Team:Imperial College London/M1
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We have chosen two enzymes to showcase <b><i>The E.ncapsulator</i></b>'s protein production module.<br> | We have chosen two enzymes to showcase <b><i>The E.ncapsulator</i></b>'s protein production module.<br> | ||
These are:<br> | These are:<br> | ||
- | *Cellulase - an enzyme that breaks down the tough fibrous molecule cellulose into cellobiose. | + | *Cellulase - an enzyme that breaks down the tough fibrous molecule cellulose into cellobiose. Cellulose is not digested by the human body and is commonly referred to as dietary fibre. Cellulose is made up of repeating units of glucose molecules, and as such, is a large store of energy. Also, cellulose |
- | *Phenylalanine | + | *Phenylalanine Hydroxylase - an enzyme that breaks down the amino acid phenylalanine into tyrosine. A deficiency or defective PAH enzyme results in a condition called phenylketonuria. This enzyme deficiency results in the accumulation of phenylalanine in the blood, which can result in serious problems such as seizures and mental retardation. By using <b><i>The E.ncapsulator</i></b>'s unique drug delivery mechanism, we hope that by delivering PAH into the small intestine, we can relieve people of this condition.<br><br> |
- | <b>Module 1</b> is chemically induced by the addition of IPTG. After sufficient amount of protein of interest has been produced, autoinduction occurs and encapsulation will start. | + | The delivery and production of short chain peptides is a different challenge altogether. All peptides when synthesised always start with the amino acid methionine. If synthesised directly, this can mean that the peptide no longer has the same bioactivity. The body naturally has a mechanism by which larger polypeptides are degraded into smaller functional peptides. Using this mechanism, we have designed a universal adapter for short chain peptide production and delivery, by which any peptide can be produced and delivered to the gut. |
+ | To demonstrate this, we have chosen to showcase a short chain peptide, opiorphin: | ||
+ | *Opiorphin - is a small pentapeptide (5 amino acids) that is naturally produced by the body, and plays a role in pain relief and as an anti depressant. By delivering | ||
+ | b>Module 1</b> is chemically induced by the addition of IPTG. After sufficient amount of protein of interest has been produced, autoinduction occurs and encapsulation will start. | ||
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Revision as of 12:38, 15 October 2009
Contents |
Module 1: Protein Production
Overview
The E.ncapsulator has been designed to produce and deliver polypeptides (amino acid polymers) to the intestine. Module 1 encompasses the polypeptide production phase. During this period, our polypeptide of interest is synthesised at a rate sufficient to faciliate its accumulation inside the cell.
To demonstrate The E.ncapsulator's versatility, we have chosen to showcase it with both enzymes and peptides. These two classes of polypeptide have very different properties that we have considered and catered for in The E.ncapsulator's design.
About the difference between enzymes and peptides.
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We have chosen two enzymes to showcase The E.ncapsulator's protein production module.
These are:
- Cellulase - an enzyme that breaks down the tough fibrous molecule cellulose into cellobiose. Cellulose is not digested by the human body and is commonly referred to as dietary fibre. Cellulose is made up of repeating units of glucose molecules, and as such, is a large store of energy. Also, cellulose
- Phenylalanine Hydroxylase - an enzyme that breaks down the amino acid phenylalanine into tyrosine. A deficiency or defective PAH enzyme results in a condition called phenylketonuria. This enzyme deficiency results in the accumulation of phenylalanine in the blood, which can result in serious problems such as seizures and mental retardation. By using The E.ncapsulator's unique drug delivery mechanism, we hope that by delivering PAH into the small intestine, we can relieve people of this condition.
The delivery and production of short chain peptides is a different challenge altogether. All peptides when synthesised always start with the amino acid methionine. If synthesised directly, this can mean that the peptide no longer has the same bioactivity. The body naturally has a mechanism by which larger polypeptides are degraded into smaller functional peptides. Using this mechanism, we have designed a universal adapter for short chain peptide production and delivery, by which any peptide can be produced and delivered to the gut. To demonstrate this, we have chosen to showcase a short chain peptide, opiorphin:
- Opiorphin - is a small pentapeptide (5 amino acids) that is naturally produced by the body, and plays a role in pain relief and as an anti depressant. By delivering
b>Module 1</b> is chemically induced by the addition of IPTG. After sufficient amount of protein of interest has been produced, autoinduction occurs and encapsulation will start.