Difference between revisions of "Part:BBa K864444"

Line 2: Line 2:
 
<partinfo>BBa_K864444 short</partinfo>
 
<partinfo>BBa_K864444 short</partinfo>
  
This part is a part of the Uppsala University iGEM 2012 modular small RNA screening system, together with the sport42 sRNA <partinfo>K864440</partinfo>. It can also be used for studing up- or downregulation of genes by other mechanisms.  
+
This part is a component of the Uppsala University iGEM 2012 modular small RNA screening system, together with the spott42 sRNA <partinfo>K864440</partinfo>. It can also be used for studing up- or downregulation of genes by other mechanisms.  
  
Use this system to screen for downregulation of your gene by a random small RNA library. PCR amplify your 5’UTR, adding XbaI and EcoRI sites upstream and a BamHI site downstream, and clone into any backbone carrying this part. By cloning with EcoRI and BamHI, the cloning will function as a red/white screening system. You have now created a custom BioBrick, that can be used to screen for translational downregulation of your gene of interest.  
+
Use this system to screen for downregulation of your gene by a random small RNA library. PCR amplify your 5’UTR, adding XbaI and EcoRI sites upstream and a BamHI site downstream, and clone into any backbone carrying this part, replacing the RFP cassette. By cloning with EcoRI and BamHI, the cloning will function as a red/white screening system. You have now created a novel BioBrick, that can be used to screen for translational downregulation of your gene of interest.  
  
SYFP2 <partinfo>BBa_K864100</partinfo> is situated downstream of the RFP <partinfo>BBa_J04450</partinfo> and is connected in frame with a 10 aa glycine-serine repeated linker <partinfo>BBa_J18922</partinfo>, to prevent folding errors in the SYFP2. Before the linker there is a BamHI restriction site (GGATCC), which translates into glycine-serine in E coli.
+
SYFP2 <partinfo>BBa_K864100</partinfo> is situated downstream of the RFP cassette<partinfo>BBa_J04450</partinfo> and is connected in frame with a 10 aa glycine-serine repeated linker <partinfo>BBa_J18922</partinfo>, to prevent folding errors in the SYFP2. Before the linker there is a BamHI restriction site (GGATCC), which translates into glycine-serine in E coli.
  
 
When screening for working small RNAs, it's recommended to include the first 15 codons of your gene of interest.
 
When screening for working small RNAs, it's recommended to include the first 15 codons of your gene of interest.

Revision as of 15:33, 29 September 2012

RFP-Linker-SYFP2

This part is a component of the Uppsala University iGEM 2012 modular small RNA screening system, together with the spott42 sRNA BBa_K864440. It can also be used for studing up- or downregulation of genes by other mechanisms.

Use this system to screen for downregulation of your gene by a random small RNA library. PCR amplify your 5’UTR, adding XbaI and EcoRI sites upstream and a BamHI site downstream, and clone into any backbone carrying this part, replacing the RFP cassette. By cloning with EcoRI and BamHI, the cloning will function as a red/white screening system. You have now created a novel BioBrick, that can be used to screen for translational downregulation of your gene of interest.

SYFP2 BBa_K864100 is situated downstream of the RFP cassetteBBa_J04450 and is connected in frame with a 10 aa glycine-serine repeated linker BBa_J18922, to prevent folding errors in the SYFP2. Before the linker there is a BamHI restriction site (GGATCC), which translates into glycine-serine in E coli.

When screening for working small RNAs, it's recommended to include the first 15 codons of your gene of interest.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BamHI site found at 1070
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal AgeI site found at 781
    Illegal AgeI site found at 893
  • 1000
    COMPATIBLE WITH RFC[1000]