Add to ORKGIn Chapter 4 we described the SGC process for generating multiple constructs of truncated versions of each protein using LIC. In this chapter we provide a step-by-step procedure of our E. coli system for test expressing intracellular (soluble) proteins in a 96-well format that enables us to identify which proteins or truncated versions are expressed in a soluble and stable form suitable for structural studies. In addition, we detail the process for scaling up cultures for large-scale protein purification. This level of production is required to obtain sufficient quantities (i.e., milligram amounts) of protein for further characterization and/or crystallization experiments. Our standard process is purification by immobilized metal affinity c...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Escherichia coli is a favored host for rapid, scalable expression of recombinant proteins for academ...
Escherichia coli (E. coli) is the most widely used expression system for the production of recombina...
In Chapter 4 we described the SGC process for generating multiple constructs of truncated versions o...
In Chapter 4 we described the SGC process for generating multiple constructs of truncated versions o...
This chapter presents in detail the process used in high throughput bacterial production of recombin...
Structural genomics groups have identified the need to generate multiple truncated versions of each ...
Structural genomics groups have identified the need to generate multiple truncated versions of each ...
This chapter describes the step-by-step methods employed by the Structural Genomics Consortium (SGC)...
The supply of many valuable proteins that have potential clinical or industrial use is often limited...
The protocols outlined in this chapter allow for the small-scale test expression of a single or mult...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Escherichia coli is a favored host for rapid, scalable expression of recombinant proteins for academ...
Protein expression and purification have traditionally been time-consuming, case-specific endeavors,...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Escherichia coli is a favored host for rapid, scalable expression of recombinant proteins for academ...
Escherichia coli (E. coli) is the most widely used expression system for the production of recombina...
In Chapter 4 we described the SGC process for generating multiple constructs of truncated versions o...
In Chapter 4 we described the SGC process for generating multiple constructs of truncated versions o...
This chapter presents in detail the process used in high throughput bacterial production of recombin...
Structural genomics groups have identified the need to generate multiple truncated versions of each ...
Structural genomics groups have identified the need to generate multiple truncated versions of each ...
This chapter describes the step-by-step methods employed by the Structural Genomics Consortium (SGC)...
The supply of many valuable proteins that have potential clinical or industrial use is often limited...
The protocols outlined in this chapter allow for the small-scale test expression of a single or mult...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Escherichia coli is a favored host for rapid, scalable expression of recombinant proteins for academ...
Protein expression and purification have traditionally been time-consuming, case-specific endeavors,...
Producing purified human proteins with high yield and purity remains a considerable challenge. We de...
Escherichia coli is a favored host for rapid, scalable expression of recombinant proteins for academ...
Escherichia coli (E. coli) is the most widely used expression system for the production of recombina...