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Insulin production prof.a.k.saha

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Ananda Saha

The document discusses the production of human insulin in bacteria. It explains that insulin is normally produced in the pancreas but consists of chains that bacteria cannot separate. The document outlines a strategy to produce the insulin chains separately in E. coli by fusing each chain to bacterial genes, expressing the chains, then combining and refolding them into active insulin. It also describes transforming bacteria with a recombinant plasmid containing the human insulin genes and using fermentation to grow large quantities of the transformed bacteria for insulin production.

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Rajshahi University
Insulin Production Speaker: Ananda Kumar Saha Department of Zoology, R.U.
 Insulin is a hormone central regulating carbohydrate and fat metabolism in the body.  Insulin is secreted by the Islets of Langerhans of pancreas which catabolizes glucose in blood.  Insulin causes liver cells, muscle cells and fat tissue to take up glucose from the blood and store it as glycogen in the liver and muscle.
Insulin production prof.a.k.saha
Insulin production prof.a.k.saha
Insulin production prof.a.k.saha
 Insulin consists of two polypeptide chains, Chain A ( 21 amino acid long) and B ( 30 amino acid long). Its precursor is proinsulin which also contains two polypeptide chains, A and B, and is connected with a third peptide chain –C (35 amino acid long).
 In the Islets of Langerhans, insulin accumulates in secretary vesicles as a single polypeptide chain called proinsulin.  Before secretion into the bloodstream the third C chain of the proinsulin molecule is excised, leaving the A and B chains joined by disulphide bridges as the active insulin.  E. coli is not capable of removing the C chain.  There are several strategies for producing insulin from bacteria, but the most successful is to synthesize the A and B separetly and then join them together.
 The gene sequence of determining the A chain has been fused to the B-galactosidase gene (lac Z) of E.coli. The whole lac-Z- A chain fusion is cloned into pBR322. Bacteria with this plasmid synthesize B-galactosidase with the insulin A chain.  The B chain is produced in an identical manner.  After purification of the two chains they are mixed , oxidized and then reduced which allows the disulphide bridges to form and active insulin to be produced.
Insulin production prof.a.k.saha
preproinsulin proinsulin insulin
Insulin production prof.a.k.saha
Insulin production prof.a.k.saha
 The recombinant plasmid is inserted into the bacteria by the process of transformation.  The recombinant bacteria are sorted by growing them in the presence of an antibiotic. The bacteria which survive are the ones which have taken up the plasmid.  They are said to be transformed.
Human Insulin Production by Bacteria
Human Insulin Production by Bacteria
Mix the recombinant plasmid with bacteria. Human Insulin Production by Bacteria
A fermentor used to grow recombinant bacteria. One cell with the recombinant plasmid Human Insulin Production by Bacteria
The final steps are to collect the bacteria, break open the cells, and purify the insulin protein expressed from the recombinant human insulin gene. Human Insulin Production by Bacteria
Human Insulin Production by Bacteria
Insulin production prof.a.k.saha
Insulin production prof.a.k.saha

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Insulin production prof.a.k.saha

  • 2. Insulin Production Speaker: Ananda Kumar Saha Department of Zoology, R.U.
  • 3.  Insulin is a hormone central regulating carbohydrate and fat metabolism in the body.  Insulin is secreted by the Islets of Langerhans of pancreas which catabolizes glucose in blood.  Insulin causes liver cells, muscle cells and fat tissue to take up glucose from the blood and store it as glycogen in the liver and muscle.
  • 7.  Insulin consists of two polypeptide chains, Chain A ( 21 amino acid long) and B ( 30 amino acid long). Its precursor is proinsulin which also contains two polypeptide chains, A and B, and is connected with a third peptide chain –C (35 amino acid long).
  • 8.  In the Islets of Langerhans, insulin accumulates in secretary vesicles as a single polypeptide chain called proinsulin.  Before secretion into the bloodstream the third C chain of the proinsulin molecule is excised, leaving the A and B chains joined by disulphide bridges as the active insulin.  E. coli is not capable of removing the C chain.  There are several strategies for producing insulin from bacteria, but the most successful is to synthesize the A and B separetly and then join them together.
  • 9.  The gene sequence of determining the A chain has been fused to the B-galactosidase gene (lac Z) of E.coli. The whole lac-Z- A chain fusion is cloned into pBR322. Bacteria with this plasmid synthesize B-galactosidase with the insulin A chain.  The B chain is produced in an identical manner.  After purification of the two chains they are mixed , oxidized and then reduced which allows the disulphide bridges to form and active insulin to be produced.
  • 14.  The recombinant plasmid is inserted into the bacteria by the process of transformation.  The recombinant bacteria are sorted by growing them in the presence of an antibiotic. The bacteria which survive are the ones which have taken up the plasmid.  They are said to be transformed.
  • 17. Mix the recombinant plasmid with bacteria. Human Insulin Production by Bacteria
  • 18. A fermentor used to grow recombinant bacteria. One cell with the recombinant plasmid Human Insulin Production by Bacteria
  • 19. The final steps are to collect the bacteria, break open the cells, and purify the insulin protein expressed from the recombinant human insulin gene. Human Insulin Production by Bacteria