(S,S)-trans-cyclopentane-constrained peptide nucleic acids. a general backbone modification that improves binding affinity and sequence specificity. Read more about (S,S)-trans-cyclopentane-constrained peptide nucleic acids. a general backbone modification that improves binding affinity and sequence specificity.
Peptide nucleic acids with a flexible secondary amine in the backbone maintain oligonucleotide binding affinity. Read more about Peptide nucleic acids with a flexible secondary amine in the backbone maintain oligonucleotide binding affinity.
Cyclopentane-modified PNA improves the sensitivity of nanoparticle-based scanometric DNA detection. Read more about Cyclopentane-modified PNA improves the sensitivity of nanoparticle-based scanometric DNA detection.
Enhanced oligonucleotide binding to self-assembled nanofibers. Read more about Enhanced oligonucleotide binding to self-assembled nanofibers.
Peptide nucleic acid microarrays made with (S,S)-trans-cyclopentane-constrained peptide nucleic acids. Read more about Peptide nucleic acid microarrays made with (S,S)-trans-cyclopentane-constrained peptide nucleic acids.
Introduction of a triazole amino acid into a peptoid oligomer induces turn formation in aqueous solution. Read more about Introduction of a triazole amino acid into a peptoid oligomer induces turn formation in aqueous solution.
The art of engineering viral nanoparticles. Read more about The art of engineering viral nanoparticles.
Functional virus-based polymer-protein nanoparticles by atom transfer radical polymerization. Read more about Functional virus-based polymer-protein nanoparticles by atom transfer radical polymerization.
Cell targeting with hybrid Qβ virus-like particles displaying epidermal growth factor. Read more about Cell targeting with hybrid Qβ virus-like particles displaying epidermal growth factor.
Combinatorial Synthesis, Screening, and Binding Studies of Highly Functionalized Polyamino-amido Oligomers for Binding to Folded RNA. Read more about Combinatorial Synthesis, Screening, and Binding Studies of Highly Functionalized Polyamino-amido Oligomers for Binding to Folded RNA.
