4144-02-9Relevant articles and documents
General Fmoc-Based Solid-Phase Synthesis of Complex Depsipeptides Circumventing Problematic Fmoc Removal
Lobo-Ruiz, Ariadna,Tulla-Puche, Judit
supporting information, p. 183 - 192 (2020/01/24)
Development of an Fmoc-based solid-phase depsipeptide methodology has been hampered by base-promoted fragmentation and diketoperazine formation upon Fmoc group elimination. Such a strategy would be a useful tool given the number of commercially available Fmoc-protected residues. Herein we report that the addition of small percentages of organic acids to the Fmoc-removal cocktail proves effective to circumvent these drawbacks and most importantly, allowed the development of an exclusively solid-phase stepwise methodology to prepare a highly complex depsipeptide with multiple and consecutive esters bonds. Alongside, the optimal protecting group scheme for residue incorporation, which is not as straightforward as it is for traditional peptide synthesis, was explored. The developed stepwise strategy proved effective for the synthesis of a highly complex cyclodepsipeptide, being comparable to the yields obtained when using traditional combined chemistry approaches.
Perthamides C and D, two new potent anti-inflammatory cyclopeptides from a Solomon Lithistid sponge Theonella swinhoei
Festa, Carmen,De Marino, Simona,Sepe, Valentina,Monti, Maria Chiara,Luciano, Paolo,D'Auria, Maria Valeria,Débitus, Cecile,Bucci, Mariarosaria,Vellecco, Valentina,Zampella, Angela
experimental part, p. 10424 - 10429 (2010/03/04)
Two new metabolites, perthamides C and D, have been isolated from the marine sponge Theonella swinhoei. Their structures were determined by interpretation of NMR and ESIMS data. All compounds exhibited in vivo potent anti-inflammatory activity. Biological
Novel jadomycins: Incorporation of non-natural and natural amino acids
Jakeman, David L.,Farrell, Spring,Young, Wendy,Doucet, Rene J.,Timmons, Shannon C.
, p. 1447 - 1449 (2007/10/03)
Electrospray ionization mass spectrometry of extracts from Streptomyces venezuelae ISP5230 cultures grown on chemically synthesized non-natural l-amino acids, d-amino acids or any of the 20 natural amino acids demonstrated incorporation of the amino acid into a jadomycin B analogue.