This is example text. I copied the abstract here to fill some space: Synthetic biology wants to go beyond the pure biological by integrating concepts from chemistry or physics into the living world. At this interphase, our project wants to introduce Peptidosomes as a new fundamental approach for generating and applying encapsulated bacteria.
These spheres possess advantageous properties like stability in different media and a mesh-like structure that allows for the selective exchange of compounds via diffusion. Therefore, we are able to benefit from the entrapped cells' abilities, while ensuring that they are not released into their surroundings.
Using the powerful genetics of Bacillus subtilis and its secretory capabilities we demonstrate communication and cooperation between separately encapsulated bacterial populations as well as the environment. Peptidosomes can be further enhanced by incorporating magnetic or biological beads - which can be functionalized with proteins - into their peptide-based shell.
With this unique setup, we provide a whole new universe of applications to the iGEM community.
Figure 1: Example. This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture End of the figures caption is here.Figure 1: Example. This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture End of the figures caption is here.
Synthetic biology wants to go beyond the pure biological by integrating concepts from chemistry or physics into the living world. At this interphase, our project wants to introduce Peptidosomes as a new fundamental approach for generating and applying encapsulated bacteria.
These spheres possess advantageous properties like stability in different media and a mesh-like structure that allows for the selective exchange of compounds via diffusion. Therefore, we are able to benefit from the entrapped cells' abilities, while ensuring that they are not released into their surroundings.
Using the powerful genetics of Bacillus subtilis and its secretory capabilities we demonstrate communication and cooperation between separately encapsulated bacterial populations as well as the environment. Peptidosomes can be further enhanced by incorporating magnetic or biological beads - which can be functionalized with proteins - into their peptide-based shell.
With this unique setup, we provide a whole new universe of applications to the iGEM community.
Figure 1: Example. This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture This is an example picture End of the figures caption is here.
Synthetic biology wants to go beyond the pure biological by integrating concepts from chemistry or physics into the living world. At this interphase, our project wants to introduce Peptidosomes as a new fundamental approach for generating and applying encapsulated bacteria.
These spheres possess advantageous properties like stability in different media and a mesh-like structure that allows for the selective exchange of compounds via diffusion. Therefore, we are able to benefit from the entrapped cells' abilities, while ensuring that they are not released into their surroundings.
Using the powerful genetics of Bacillus subtilis and its secretory capabilities we demonstrate communication and cooperation between separately encapsulated bacterial populations as well as the environment. Peptidosomes can be further enhanced by incorporating magnetic or biological beads - which can be functionalized with proteins - into their peptide-based shell.
With this unique setup, we provide a whole new universe of applications to the iGEM community.
You can make text bold, tiefgestellt, italic and so on. Ask google or me for the right tags if you want to do something more fancy. :)
This is an example pictureThis is example picture 1This is example picture 2This is example picture 3 Caption for all three figures
EncaBcillus - It's a trap!
Synthetic biology wants to go beyond the pure biological by integrating concepts from chemistry or physics into the living world. At this interphase, our project wants to introduce Peptidosomes as a new fundamental approach for generating and applying encapsulated bacteria.
These spheres possess advantageous properties like stability in different media and a mesh-like structure that allows for the selective exchange of compounds via diffusion. Therefore, we are able to benefit from the entrapped cells' abilities, while ensuring that they are not released into their surroundings.
Using the powerful genetics of Bacillus subtilis and its secretory capabilities we demonstrate communication and cooperation between separately encapsulated bacterial populations as well as the environment. Peptidosomes can be further enhanced by incorporating magnetic or biological beads - which can be functionalized with proteins - into their peptide-based shell.
With this unique setup, we provide a whole new universe of applications to the iGEM community.
