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Contents
- 1 Microbial Symphony
- 2 1.1</h3> By transforming these cells with our own synthetic genes, we can produce proteins of interest. This is the foundational goal of biomanufacturing. <img src="/images/landing_page/Plasmid-Gallery.svg"> </div> </section> <section class="scroll-action"> 1. Background
- 3 2. Constitutive Expression
- 4 3. Inducible Expression
Microbial Symphony
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1.1</h3>
By transforming these cells with our own synthetic genes, we can produce proteins of interest. This is the foundational goal of biomanufacturing.
<img src="/images/landing_page/Plasmid-Gallery.svg">
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1. Background
These are normal Escheri coli cells. Given nutrients and space, they will grow, producing various proteins.
Strain: Unmodified E. coli
Division Time: 1 hour
Yield: N/A
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<h2>1.2</h2>
An important component of these genes is their promoter, which determines how and when they are expressed. There are two common ways genes are induced in biomanufacturing; constitutive and inducible expression.
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2.1 Constitutive Expression
Constitutive promoters result in constant expression. The primary benefit of this "system" is its inherent simplicity - expression will occur with no intervention. A cell will always be producing the protein of interest, from its first division to its last.
Very little protein of interest is produced because the colony isn't given the chance to mature - so many of the cells' resources are committed towards producing the protein that the colony's growth rate is reduced.
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2. Constitutive Expression
These E. coli have been modified with a constitutively promoted gene of interest.
Strain: E. coli with constitutive expression
Division Time: 3 hours
Yield: Low
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While this is appropriate for experimentation, when optimizing for biomanufacturing, constitutive promoters begin to show their flaws.
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3.1 Inducible Expression
Inducible promoters are an improvement over constitutive expression because they give the manufacturer a degree of control over the gene.
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3. Inducible Expression
These E. coli have been modified with an artificially inducible gene of interest.
Strain: Inducible E. coli
Division Time: 1 hours
Yield: High
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These promoters will only express the protein of interest in the presence of some inducer - such as the artificial inducer IPTG - is added to the culture or bioreactor.
<button class="inducible_button">Add some IPTG</button>
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1. Background
These are normal Escheri coli cells. Given nutrients and space, they will grow, producing various proteins.
Strain: Unmodified E. coli
Division Time: 1 hour
Yield: N/A
<h2>1.2</h2>
An important component of these genes is their promoter, which determines how and when they are expressed. There are two common ways genes are induced in biomanufacturing; constitutive and inducible expression.
2.1 Constitutive Expression
Constitutive promoters result in constant expression. The primary benefit of this "system" is its inherent simplicity - expression will occur with no intervention. A cell will always be producing the protein of interest, from its first division to its last.
Very little protein of interest is produced because the colony isn't given the chance to mature - so many of the cells' resources are committed towards producing the protein that the colony's growth rate is reduced.
2. Constitutive Expression
These E. coli have been modified with a constitutively promoted gene of interest.
Strain: E. coli with constitutive expression
Division Time: 3 hours
Yield: Low
While this is appropriate for experimentation, when optimizing for biomanufacturing, constitutive promoters begin to show their flaws.
3.1 Inducible Expression
Inducible promoters are an improvement over constitutive expression because they give the manufacturer a degree of control over the gene.
3. Inducible Expression
These E. coli have been modified with an artificially inducible gene of interest.
Strain: Inducible E. coli
Division Time: 1 hours
Yield: High
These promoters will only express the protein of interest in the presence of some inducer - such as the artificial inducer IPTG - is added to the culture or bioreactor.
<button class="inducible_button">Add some IPTG</button>