IGEM:Hong Kong HKUST/Investigations: Difference between revisions
From OpenWetWare
Jump to navigationJump to search
(→2015) |
(→2016) |
||
(13 intermediate revisions by 4 users not shown) | |||
Line 27: | Line 27: | ||
*[[IGEM:Hong Kong HKUST/Investigations/Effect of Dephosphorylation on Reduction of Background Ligation | Effect of Dephosphorylation on Reduction of Background Ligation]] | *[[IGEM:Hong Kong HKUST/Investigations/Effect of Dephosphorylation on Reduction of Background Ligation | Effect of Dephosphorylation on Reduction of Background Ligation]] | ||
*[[IGEM:Hong Kong HKUST/Investigations/Identifying candidate colonies in molecular level/Entry Base |Identifying candidate colonies in molecular level ]] | *[[IGEM:Hong Kong HKUST/Investigations/Identifying candidate colonies in molecular level/Entry Base |Identifying candidate colonies in molecular level ]] | ||
*[[IGEM:Hong Kong HKUST/Investigations/Effects of ATP concentration to the Ligation Efficiency/Entry Base |Identifying | *[[IGEM:Hong Kong HKUST/Investigations/Effects of ATP concentration to the Ligation Efficiency |Effects of ATP concentration to the Ligation Efficiency ]] | ||
*[[IGEM:Hong Kong HKUST/Investigations/ Plasmid Cloning by Restriction Enzyme Digestion /Entry Base | Plasmid Cloning by Restriction Enzyme Digestion ]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/The_Effect_of_the_Vector_to_Insert_DNA_Ratio_on_the_Efficiency_of_Ligation | The Effect of the Vector to Insert DNA Ratio on the Efficiency of Ligation]] | |||
==2016== | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Effect of dephosphorylation in reducing the background ligation | Effect of dephosphorylation in reducing the background ligation]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Effects of vector to insert DNA ratio on ligation efficiency | Effects of vector to insert DNA ratio on ligation efficiency]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Plasmid Cloning by Standard Assembly /Entry Base | Plasmid Cloning by Standard Assembly]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Restriction Enzyme Activities At 4°C,37°C and 65°C | Restriction Enzyme Activities At 4°C,37°C and 65°C]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Plasmid Cloning of BFP Generator Using Standard Assembly | Plasmid Cloning of BFP Generator Using Standard Assembly]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Plasmid Cloning of GFP Generator Using Standard Assembly | Plasmid Cloning of GFP Generator Using Standard Assembly]] | |||
*[[IGEM:Hong Kong HKUST/Investigations/ Identifying Candidate Colonies by Colony PCR | Identifying Candidate Colonies by Colony PCR]] |
Revision as of 09:44, 29 May 2016
List of Investigations:
(Sorted by alphabetic order)
2014
- Comparison Between WN Buffer & 70% Ethanol in Viogene Miniprep Kit
- Comparison of Different Growth Media for Plasmid Production
- Effect of Agarose Concentrations on Separation of Linear DNA in Gel Electrophoresis
- Effect of ATP Concentrations on Ligation Efficiency
- Performance of NotI-HF in 5, 15 and 30 minutes
- Recovery Time and Transformation Efficiency
- Restriction Enzyme Activities at 37°C vs. 20°C
- Robustness of Colony PCR Compared to Regular PCR
2015
- Investigation on the Functionality of RNA Thermometers
- Investigation on the Light-Sensitive amilCP Generator
- Effect of overloading cells on growth rate
- Effect of Dephosphorylation on Reduction of Background Ligation
- Identifying candidate colonies in molecular level
- Effects of ATP concentration to the Ligation Efficiency
- Plasmid Cloning by Restriction Enzyme Digestion
- The Effect of the Vector to Insert DNA Ratio on the Efficiency of Ligation
2016
- Effect of dephosphorylation in reducing the background ligation
- Effects of vector to insert DNA ratio on ligation efficiency
- Plasmid Cloning by Standard Assembly
- Restriction Enzyme Activities At 4°C,37°C and 65°C
- Plasmid Cloning of BFP Generator Using Standard Assembly
- Plasmid Cloning of GFP Generator Using Standard Assembly
- Identifying Candidate Colonies by Colony PCR