Team:Hong Kong HKUST/Project main page v4

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<p>Cheeks are fleshy in humans and other mammals, the skin being suspended by the chin and the jaws, and forming the lateral wall of the human mouth,
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<p><i>Streptococcus pneumoniae</i> is responsible for approximately 1.6 million deaths every year mostly in developing countries where vaccination
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visibly touching the cheekbone below the eye. Some animals such as squirrels and hamsters use the buccal pouch to carry food or other items.In vertebrates,  
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is unaffordable. To provide an affordable solution to combat pneumococcal diseases, we are engineering an <i>E. coli</i> “Pneumosensor”, that will
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markings on the cheek area (malar stripes/spots/...), particularly immediately beneath the eye, often serve as important distinguishing features between
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work inside an in vitro diagnostic device. Through this cheaper and easier diagnosis method, people can prepare themselves better against the  
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species or individuals.The inside of the cheek is lined with a mucous membrane (buccal mucosa, part of the oral mucosa). The cheeks are covered externally
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transmission and adversity of <i>S. Pneumoniae</i>. Pneumosensor has a rewired comCDE signal transduction pathway native to <i>S. pneumoniae</i> that detects
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by hairy skin, and internally by stratified squamous epithelium. This is mostly smooth, but may have aborally directed papillae (e.g.: ruminants).
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autoinducer molecules released specifically by <i>S. pneumoniae</i>. It is also equipped with a new promoter for the specific and tight regulation of
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The mucosa is supplied with secretions from the Buccal glands, which are arranged in superior and inferior groups.
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target gene expression in <i>E. coli</i>. In addition, the team is documenting and characterizing existing CR-TA riboregulators for post-transcriptional
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In carnivores, the superior buccal gland is large and discrete: the Zygomatic gland. During mastication (chewing), the cheeks and tongue between them serve
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regulation of gene expression. Our work will help other iGEM teams more effectively incorporate this tuning tool into their project design.</p>
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to keep the food between the teeth.
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Revision as of 07:32, 10 September 2014


Main Project Abstract

Fig 1 . Here is the potato.
Here is the description of the potato: it is a potato!

Streptococcus pneumoniae is responsible for approximately 1.6 million deaths every year mostly in developing countries where vaccination is unaffordable. To provide an affordable solution to combat pneumococcal diseases, we are engineering an E. coli “Pneumosensor”, that will work inside an in vitro diagnostic device. Through this cheaper and easier diagnosis method, people can prepare themselves better against the transmission and adversity of S. Pneumoniae. Pneumosensor has a rewired comCDE signal transduction pathway native to S. pneumoniae that detects autoinducer molecules released specifically by S. pneumoniae. It is also equipped with a new promoter for the specific and tight regulation of target gene expression in E. coli. In addition, the team is documenting and characterizing existing CR-TA riboregulators for post-transcriptional regulation of gene expression. Our work will help other iGEM teams more effectively incorporate this tuning tool into their project design.


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