Add to ORKGAbstract Screening phage display libraries of proteins and peptides has, for almost two decades, proven to be a powerful technology for selecting polypeptides with desired biological and physicochemical properties from huge molecular libraries. The scope of phage display ap-plications continues to expand. Recent applications and technical improvements driving further developments in the field of phage display are discussed
Background: Phage display is a leading technology for selection of binders with affinity for specifi...
In the vast realm of biotechnology, one innovation has been steadily gaining prominence and revoluti...
During the last 12 years, antibody combinatorial libraries have provided a new approach for the cons...
The expression of exogenous peptides on the surface of filamentous bacteriophage was initially descr...
The expression of exogenous peptides on the surface of filamentous bacteriophage was initially descr...
Copyright © 2013 Jian Huang et al. This is an open access article distributed under the Creative Com...
The phage display is becoming a very powerful technology. Filamentous phages can present on their su...
Phage display of proteins continues to be an important technology with a variety of applications. In...
Ligands selected from phage-displayed random peptide libraries tend to be directed to biologically r...
Phage display technology presents a rapid means by which proteins and peptides that bind specificall...
Molecules with tailored binding specificities are needed for many purposes such as the development o...
The construction of new and increasingly diverse libraries, as well as the implementation of more po...
AbstractPeptides can be displayed on the surface of filamentous bacteriophages by fusion to phage co...
Phage display has proved itself as a powerful and convenient approach for rapid sampling of billions...
Phage display technology (PDT), a combinatorial screening approach, provides a molecular diversity t...
Background: Phage display is a leading technology for selection of binders with affinity for specifi...
In the vast realm of biotechnology, one innovation has been steadily gaining prominence and revoluti...
During the last 12 years, antibody combinatorial libraries have provided a new approach for the cons...
The expression of exogenous peptides on the surface of filamentous bacteriophage was initially descr...
The expression of exogenous peptides on the surface of filamentous bacteriophage was initially descr...
Copyright © 2013 Jian Huang et al. This is an open access article distributed under the Creative Com...
The phage display is becoming a very powerful technology. Filamentous phages can present on their su...
Phage display of proteins continues to be an important technology with a variety of applications. In...
Ligands selected from phage-displayed random peptide libraries tend to be directed to biologically r...
Phage display technology presents a rapid means by which proteins and peptides that bind specificall...
Molecules with tailored binding specificities are needed for many purposes such as the development o...
The construction of new and increasingly diverse libraries, as well as the implementation of more po...
AbstractPeptides can be displayed on the surface of filamentous bacteriophages by fusion to phage co...
Phage display has proved itself as a powerful and convenient approach for rapid sampling of billions...
Phage display technology (PDT), a combinatorial screening approach, provides a molecular diversity t...
Background: Phage display is a leading technology for selection of binders with affinity for specifi...
In the vast realm of biotechnology, one innovation has been steadily gaining prominence and revoluti...
During the last 12 years, antibody combinatorial libraries have provided a new approach for the cons...