Difference between revisions of "Team:HSHL/Description"

m
Line 13: Line 13:
 
<h4>Enabeling Tobacco plants to hyperaccumulate heavy metals</h4>
 
<h4>Enabeling Tobacco plants to hyperaccumulate heavy metals</h4>
 
<p>  
 
<p>  
Our challenge is to solve the problem of heavy metal polluted soil, especially in areas of high industrial use, such as mining. Extensive coal mining in the past released a high amount of heavy metals, such as lead or cadmium into the soil, thus making the soil unsuitable for agricultural use. Since plants like salad have the tendency of incorporating these heavy metals, consuming those plants is unhealthy for humans and other animals. Our goal is to enable a tabacco plant to hyperaccumulate cadmium and lead by transfering genes of <i>Arabidopsis Halleri</i> and adding other special abilities that support the accumulation of heavy metals. Our goal is to use <i>Agrobacterium Tumefacies</i> in order to enable our tobacco plant to hyperaccumulate the heavy metals. Heavy metals are often used in the IT and computer industry, for example to produce lead acid batteries. Since our tobacco plant contains a high quantity of valuable heavy metals, we plan to recycle those, thus protecting the environment and its rare and most importantly finite recources.</p>
+
Our challenge is to solve the problem of heavy metal polluted soil, especially in areas of high industrial use, such as mining. Extensive coal mining in the past released a high amount of heavy metals, such as lead or cadmium into the soil, thus making the soil unsuitable for agricultural use. Since plants like salad have the tendency of incorporating these heavy metals, consuming those plants is unhealthy for humans and other animals. Our goal is to enable a tobacco plant to hyperaccumulate cadmium and lead by transferring genes of Arabidopsis halleri (A. halleri) and adding other special abilities that support the accumulation of heavy metals. Tobacco is a plant with deeper roots than A. halleri, so it is reasonable to use tobacco in cleaning up polluted soil. Heavy metals not only occur in the first few inches of soil, due to rain, so it is important to use a plant which can go deeper into the ground than A. halleri. Furthermore, tobacco has a higher biomass, so it can accumulate and store a higher amount of heavy metals. </p>
 +
 
 +
<p>A. halleri is distributed in and around central/eastern Europe where it occurs on soils contaminated with Zinc (Zn) and Cadmium (Cd) such as the German Ruhr area. In comparison to other species, root tolerance tests show that A. halleri tolerates higher Zn/Cd concentrations. In research work we identify the genes that are responsible for heavy metal hyper accumulating and decided to use HMA3 for the first step of introducing a heavy metal hyper accumulation gene to tobacco. We got it synthesized by IDT (integrated DNA Technologies). </p>
 +
 +
<p>To insert our target gene in PSB1C3, we used different restrictions enzymes (link zu parts) and followed protocols (link zu experiment). For more information about the theory and designing step have a look into “design” (link zu design).
 +
</p>
  
 
</div>
 
</div>

Revision as of 09:23, 9 October 2018

HOME
ABOUT US
Team
University
Collaborations & Networking
PROJECT
Description
Design
Experiments
Results
Attributions
PARTS
SAFETY
HUMAN PRACTICES
AWARDS
Applied Design
Entrepreneurship
Hardware
Measurement
Model
Plant
Software
CONTACT & COPYRIGHT
JUDGING FORM ⇗

Description

Abstract

Enabeling Tobacco plants to hyperaccumulate heavy metals

Our challenge is to solve the problem of heavy metal polluted soil, especially in areas of high industrial use, such as mining. Extensive coal mining in the past released a high amount of heavy metals, such as lead or cadmium into the soil, thus making the soil unsuitable for agricultural use. Since plants like salad have the tendency of incorporating these heavy metals, consuming those plants is unhealthy for humans and other animals. Our goal is to enable a tobacco plant to hyperaccumulate cadmium and lead by transferring genes of Arabidopsis halleri (A. halleri) and adding other special abilities that support the accumulation of heavy metals. Tobacco is a plant with deeper roots than A. halleri, so it is reasonable to use tobacco in cleaning up polluted soil. Heavy metals not only occur in the first few inches of soil, due to rain, so it is important to use a plant which can go deeper into the ground than A. halleri. Furthermore, tobacco has a higher biomass, so it can accumulate and store a higher amount of heavy metals.

A. halleri is distributed in and around central/eastern Europe where it occurs on soils contaminated with Zinc (Zn) and Cadmium (Cd) such as the German Ruhr area. In comparison to other species, root tolerance tests show that A. halleri tolerates higher Zn/Cd concentrations. In research work we identify the genes that are responsible for heavy metal hyper accumulating and decided to use HMA3 for the first step of introducing a heavy metal hyper accumulation gene to tobacco. We got it synthesized by IDT (integrated DNA Technologies).

To insert our target gene in PSB1C3, we used different restrictions enzymes (link zu parts) and followed protocols (link zu experiment). For more information about the theory and designing step have a look into “design” (link zu design).

Our work

The plant we are using is Arabidopsis Halleri (A. halleri). It is distributed in and around central/eastern Europe where it occurs on soils contaminated with Zinc (Zn) and Cadmium (Cd) such as the German Ruhr area. In comparison to other species, root tolerance tests show that A. halleri tolerates higher Zn/Cd concentrations in hydroponic medium.

Our current work focuses on the isolation and cloning of these and other heavy metal hyper accumulating genes, including gene sequencing and subsequent high-level expression applying appropriate vectors and organisms.

Getting started: this picture was taken on our first day in the lab. First steps of cultivating our A. halleri.