Environment Protection Act, 1986, the Biological Diversity Act, 2002, and guidelines for GM crops by the Genetic Engineering Appraisal Committee (GEAC). These laws ensure the safe and responsible use of biotechnology.

In the context of GM crops, biotechnology involves modifying the genetic material of plants to introduce desirable traits such as pest resistance or increased yield. This is often done using recombinant DNA technology to insert specific genes into the plant's genome. For example, a gene that produces a natural insecticide can be inserted into a crop plant, making it resistant to certain pests.

Challenges include:

• •Public concerns and misconceptions about the safety of GM crops.
• •Regulatory hurdles and delays in the approval process.
• •Lack of adequate infrastructure for research and development.
• •Ethical concerns related to genetic modification.
• •Ensuring equitable access to biotechnology benefits for small farmers.

Biotechnology has several key applications:

• •Developing new medicines and vaccines (e.g., insulin).
• •Improving crop yields and pest resistance (e.g., GM crops).
• •Environmental cleanup using bioremediation.
• •Improving food production and preservation (e.g., enzymes in cheese making).
• •Early disease detection using DNA-based tests.

The legal framework includes the Environment Protection Act, 1986, the Biological Diversity Act, 2002, and guidelines for GM crops by the Genetic Engineering Appraisal Committee (GEAC). These laws ensure the safe and responsible use of biotechnology.

In the context of GM crops, biotechnology involves modifying the genetic material of plants to introduce desirable traits such as pest resistance or increased yield. This is often done using recombinant DNA technology to insert specific genes into the plant's genome. For example, a gene that produces a natural insecticide can be inserted into a crop plant, making it resistant to certain pests.

Challenges include:

• •Public concerns and misconceptions about the safety of GM crops.
• •Regulatory hurdles and delays in the approval process.
• •Lack of adequate infrastructure for research and development.
• •Ethical concerns related to genetic modification.
• •Ensuring equitable access to biotechnology benefits for small farmers.