- SOLUTION PHASE METHOD FOR PREPARING ETELCALCETIDE
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The instant disclosure is directed to solution phase fragment coupling methods for preparing etelcalcetide and its pharmaceutically acceptable salts.
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Paragraph 0042; 0119
(2016/10/11)
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- N-(3-(4-Hydroxyphenyl)-propenoyl)-amino acid tryptamides as SIRT2 inhibitors
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A series of N-(3-(4-hydroxyphenyl)-propenoyl)-amino acid tryptamides was based on a previously reported new SIRT2 inhibitor from our group, and it was designed to study if the molecular size of the compound could be reduced. The most potent compounds, N-(3-(4-hydroxyphenyl)-propenoyl)-2-aminoisobutyric acid tryptamide and N-(3-(4-hydroxyphenyl)-propenoyl)-l-alanine tryptamide, were equipotent, 30% smaller in molecular weight, and slightly more selective (SIRT2/SIRT1) than the parent compound.
- Kiviranta, Paeivi H.,Leppaenen, Jukka,Rinne, Valtteri M.,Suuronen, Tiina,Kyrylenko, Olga,Kyrylenko, Sergiy,Kuusisto, Erkki,Tervo, Anu J.,Jaervinen, Tomi,Salminen, Antero,Poso, Antti,Wallen, Erik A.A.
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p. 2448 - 2451
(2008/02/03)
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- Cephalosporin prodrugs of paclitaxel for immunologically specific activation by L-49-sFv-β-lactamase fusion protein
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Paclitaxel conjugates of 7-phenylacetamidocephalosporanic acid were prepared as prodrugs for site specific activation by targeted β-lactamase. Immunologically specific activation of the prodrug 5 containing 3,3-dimethyl-4-amino-butyric acid as linker in combination with the fusion protein L-49-sFv-β-lactamase was demonstrated in vitro on 3677 melanoma cells.
- Vrudhula, Vivekananda M.,Kerr, David E.,Siemers, Nathan O.,Dubowchik, Gene M.,Senter, Peter D.
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p. 539 - 542
(2007/10/03)
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- Synthesis and stereoselective C-C bond-forming reactions of peptide aldehydes
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The reaction of the activated form of N-protected amino acids 6 and 10 or peptides 14 and 18 with chiral amino alcohols derived from the corresponding α-amino acids affords peptide alcohols which can be oxidized under Swern conditions to produce the corresponding peptide aldehydes 9, 12, 16 and 20. The rational synthesis of diastereomeric di- and tripeptide aldehydes, e.g., (S,S)- or (R,S)-dipeptides as well as (S,S,S)- or (R,S,S)-tripeptides is possible by proper choice of the respective building blocks [(S)- versus (R)-amino acids]. The compounds can be prepared without any undesired α-epimerization. However, the long-term configurational stability depends upon the configuration at the remote stereogenic center, e.g., (R,S)-dipeptide aldehydes epimerize faster than the (S,S) diastereomers. Di- and tripeptide aldehydes 9, 12, 16 and 20 undergo chelation-controlled Grignardtype additions with Me2CuLi that involve little or no undesired α-epimerization. The (S,S)- and (R,S)-dipeptide aldehydes 9 and 12 undergo chelation-controlled pinacol reactions induced by the low-valent vanadium reagent [V2Cl3(THF)6]2[Zn2Cl 6]. The major products in both cases are the corresponding C2-symmetric diols 33 and 36, respectively, which are of interest as potential HIV-protease inhibitors. The degree of stereoselectivity is significantly higher in the case of the (S,S)-dipeptide aldehydes relative to the (R,S) analogs, an observation which can be explained on the basis of three-point binding of the peptides to vanadium. VCH Verlagsgesellschaft mbH, 1996.
- Reetz, Manfred T.,Griebenow, Nils
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p. 335 - 348
(2007/10/03)
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