Team:Harvard/allergy/aboutallergy

From 2010.igem.org

(Difference between revisions)
 
(4 intermediate revisions not shown)
Line 1: Line 1:
-
{{harvard_css}}
 
{{harvard_allergy}}
{{harvard_allergy}}
 +
<html>
<html>
Line 7: Line 7:
<div id="maincontent">
<div id="maincontent">
<div id="abstract">
<div id="abstract">
-
<h1>about allergy</h1>
+
<h1>allergy: overview</h1>
-
<p> Allergy is an immune system disorder marked by hypersensitivity to allergens. Allergens are normally harmless and everyday substances, such as pollen or latex. But in persons with allergies towards a certain substance, contact can  cause immediate and rapid hypersensitivity, called allergic reactions. Allergic reactions range from relatively mild (itchy eyes, runny nose) to life threatening (asphyxiation, myocardial infarction).
+
-
 
+
<br>
<br>
-
<h2>causes</h2>
+
<h2>what is an allergy?</h2>
</br>
</br>
 +
<p> Allergy is an immune system disorder marked by hypersensitivity to normally harmless and everyday substances, such as pollen or latex. Contact with such allergens can cause an immediate and rapid reaction. Allergic reactions range from relatively mild (itchy eyes, runny nose) to life threatening (anaphylaxis).
 +
<p>Allergic reactions are caused by exposure to certain proteins that the body mistakenly marks as dangerous. This hypersensitivity can be inherited or developed. Exposure to certain allergens at a young age can increase the possibility of developing allergies later in life. Interestingly enough, insufficient exposure to bacteria and viruses that stimulate metabolic pathways of the immune system can also increase the likelihood of developing allergic disease.  </p>
<p>Allergic reactions are caused by exposure to certain proteins that the body mistakenly marks as dangerous. This hypersensitivity can be inherited or developed. Exposure to certain allergens at a young age can increase the possibility of developing allergies later in life. Interestingly enough, insufficient exposure to bacteria and viruses that stimulate metabolic pathways of the immune system can also increase the likelihood of developing allergic disease.  </p>
<br>
<br>
-
<h2>food allergies</h2>
+
<h2>the iGarden solution</h2>
</br>
</br>
-
<p>Food allergies are adverse reactions to ingested proteins. Reactions range from gastrointestinal discomfort to anaphylaxic shock. If the allergic reaction is against a common protein, such as Lipid Transfer Protein in all plants, an allergy can seriously impact a person's diet and lifestyle. Currently, avoidance and immunotherapy are the most common treatments. Avoidance is simply removal of all foods containing the allergen from the environment of the person with the allergy. Immunotherapy involves ingesting gradually increasing amounts of the allergen until a tolerance for the allergen is built.However, neither of these treatments can compare to living without a serious food allergy. One possible solution is simply ingesting foods that do not contain the offending protein. This year, food allergens in plants are of particular interest to the Harvard iGEM team. Our goal is to use biobricks to deliver modular RNA interference for particular allergens into plants in order to produce plants that do not express allergen proteins. </p>
+
<p>Our goal is to use biobricks to deliver modular RNA interference against particular allergens into plants in order to produce plants that do not express allergen proteins. </p>

Latest revision as of 15:20, 22 October 2010

allergy: overview


what is an allergy?


Allergy is an immune system disorder marked by hypersensitivity to normally harmless and everyday substances, such as pollen or latex. Contact with such allergens can cause an immediate and rapid reaction. Allergic reactions range from relatively mild (itchy eyes, runny nose) to life threatening (anaphylaxis).

Allergic reactions are caused by exposure to certain proteins that the body mistakenly marks as dangerous. This hypersensitivity can be inherited or developed. Exposure to certain allergens at a young age can increase the possibility of developing allergies later in life. Interestingly enough, insufficient exposure to bacteria and viruses that stimulate metabolic pathways of the immune system can also increase the likelihood of developing allergic disease.


the iGarden solution


Our goal is to use biobricks to deliver modular RNA interference against particular allergens into plants in order to produce plants that do not express allergen proteins.