Add to ORKGThis paper describes an efficient bacterial transformation system that was established for the preparation of competent cells, plasmid preparation, and for the storage in bacterial stocks in our laboratory. Using this method, a number of different plasmids have been amplified for further experiments. Competent cells for bacterial transformation were prepared by the calcium chloride method with an optimum concentration of 75 mM. Three different strains of Escherichia coli that were tested are DH5\u3b1, TG1 and XL1 blue, and the most efficient strain being XL1 blue. The optimal optical density (OD600) range for competent cell preparation varied for each of the strains investigated, and for XL1 blue it was 0.15-0.45; for TG1 it was 0.2-0.5; ...
Electrotransformation also known as electroporation is the most reliable and efficient tool for plas...
Four shuttle vectors (pMIG 1, 2, 2H and 3) have been constructed based on the broad host‐range plasm...
We studied the transforming ability of the extracellular plasmid DNA released from a genetically eng...
This paper describes an efficient bacterial transformation system that was established for the prep...
Transformation is one of the fundamental and essential molecular cloning techniques. In this paper, ...
Metabolic engineering and genome editing strategies often lead to large strain libraries of a bacter...
Authors: Chenzhong Kuang ### Material and Reagents 1. SOC - 2% Tryptone - 0.5% Yeast Extract...
DNA manipulation routinely requires competent bacteria that can be made using one of numerous method...
In molecular biology, transformation using E. coli as a host plays a key role in synthesizing gene l...
High transformation competency of Escherichia coli is one of the critical factors in the bacterial a...
395-400The efficiencies of different transformation methods of E. coli DH5α strain, induced by sever...
Factors that affect he probability of genetic transformation f Escherichia coli by plasmids have bee...
Background & Objectives: Transformation efficiency of DNA into host cells as an important stage in m...
An improved system for competent cell preparation and high efficiency plasmid transformation using d...
The process of bacterial transformation results from the introduction of specific genetic material i...
Electrotransformation also known as electroporation is the most reliable and efficient tool for plas...
Four shuttle vectors (pMIG 1, 2, 2H and 3) have been constructed based on the broad host‐range plasm...
We studied the transforming ability of the extracellular plasmid DNA released from a genetically eng...
This paper describes an efficient bacterial transformation system that was established for the prep...
Transformation is one of the fundamental and essential molecular cloning techniques. In this paper, ...
Metabolic engineering and genome editing strategies often lead to large strain libraries of a bacter...
Authors: Chenzhong Kuang ### Material and Reagents 1. SOC - 2% Tryptone - 0.5% Yeast Extract...
DNA manipulation routinely requires competent bacteria that can be made using one of numerous method...
In molecular biology, transformation using E. coli as a host plays a key role in synthesizing gene l...
High transformation competency of Escherichia coli is one of the critical factors in the bacterial a...
395-400The efficiencies of different transformation methods of E. coli DH5α strain, induced by sever...
Factors that affect he probability of genetic transformation f Escherichia coli by plasmids have bee...
Background & Objectives: Transformation efficiency of DNA into host cells as an important stage in m...
An improved system for competent cell preparation and high efficiency plasmid transformation using d...
The process of bacterial transformation results from the introduction of specific genetic material i...
Electrotransformation also known as electroporation is the most reliable and efficient tool for plas...
Four shuttle vectors (pMIG 1, 2, 2H and 3) have been constructed based on the broad host‐range plasm...
We studied the transforming ability of the extracellular plasmid DNA released from a genetically eng...