SSCE VCE Biology Nucleic Acids and Protein Synthesis: The path to human insulin

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Question

The path to human insulin

In the 1970s, recombinant deoxyribonucleic acid methods for cloning and expressing genes in the bacteria *Escherichia coli* were under intense development. An important question that arose at the time was: Can humans design and chemically synthesise genes that function in bacteria? This question was answered in the late 1970s with the successful expression of human insulin using *E. coli*. For the first time, this provided a practical source of recombinant human insulin for the treatment of diabetes. Prior to this, insulin was isolated from either cows or pigs.

When recombinant human insulin was first developed, researchers had knowledge of the amino acid sequence and the structure of insulin. Researchers investigated cloning the human insulin gene using plasmids found in *E. coli*. They knew of the presence of an EcoRI recognition site (GAATTC) within these plasmids.

When research began, the safety of recombinant plasmids was being actively discussed. Safety regulations were put in place to identify, evaluate, minimise and manage the risks involved. Researchers tested the first recombinant human insulin in cell cultures in the laboratory and in live animals. This was followed by clinical trials where information was gained about the effectiveness and side effects of using this insulin to treat diabetes.

The first recombinant human insulin that was produced and tested established that the use of recombinant plasmids was successful. Facilities were built for recombinant plasmid research and the commercial production of recombinant human insulin. One of its first researchers, Arthur Riggs, stated, 'It is interesting to think about human progress has been since the [1970s]. For example, in 2020, the design for insulin can be made in a few hours by students, then cloned and expressed by a single person in about a week'.

**a.** What is meant by recombinant deoxyribonucleic acid in the context of this article?

**b.** The article states that the researchers knew the structure of insulin and the amino acid sequence before they created recombinant human insulin in the laboratory. How might the researchers have used this information to genetically engineer a human insulin gene from human DNA? **

**c.** Outline the steps that show how researchers clone and express the gene in bacteria.

The path to human insulin In the 1970s, recombinant deoxyribonucleic acid methods for cloning and expressing genes in the bacteria Escherichia coli were under intense development - VCE - SSCE Biology - Question 10 - 2021 - Paper 1

Worked Solution & Example Answer:The path to human insulin In the 1970s, recombinant deoxyribonucleic acid methods for cloning and expressing genes in the bacteria Escherichia coli were under intense development - VCE - SSCE Biology - Question 10 - 2021 - Paper 1

What is meant by recombinant deoxyribonucleic acid in the context of this article?

The article states that the researchers knew the structure of insulin and the amino acid sequence before they created recombinant human insulin in the laboratory. How might the researchers have used this information to genetically engineer a human insulin gene from human DNA?

Outline the steps that show how researchers clone and express the gene in bacteria.

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The path to human insulin In the 1970s, recombinant deoxyribonucleic acid methods for cloning and expressing genes in the bacteria *Escherichia coli* were under intense development - VCE - SSCE Biology - Question 10 - 2021 - Paper 1

Worked Solution & Example Answer:The path to human insulin In the 1970s, recombinant deoxyribonucleic acid methods for cloning and expressing genes in the bacteria *Escherichia coli* were under intense development - VCE - SSCE Biology - Question 10 - 2021 - Paper 1