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− | As the command line application, the graphical interface version can either be downloaded directly <a href="https://static.igem.org/mediawiki/2018/9/9a/T--Bielefeld-CeBiTec--siRCon_1_1_all_versions.zip">here</a>, or via our <a href="https://github.com/iGEMBielefeldCeBiTec/iGEM_Bielefeld_CeBiTec_2018/releases" style="padding-right:0; margin-right:0;">GitHub repository</a> | + | As the command line application, the graphical interface version can either be downloaded directly <a href="https://static.igem.org/mediawiki/2018/9/9a/T--Bielefeld-CeBiTec--siRCon_1_1_all_versions.zip">here</a>, or via our <a href="https://github.com/iGEMBielefeldCeBiTec/iGEM_Bielefeld_CeBiTec_2018/releases" style="padding-right:0; margin-right:0;">GitHub repository.</a> |
In the graphical interface, the modules are divided into different tabs (Figure 6). The last tab contains usage and copyright information. | In the graphical interface, the modules are divided into different tabs (Figure 6). The last tab contains usage and copyright information. | ||
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Revision as of 09:34, 17 October 2018
siRCon - A siRNA Constructor
siRNAS short introduction
Choosing appropriate design methods
Rational siRNA design
Rule | Score |
---|---|
30%-52% G/C content | +1 |
At least 3 'A/U' bases at positions 15-19 | +1 (for each 'A/U' base) |
Absence of internal repeats (\(T_m \lt 20\)) | +1 |
An 'A' base at position 3 | +1 |
An 'A' base at position 19 | +1 |
An 'U' base at position 19 | +1 |
A base other than 'G' or 'C' at 19 | -1 |
A base other than 'G' at position 13 | -1 |
Ui-Tei rule
- An ‘A’ or ‘T’ at position 19
- A ‘G’ or ‘C’ at position 1
- At least five ‘U’ or ‘A’ residues from positions 13 to 19
- No ‘GC’ stretch more than 9nt long
Calculating silencing probability
siRNA overhangs and scaffolds
Check siRNA
Command line application
Graphical Interface usage
1. siRNA for RNAi
- Insert gene sequence
- Choose Tace vector system (optionally)
- Constructions of siRNAs
- View resulting siRNAs (sense and antisense sequence) and their corresponding probability
- Decide if siRNAs should be saved with MicC scaffold (only if Tace is not used)
- Save results as FASTA file
2. siRNA for silencing
- Insert gene sequence
- Choose Tace vector system (optionally)
- Constructions of siRNAs
- View resulting siRNAs (sense and antisense sequence) and their corresponding probability
- Decide if siRNAs should be saved with MicC scaffold (only if Tace is not used)
- Decide if siRNAs should be saved with OmpA scaffold (only if Tace is not used)
- Save results as FASTA file
3. Check siRNA
- Insert gene sequence
- Insert siRNA sequences
- Choose method the siRNA was constructed for (siRNA for RNAi or siRNA for silencing)
- Choose if siRNA was constructed for Tace (optionally)
- Validation of entered siRNA for given target gene sequences
- View results
- Save results (optionally)