Add to ORKGSequence‐specific recognition of peptides is of enormous importance to many chemical and biological applications, but has been difficult to achieve due to the minute differences in the side chains of amino acids. Acidic peptides are known to play important roles in cell growth and gene expression. In this work, we report molecularly imprinted micelles coded with molecular recognition information for the acidic and hydrophobic side chains of acidic peptides. The imprinted receptors could distinguish acidic amino acids from other polar and nonpolar amino acids, with dissociation constants of tens of nanomolar for biologically active peptides containing up to 18 amino acids
The wide usage and subsequent leakage of nonsteroidal anti-inflammatory drugs (NSAIDs) into the envi...
Nanopore probing of biological polymers has the potential to achieve single-molecule sequencing at l...
Chiral molecular recognition is important to biology, separation, and asymmetric catalysis. Because ...
A general method for sequence-specific binding of peptides remains elusive despite decades of resear...
Sequence‐selective recognition of peptides in water has been one of the most important and yet unsol...
This paper describes the molecular recognition of phenylalanine derivatives and their peptides by th...
A general method for sequence-specific binding of peptides remains elusive despite decades of resear...
Proteolysis of proteins and peptides is involved in the infection of cells by enveloped viruses and ...
This paper describes the molecular recognition of the tripeptide Tyr-Leu-Ala by the synthetic recept...
The exploitation of peptides in the development of smart nanomaterials is gaining increasing attenti...
Magnetic nanoparticles (MNP) are intensively investigated for applications in nanomedicine, catalysi...
While DNA sequencing is now amply available, fast, and inexpensive, protein sequencing remains a tre...
Although synthetic mimics of lectins can be extremely useful in biological and biomedical research, ...
We used coarse-grain molecular dynamics simulations to screen all possible histidine-bearing tetrape...
Molecular recognition of carbohydrates plays vital roles in biology but has been difficult to achiev...
The wide usage and subsequent leakage of nonsteroidal anti-inflammatory drugs (NSAIDs) into the envi...
Nanopore probing of biological polymers has the potential to achieve single-molecule sequencing at l...
Chiral molecular recognition is important to biology, separation, and asymmetric catalysis. Because ...
A general method for sequence-specific binding of peptides remains elusive despite decades of resear...
Sequence‐selective recognition of peptides in water has been one of the most important and yet unsol...
This paper describes the molecular recognition of phenylalanine derivatives and their peptides by th...
A general method for sequence-specific binding of peptides remains elusive despite decades of resear...
Proteolysis of proteins and peptides is involved in the infection of cells by enveloped viruses and ...
This paper describes the molecular recognition of the tripeptide Tyr-Leu-Ala by the synthetic recept...
The exploitation of peptides in the development of smart nanomaterials is gaining increasing attenti...
Magnetic nanoparticles (MNP) are intensively investigated for applications in nanomedicine, catalysi...
While DNA sequencing is now amply available, fast, and inexpensive, protein sequencing remains a tre...
Although synthetic mimics of lectins can be extremely useful in biological and biomedical research, ...
We used coarse-grain molecular dynamics simulations to screen all possible histidine-bearing tetrape...
Molecular recognition of carbohydrates plays vital roles in biology but has been difficult to achiev...
The wide usage and subsequent leakage of nonsteroidal anti-inflammatory drugs (NSAIDs) into the envi...
Nanopore probing of biological polymers has the potential to achieve single-molecule sequencing at l...
Chiral molecular recognition is important to biology, separation, and asymmetric catalysis. Because ...