AbstractA ‘protein design cycle’, involving cycling between theory and experiment, has led to recent advances in rational protein design. A reductionist approach, in which protein positions are classified by their local environments, has aided development of an appropriate energy expression. The computational principles and practicalities of the protein design cycle are discussed
Computational and theoretical methods are advancing protein design as a means to create and investig...
The rational design of novel biomolecules with desired functional properties is one of the most fas...
A protein's amino acid sequence determines both its chemical and its physical structures, and togeth...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design has many applications not only in biotechnology but also in bas...
Computational protein design determines the amino acid sequence(s) that will adopt a desired fold. ...
Computational protein design facilitates the continued development of methods for the design of biom...
The computational algorithms used in the design of artificial proteins have become increasingly soph...
We present a detailed study of the performance and reliability of design procedures based on ene...
AbstractProteins are the most multifaceted macromolecules in living systems and have various importa...
Recent progress in computational approaches to protein design builds on advances in statistical mech...
Computational and theoretical methods are advancing protein design as a means to create and investig...
The rational design of novel biomolecules with desired functional properties is one of the most fas...
A protein's amino acid sequence determines both its chemical and its physical structures, and togeth...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
A 'protein design cycle', involving cycling between theory and experiment, has led to recent advance...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design has many applications not only in biotechnology but also in bas...
International audienceProtein design has many applications not only in biotechnology but also in bas...
Computational protein design determines the amino acid sequence(s) that will adopt a desired fold. ...
Computational protein design facilitates the continued development of methods for the design of biom...
The computational algorithms used in the design of artificial proteins have become increasingly soph...
We present a detailed study of the performance and reliability of design procedures based on ene...
AbstractProteins are the most multifaceted macromolecules in living systems and have various importa...
Recent progress in computational approaches to protein design builds on advances in statistical mech...
Computational and theoretical methods are advancing protein design as a means to create and investig...
The rational design of novel biomolecules with desired functional properties is one of the most fas...
A protein's amino acid sequence determines both its chemical and its physical structures, and togeth...
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