Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Due to its unique amide-bonded cyclized functional group, proline has a higher propensity to form _cis_ peptide bonds than other amino acids. This results in polyproline peptides forming two major conformations…
Polyproline-13 (Pro13) is a peptide with two distinct conformations depending on solvent conditions. It adopts a condensed helical structure known as polyproline I (PPI) consisting of entirely _cis_ peptide bonds in less polar solvents…