Team:Groningen

From 2009.igem.org

(Difference between revisions)
(Added twitter link under the team foto)
m
 
(107 intermediate revisions not shown)
Line 1: Line 1:
-
(''The first attempts at building up the Groningen Wiki page are currently being taken and will continue during the summer period of the iGEM competition. Please feel free to take a look at what our [[Team:Groningen/Team|team]] is doing'')
+
<html><img style="position:absolute;right:15px;top:0px;z-index:10000;" src="/wiki/images/0/02/GroningenFinalist.png" /></html>
-
(''iGEM: You must have a team page, a project page, and a notebook page.'')
+
{{linkedImage|Title_front.png|Team:Groningen/Project}}
-
{{Team:Groningen/Header}}
+
-
[[Category:Team:Groningen]]
+
-
 
+
{|
{|
-
|style="vertical-align:top"|[[Image:IGEMlogo.png]]
+
|style="vertical-align:top;"|
-
|Welcome to the Wiki of the iGEM Groningen team! We are an interdisciplinary team of [[Team:Groningen/Team|10 enthusiastic students]] from the [http://www.rug.nl/ University of Groningen] situated in the not-too-big city of [http://portal.groningen.nl/en/startpagina Groningen] in [http://maps.google.com/maps?f=q&source=s_q&hl=en&geocode=&q=Groningen&sll=53.281349,6.689459&sspn=0.007261,0.018926&ie=UTF8&z=12&iwloc=A the north of the Netherlands].
+
<html><style type="text/css">
-
 
+
.intro { margin-left:0px; margin-top:10px; padding:10px; border-left:solid 5px #FFF6D5; border-right:solid 5px #FFF6D5; text-align:justify;background:#FFFFE5; }
-
[[Image:Groningen_team2009_Martini.jpg|200px|thumb|right|[Team:Groningen/Team|Our team!]]
+
h1 { color:#1aace6; font-family: 'Ariel Rounded MT Bold', sans-serif;}
-
 
+
h2 { color: #1aace6; font-family: 'Arial Rounded MT Bold', sans-serif;}
-
We are in the middle of [[Team:Groningen/Brainstorm|a process of elimination]] for determining the subject of our project. The current options are:
+
body { font-family: 'Calibri', 'Verdana', 'Tunga', sans-serif; }
-
 
+
.intro h1 { font-weight:bold; font-size:medium; border:none; margin:0px !important; padding:0px; }
-
*[[Team:Groningen/Rainbow_Bacteria|Rainbow bacteria]], possibly responding to osmotic pressure.
+
.firstHeading { display:none; }
-
*[[Team:Groningen/Growth_Control|Growth control]]
+
#contentSub { display:none; }
-
*[[Team:Groningen/Buoyant_Bacteria|Buoyant bacteria]]
+
</style></html>
-
 
+
<div class="intro">
-
In the mean time our [[Team:Groningen/Project_Plan|project plan]] (and other [[:Category:Team:Groningen/Disciplines/Project_Management|related documentation]]) is being developed, our [[:Category:Team:Groningen/Roles/Modeller|modellers]] are getting up to speed with [[Team:Groningen/Modelling|modelling technology]], our [[:Category:Team:Groningen/Roles/Treasurer|financial geniuses]] are raising funds and our [[:Category:Team:Groningen/Roles/Implementer|lab specialists]] are reading all sorts of [[Team:Groningen/Literature|interesting stuff on synthetic biology]].
+
<h1>Heavy metal scavengers<!-- with a vertical gas drive--></h1>
 +
Human health and the environment are endangered by heavy metal pollution in water and sediment. To battle this problem, a '''purification strategy''', in which arsenic, zinc and copper are removed from water and sediment, was developed. This strategy encompasses a biological device in which <i>E. coli</i> bacteria accumulate metal ions from solutions, after which they '''produce gas vesicles''' and '''start floating'''. This biological device consists of two integrated systems: one for metal uptake and storage, the other for metal induced buoyancy. The uptake and storage system consists of a [[Team:Groningen/Project/Transport|metal transporter]] and [[Team:Groningen/Project/Accumulation|metal binding proteins]] (to reduce toxicity and increase accumulation). The buoyancy system is made up of a [[Team:Groningen/Project/Promoters|metal induced promotor]] in front of a [[Team:Groningen/Project/Vesicle|gas vesicle gene cluster]]. The combination of both systems will enable the efficient cleaning of polluted water and sediment in a biological manner.
 +
<br><br>
 +
<center>{{linkedImage|Enter.png|Team:Groningen/Project}}</center>
 +
<br>
 +
</div>
 +
|<html>
 +
<embed
 +
  src="https://static.igem.org/mediawiki/2009/9/99/Systemwhole20.swf"
 +
  width="550"
 +
  height="400"
 +
  allowscriptaccess="always"
 +
  allowfullscreen="true"
 +
/>
 +
</html>
 +
|}
-
'''Note for our team members:''' Layout ideas can be proposed/discussed/tried out [[Team:Groningen/Layout_Ideas|here]].
+
{| cellpadding="20"
 +
|{{linkedImage|Project_front.png|Team:Groningen/Project}}
 +
|{{linkedImage|Team_front.png|Team:Groningen/Team}}
 +
|{{linkedImage|Model_front.png|Team:Groningen/Modelling}}
 +
|{{linkedImage|Ethics.png|Team:Groningen/HumanPractice}}
 +
|{{linkedImage|Bricks.png|Team:Groningen/Parts}}
|}
|}
-
<!-- *** TWITTER *** -->
+
{{Team:Groningen/Footer_Main}}
-
<div style="margin:-20px 0px 0px 770px;">
+
-
<html>
+
-
<a href="http://twitter.com/igemgroningen">
+
-
<img src="https://static.igem.org/mediawiki/2009/8/86/Twitter-logo_xsmall.png"
+
-
    alt="Follow our team on Twitter!"
+
-
    title="Follow our team on Twitter!"><br>
+
-
<!-- <span style="font-size:90%;">Join us on Twitter!</span> -->
+
-
</a>
+

Latest revision as of 11:46, 16 November 2009

Title_front.png

Heavy metal scavengers

Human health and the environment are endangered by heavy metal pollution in water and sediment. To battle this problem, a purification strategy, in which arsenic, zinc and copper are removed from water and sediment, was developed. This strategy encompasses a biological device in which E. coli bacteria accumulate metal ions from solutions, after which they produce gas vesicles and start floating. This biological device consists of two integrated systems: one for metal uptake and storage, the other for metal induced buoyancy. The uptake and storage system consists of a metal transporter and metal binding proteins (to reduce toxicity and increase accumulation). The buoyancy system is made up of a metal induced promotor in front of a gas vesicle gene cluster. The combination of both systems will enable the efficient cleaning of polluted water and sediment in a biological manner.

Enter.png


Project_front.png Team_front.png Model_front.png Ethics.png Bricks.png