Rationalizing the structure and structure–property relations for complex materials such as polymers or biomolecules relies heavily on the identification of local atomic motifs, e.g., hydrogen bonds and secondary structure patterns, that are seen as building blocks of more complex supramolecular and mesoscopic structures. Over the past few decades, several automated procedures have been developed to identify these motifs in proteins given the atomic structure. Being based on a very precise understanding of the specific interactions, these heuristic criteria formulate the question in a way that implies the answer, by defining a list of motifs based on those that are known to be naturally occurring. This makes them less likely to identify unex...
<i>Background</i> Since many of the new protein structures delivered by high-throughput...
grantor: University of TorontoThe protein structure prediction problem (PSP) is one of the...
Classification of protein sequences and structures into families is a fundamental task in biology, a...
Rationalizing the structure and structure–property relations for complex materials such as polymers ...
Rationalizing the structure and structure–property relations for complex materials such as polymers ...
Most of the current understanding of structure–property relations at the molecular and the supramole...
Proteins are molecules with different levels of repeated structures or patterns. These patterns are ...
This chapter overviews the topic of protein motif discovery. It presents current ap-proaches to know...
Proteins are built from basic structural elements and their systematic characterization is of intere...
Abstract. Biochemical research often involves examining structural relationships in molecules since ...
A lot of work has gone into predicting the secondary (small scale) structure of proteins from their ...
The concept of chemical bonding can ultimately be seen as a rationalization of the recurring structu...
Characterizing materials to atomic resolution and first-principles structure-property prediction are...
Structure-property relationships at the atomic scale are usually understood in terms of recurrent st...
A new structure classification scheme for biopolymers is introduced, which is solely based on main-c...
<i>Background</i> Since many of the new protein structures delivered by high-throughput...
grantor: University of TorontoThe protein structure prediction problem (PSP) is one of the...
Classification of protein sequences and structures into families is a fundamental task in biology, a...
Rationalizing the structure and structure–property relations for complex materials such as polymers ...
Rationalizing the structure and structure–property relations for complex materials such as polymers ...
Most of the current understanding of structure–property relations at the molecular and the supramole...
Proteins are molecules with different levels of repeated structures or patterns. These patterns are ...
This chapter overviews the topic of protein motif discovery. It presents current ap-proaches to know...
Proteins are built from basic structural elements and their systematic characterization is of intere...
Abstract. Biochemical research often involves examining structural relationships in molecules since ...
A lot of work has gone into predicting the secondary (small scale) structure of proteins from their ...
The concept of chemical bonding can ultimately be seen as a rationalization of the recurring structu...
Characterizing materials to atomic resolution and first-principles structure-property prediction are...
Structure-property relationships at the atomic scale are usually understood in terms of recurrent st...
A new structure classification scheme for biopolymers is introduced, which is solely based on main-c...
<i>Background</i> Since many of the new protein structures delivered by high-throughput...
grantor: University of TorontoThe protein structure prediction problem (PSP) is one of the...
Classification of protein sequences and structures into families is a fundamental task in biology, a...