88099-29-0Relevant articles and documents
Amino-protecting groups subject to deblocking under conditions of nucleophilic addition to a Michael acceptor. Structure-Reactivity studies and use of the 2-(tert-Butylsulfonyl)-2-propenyloxycarbonyl (Bspoc) group
Carpino, Louis A.,Philbin, Michael
, p. 4315 - 4323 (2007/10/03)
A new type of amino-protecting group is described in which a Michael acceptor is incorporated into the protectant so that treatment with a nucleophile will trigger deblocking. Comparison of various Michael acceptors showed that for several key electron-withdrawing groups, the order of reactivity was C6H5SO2 > Me3CSO2 > COOEt > C6H5SO > C6H4NO2-p. The reactivity of the nucleophile (e.g., primary and secondary aliphatic amines) followed an order related to both intrinsic basicity and steric effects. β- Substituents in the Michael acceptor caused significant retardation of the deblocking process. The Bspoc function was chosen for initial elaboration into a practical system for use in peptide synthesis. Bspoc amino acid chlorides were used as coupling agents and silica-tethered secondary amines as deblocking agents. With the latter, deblocking occurs cleanly and no byproducts remain in the organic solvent in which the deblocking is executed.
The 2-Chloro-3-indenylmethyloxycarbonyl and Benzinden-3-ylmethyloxycarbonyl Base-Sensitive Amino-Protecting Groups. Application to an Inverse Merrifield Approach to Peptide Synthesis
Carpino, Louis A.,Cohen, Beri J.,Lin, Yao-Zhong,Stephens, Kenton E.,Triolo, Salvatore
, p. 251 - 259 (2007/10/02)
Two new base-labile amino-protecting groups, which are more sensitive than the FMOC function, are described: the 2-chloro-3-indenylmethyloxycarbonyl (CLIMOC) and benzinden-3-ylmethyloxycarbonyl (BIMOC) groups.The former was determined to be usable in solvents such as methylene dichloride but not in DMF, the latter in any common solvent including DMF.Key intermediate alcohols 10 and 16 were synthesized from 2-chloroindene (9) and benzindene (14).Treatment of indene with chlorine gave 8, which upon dehydrochlorination with DMF gave 9, which was then converted to 10 by standard procedure involving formylation and reduction.Benzindene was converted to its anion by means of n-butyllithium and the anion hydroxymethylated by gaseous formaldehyde.The alcohols were converted to the corresponding chloroformates and thence to succinimido ester 12 and azidoformate 18 for clean, selective protection of amino acids.Model CLIMOC- and BIMOC-amino acids were synthesized and demonstrated to be useful in carrying out a continous peptide synthesis via a two-polymer (polymeric reagents) approach.The protected amino acids were first loaded onto a phenolic polymer such as 21, and the resulting polymeric active esters were used to acylate an amino acid ester or peptide ester.The resulting protected peptide esters were deblocked via silica-based reagents 6 or 23.The acylation step was then repeated with the next amino acid, and the synthesis continued in the same way until completed.Tetrapeptide 26 and pentapeptide 27 were synthesized in this way via CLIMOC (CH2Cl2) and BIMOC (DMF) protection, respectively.These represent the first examples of clean, continous two-polymer syntheses carried out in a single solvent without the release of any low molecular weight byproducts into the solution. the fi
((9-Fluorenylmethyl)oxy)carbonyl (Fmoc) Amino Acid Chlorides. Synthesis, Characterization, and Application to the Rapid Synthesis of Short Peptide Segments
Carpino, Louis A.,Cohen, Beri J.,Stephens, Kenton E.,Sadat-Aalaee, S. Yahya,Tien, Jien-Heh,Langridge, Denton C.
, p. 3732 - 3734 (2007/10/02)
Fmoc amino acid chlorides are described as stable, easily synthesized coupling agents and shown to be useful in a novel method of rapid, repetitive peptide synthesis