Home
Class 12
BIOLOGY
Explain the application of rDNA technolo...

Explain the application of rDNA technology to produce insulin.

Text Solution

AI Generated Solution

### Step-by-Step Solution for the Application of rDNA Technology to Produce Insulin 1. **Understanding rDNA Technology**: - rDNA technology, or recombinant DNA technology, involves combining DNA from different sources. This technology allows scientists to insert a gene of interest (in this case, the insulin gene) into a host organism to produce a desired product. **Hint**: Remember that rDNA stands for recombinant DNA, which is formed by combining DNA from different organisms. 2. **Identifying the Source of Insulin**: ...
Promotional Banner

Topper's Solved these Questions

  • XII BOARDS

    XII BOARD PREVIOUS YEAR PAPER ENGLISH|Exercise SET-II Section A|2 Videos

  • XII BOARDS

    XII BOARD PREVIOUS YEAR PAPER ENGLISH|Exercise SET-II Section B|1 Videos

  • XII BOARDS

    XII BOARD PREVIOUS YEAR PAPER ENGLISH|Exercise SET-I Section D|1 Videos

  • SAMPLE PAPER 2019

    XII BOARD PREVIOUS YEAR PAPER ENGLISH|Exercise Section E Part B|3 Videos

Similar Questions

Explore conceptually related problems

Explain the application of biotechnology in producing Bt cotton.

rDNA is

Insulin is

Insulin is

Give four applications of recombinant DNA technology.

In which of the following years and companies prepared two DNA sequences corresponding to A and B chains of human insulin and introduced them in plasmids of E.coli to produce insulin chains

Eli Lily an American company prepared two DNA sequence corresponing to A and B, chains of human insulin and introduced them in plasmids of E.coil to produce insulin chains. These chains A and B were

Eli Lilly, an American company, prepared two DNA sequences corresponding to A and B chains of human insulin and introduced them in the plasmids of E.coli to produce insulin chains. Chains A and B were produced separately, extracted, and combined by creating

Eli Lilly, an American company prepared two DNA sequences corresponding to A and B, chains of human insulin, and introduced them in plasmids of E. Coli to produce insulin chains. Chains A and B were produced separately, extracted and combined by creating

Assertion: Humulin is more effective than the insulin produced by conventional methods. Reason: Humulin is absorbed rapidly in the blood than the conventionally produced insulin.