Team:Groningen/For the parents

From 2010.igem.org

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Unlike conventional engineering, bioengineering has always lacked the predictability and reliability that lie at the heart of mechanical design. Designing a machine for a special task might be a challenging task but the interaction of the used components such as screws, gears, heaters, motors, switches etc. is not afflicted by unforeseeable events. In biology the interactions of components is only predictable by models and not by the underlying physical forces. Hence most biological designs can not be planed in theory and later adapted, they have to be developed by a trial and error system which takes up a lot of time and resources. Igem is creating a library of biological devices called biobricks which interact in a predictable manner and can be combined to execute certain tasks. This allows bioengineers to plan biological machines combining parts that do not interact naturally and predict their behavior. The biobricks are like instructions which can be combined to chains which will be executed by the cell which they inhabit. This is not unlike a computer program.  
Unlike conventional engineering, bioengineering has always lacked the predictability and reliability that lie at the heart of mechanical design. Designing a machine for a special task might be a challenging task but the interaction of the used components such as screws, gears, heaters, motors, switches etc. is not afflicted by unforeseeable events. In biology the interactions of components is only predictable by models and not by the underlying physical forces. Hence most biological designs can not be planed in theory and later adapted, they have to be developed by a trial and error system which takes up a lot of time and resources. Igem is creating a library of biological devices called biobricks which interact in a predictable manner and can be combined to execute certain tasks. This allows bioengineers to plan biological machines combining parts that do not interact naturally and predict their behavior. The biobricks are like instructions which can be combined to chains which will be executed by the cell which they inhabit. This is not unlike a computer program.  
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[http://partsregistry.org/images/IconBars/PRET.jpg]
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[[image:http://partsregistry.org/images/IconBars/PRET.jpg]]
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The picture above represents such a program, the green arrow is a promoter, promoters are either turned on or off, each promoter is on or off due to certain conditions, lets say this one is on when the cell it inhabits is surrounded by a lot of salt. The green dot is a ribosome binding site (RBS), it is needed to assure the following command is executed, different RBS have different strenghts. The light bulb represents a reporter gene, these are instructions for the cell to build a protein which is visible or measurable. Lets say this one is a red pigment. The red dot at the end is a terminator sequence it marks the end of the command chain. If this sequence would be inserted in a cell, this cell would turn red when it is placed in a salty environement.
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The picture above represents such a program, the green arrow is a promoter, promoters are either turned on or off, each promoter is on or off due to certain conditions, lets say this one is on when the cell it inhabits is surrounded by a lot of salt. The green dot is a ribosome binding site (RBS), it is needed to assure the following command is executed, different RBS have different strengths. The light bulb represents a reporter gene, these are instructions for the cell to build a protein which is visible or measurable. Lets say this one is a red pigment. The red dot at the end is a terminator sequence it marks the end of the command chain. If this sequence would be inserted in a cell, this cell would turn red when it is placed in a salty environment.

Revision as of 02:19, 27 October 2010

Unlike conventional engineering, bioengineering has always lacked the predictability and reliability that lie at the heart of mechanical design. Designing a machine for a special task might be a challenging task but the interaction of the used components such as screws, gears, heaters, motors, switches etc. is not afflicted by unforeseeable events. In biology the interactions of components is only predictable by models and not by the underlying physical forces. Hence most biological designs can not be planed in theory and later adapted, they have to be developed by a trial and error system which takes up a lot of time and resources. Igem is creating a library of biological devices called biobricks which interact in a predictable manner and can be combined to execute certain tasks. This allows bioengineers to plan biological machines combining parts that do not interact naturally and predict their behavior. The biobricks are like instructions which can be combined to chains which will be executed by the cell which they inhabit. This is not unlike a computer program.

File:Http://partsregistry.org/images/IconBars/PRET.jpg

The picture above represents such a program, the green arrow is a promoter, promoters are either turned on or off, each promoter is on or off due to certain conditions, lets say this one is on when the cell it inhabits is surrounded by a lot of salt. The green dot is a ribosome binding site (RBS), it is needed to assure the following command is executed, different RBS have different strengths. The light bulb represents a reporter gene, these are instructions for the cell to build a protein which is visible or measurable. Lets say this one is a red pigment. The red dot at the end is a terminator sequence it marks the end of the command chain. If this sequence would be inserted in a cell, this cell would turn red when it is placed in a salty environment.