Add to ORKGWork on the use of cyclic peptides or pseudopeptides as synthetic receptors started even before the field of supramolecular chemistry was firmly established. Research initially focused on the development of synthetic ionophores and involved the use of macrocycles with a repeating sequence of subunits along the ring to facilitate the correlation between structure, conformation, and binding properties. Later, nonnatural amino acids as building blocks were also considered. With growing research in this area, cyclopeptides and related macrocycles developed into an important and structurally diverse receptor family. This review provides an overview of these developments, starting from the early years. The presented systems are classified accordi...
Structural studies of peptides has relevance for various applications, like, in de novo design of pr...
The study reports the solid-phase synthesis and biological evaluation of a series of new side chain-...
The design of synthetic receptors that function under physiological conditions is still a challenge....
The creation of synthetic molecules having selective peptide-binding properties seen in biological s...
Cyclic peptides that are potent regulators of biological processes are rapidly emerging as important...
Cyclic peptides are a promising class of bioactive molecules potentially capable of modulating 'diff...
The development of synthetic macrocycles represents a powerful approach toward the identification of...
The architectures (three-dimensional shapes) of peptides determine their respective biological funct...
Anion binding selectivity can often be controlled by judicious arrangement of recognition moieties ...
Targeting protein surfaces and protein-protein interactions (PPIs) with small molecules is a frontie...
Nature creates the foundations of life by linking together small, yet versatile, building blocks. Us...
This is one of a series of ten papers reporting aspects of the chemistry of cyclic peptides of marin...
AbstractBackground: Molecular recognition processes are ubiquitous in nature: substrate binding by e...
This paper describes the molecular recognition of phenylalanine derivatives and their peptides by th...
This Review focuses on the establishment and development of self-assemblies governed by the supramol...
Structural studies of peptides has relevance for various applications, like, in de novo design of pr...
The study reports the solid-phase synthesis and biological evaluation of a series of new side chain-...
The design of synthetic receptors that function under physiological conditions is still a challenge....
The creation of synthetic molecules having selective peptide-binding properties seen in biological s...
Cyclic peptides that are potent regulators of biological processes are rapidly emerging as important...
Cyclic peptides are a promising class of bioactive molecules potentially capable of modulating 'diff...
The development of synthetic macrocycles represents a powerful approach toward the identification of...
The architectures (three-dimensional shapes) of peptides determine their respective biological funct...
Anion binding selectivity can often be controlled by judicious arrangement of recognition moieties ...
Targeting protein surfaces and protein-protein interactions (PPIs) with small molecules is a frontie...
Nature creates the foundations of life by linking together small, yet versatile, building blocks. Us...
This is one of a series of ten papers reporting aspects of the chemistry of cyclic peptides of marin...
AbstractBackground: Molecular recognition processes are ubiquitous in nature: substrate binding by e...
This paper describes the molecular recognition of phenylalanine derivatives and their peptides by th...
This Review focuses on the establishment and development of self-assemblies governed by the supramol...
Structural studies of peptides has relevance for various applications, like, in de novo design of pr...
The study reports the solid-phase synthesis and biological evaluation of a series of new side chain-...
The design of synthetic receptors that function under physiological conditions is still a challenge....