Team:Buenos Aires/ device

From 2013.igem.org

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(The Device)
(The Device)
 
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= The Device =
= The Device =
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We developed a physical design that meets our fundamental requirements:
 
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• easy to use
 
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• cheap
 
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• safe
 
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The physical design of our device consists of a plastic support in which we will deliver the bacteria lyophilized. It will contain four different wells of bacteria: three wells will work as a standard pattern, each of them containing different amounts of arsenite physically isolated from bacteria, and a fourth well (the testing well) that will be used for sample measurement.
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We developed a physical design that meets our '''fundamental requirements''':
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The usage of the device consists of:
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'''• Easy to use'''
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• Collecting a sample of ground water.  
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• Adding the sample to the testing well and distilled water (provided with the device) to the standard pattern wells at the same time. As distilled water is added, arsenite in the standard wells dissolves and gets in contact with bacteria. At the same time, bacteria are recovered from the lyophilized state by the water added.
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'''• Cheap'''
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• Incubate for some hours, until colour differences are appreciable.
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After usage, the whole kit should be introduced in a bleach solution and disposed.
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'''• Safe'''
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The physical design of our device consists of a plastic support in which we will deliver the bacteria lyophilized. Bacteria wells will be sealed to avoid accidental release. It will contain four different wells of bacteria: three wells will work as a standard pattern, each of them containing different amounts of arsenite physically isolated from bacteria, and a fourth well (the testing well) that will be used for sample measurement.
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The '''use''' of the device consists of five simple steps:
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'''• Collecting a sample''' of groundwater.
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'''• Adding the sample to the testing well and distilled water (provided with the device) to the standard pattern wells at the same time.''' As distilled water is added, arsenite in the standard wells dissolves and gets in contact with bacteria. At the same time, bacteria are recovered from the lyophilized state by the water added.
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'''• Incubate for some hours''', until colour differences are appreciable.
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'''Finally, the user will be able to know if the water tested is drinkable''', around the limit of arsenite allowed by the World Health Organisation or above it, by comparison with the standard pattern.
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'''• After usage, bacteria die''' as they enter in contact with a bleach solution that is contained in a capsule which is dissolved some hours after entering in contact with water.
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'''Physical devise Render:'''
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Finally, the user will be able to know if the water tested is drinkable, around the limit of arsenite allowed by the World Health Organisation or above it, by comparison with the standard pattern.
 
{| style="width:100%"
{| style="width:100%"
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|}
|}
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'''Animation'''
With a few simple steps, the measurement could be done, as stated in the next animation:
With a few simple steps, the measurement could be done, as stated in the next animation:
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==Safety and environment protection==
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The design of the final physical device will include a '''bleach reservoir to eliminate bacteria after usage''''. Besides, bacteria and arsenite will be sealed in the corresponding wells, thus preventing human contact. In addition, ''E. coli'' DH5-Alpha is an '''innocuous and auxotroph''' for thyamine strain.
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It is worth noting that the physical device can be manufactured using biodegradable materials thus ensuring enviromental care.
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Latest revision as of 02:04, 28 October 2013

The Device

We developed a physical design that meets our fundamental requirements:

• Easy to use

• Cheap

• Safe


The physical design of our device consists of a plastic support in which we will deliver the bacteria lyophilized. Bacteria wells will be sealed to avoid accidental release. It will contain four different wells of bacteria: three wells will work as a standard pattern, each of them containing different amounts of arsenite physically isolated from bacteria, and a fourth well (the testing well) that will be used for sample measurement.


The use of the device consists of five simple steps:

• Collecting a sample of groundwater.

• Adding the sample to the testing well and distilled water (provided with the device) to the standard pattern wells at the same time. As distilled water is added, arsenite in the standard wells dissolves and gets in contact with bacteria. At the same time, bacteria are recovered from the lyophilized state by the water added.

• Incubate for some hours, until colour differences are appreciable.

• Finally, the user will be able to know if the water tested is drinkable, around the limit of arsenite allowed by the World Health Organisation or above it, by comparison with the standard pattern.

• After usage, bacteria die as they enter in contact with a bleach solution that is contained in a capsule which is dissolved some hours after entering in contact with water.


Physical devise Render:


Stepbystep.jpg

Animation

With a few simple steps, the measurement could be done, as stated in the next animation:


Safety and environment protection

The design of the final physical device will include a bleach reservoir to eliminate bacteria after usage'. Besides, bacteria and arsenite will be sealed in the corresponding wells, thus preventing human contact. In addition, E. coli DH5-Alpha is an innocuous and auxotroph for thyamine strain. It is worth noting that the physical device can be manufactured using biodegradable materials thus ensuring enviromental care.