Difference between revisions of "Part:BBa K4605005"
(→Experiments) |
(→Description) |
||
(One intermediate revision by one other user not shown) | |||
Line 4: | Line 4: | ||
==Description== | ==Description== | ||
− | To explore whether more colored fibers could be expressed in K.xylinus | + | We have chosen Chromoprotein EGFP (YFP) and indigoidine as two types of dyes with different properties to enrich the pigment library. To explore whether more colored fibers could be expressed in K.xylinus, we wanted to express EGFP in K.xylinus using a strong promoter (J23100) as a way to get fluorescent cellulose membranes. Plasmids containing chromoprotein can also be used to verify the strength of the selected promoters J23104, J23100 and J23119 in K. xylinus, which would help us to build up genetic toolkit in K.xylinus and achieve the desired results when we . At the same time, we wanted to use it to viualize how cellulose wraps up K. xylinus. |
+ | |||
==Experiments== | ==Experiments== | ||
We chose to use the Anderson family promoter, first, because it is compatible with K.xylinus, and there is enough references reporting that these promoters have been tested in several of bacteria such as G. xylinus 700178, G. hansenii 53582, and K. rhaeticus iGEM.Then we selected three of the strong promoters:J23100,J23104 and J23119.We linked it to EGFP/YFP in the hope that fluorescent cellulose could be expressed. | We chose to use the Anderson family promoter, first, because it is compatible with K.xylinus, and there is enough references reporting that these promoters have been tested in several of bacteria such as G. xylinus 700178, G. hansenii 53582, and K. rhaeticus iGEM.Then we selected three of the strong promoters:J23100,J23104 and J23119.We linked it to EGFP/YFP in the hope that fluorescent cellulose could be expressed. | ||
<html><style> | <html><style> | ||
img{} | img{} | ||
− | #a1{width:550px;height:350px;margin:auto;} | + | #a1{width:550px;height:350px;margin:auto;border:3px solid grey} |
</style><div id="a1"> | </style><div id="a1"> | ||
<img src="https://static.igem.wiki/teams/4605/wiki/wet-lab/egfp.png" width="550" height="350"/> | <img src="https://static.igem.wiki/teams/4605/wiki/wet-lab/egfp.png" width="550" height="350"/> | ||
</div></html> | </div></html> | ||
+ | |||
+ | |||
<html><style> | <html><style> | ||
img{} | img{} | ||
− | # | + | #a2{width:550px;height:400px;margin:auto;border:3px solid grey} |
− | </style><div id=" | + | </style><div id="a2"> |
<img src="https://static.igem.wiki/teams/4605/wiki/wet-lab/promoter.png" width="550" height="400"/> | <img src="https://static.igem.wiki/teams/4605/wiki/wet-lab/promoter.png" width="550" height="400"/> | ||
</div></html> | </div></html> |
Latest revision as of 11:04, 10 October 2023
Used to produce fluorescent bacterial cellulose
Description
We have chosen Chromoprotein EGFP (YFP) and indigoidine as two types of dyes with different properties to enrich the pigment library. To explore whether more colored fibers could be expressed in K.xylinus, we wanted to express EGFP in K.xylinus using a strong promoter (J23100) as a way to get fluorescent cellulose membranes. Plasmids containing chromoprotein can also be used to verify the strength of the selected promoters J23104, J23100 and J23119 in K. xylinus, which would help us to build up genetic toolkit in K.xylinus and achieve the desired results when we . At the same time, we wanted to use it to viualize how cellulose wraps up K. xylinus.
Experiments
We chose to use the Anderson family promoter, first, because it is compatible with K.xylinus, and there is enough references reporting that these promoters have been tested in several of bacteria such as G. xylinus 700178, G. hansenii 53582, and K. rhaeticus iGEM.Then we selected three of the strong promoters:J23100,J23104 and J23119.We linked it to EGFP/YFP in the hope that fluorescent cellulose could be expressed.
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 7
Illegal NheI site found at 30 - 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]