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(S)-2-((((9H-fluoren-9-yl)methoxy)carbonyl)amino)-2,4-dimethylpentanoic acid[ No CAS ]
[ 84793-07-7 ]
[ 71989-31-6 ]
[ 35661-40-6 ]
[ 71989-33-8 ]
[ 71989-14-5 ]
[ 71989-18-9 ]
[ 71989-23-6 ]
[ 71989-38-3 ]
[ 71989-35-0 ]
[ 47375-34-8 ]
[ 94744-50-0 ]
[ 104091-08-9 ]
[ 76-05-1 ]
(S)-6-[(Diphenyl-p-tolyl-methyl)-amino]-2-(9H-fluoren-9-ylmethoxycarbonylamino)-hexanoic acid[ No CAS ]
[ 166108-71-0 ]
Fmoc-Glu(pg)-OH[ No CAS ]
Y-Aib-EGT-αMeF(2F)-TSDYSI-αMeL-LDEK((2-[2-(2-aminoethoxy)ethoxy]acetyl)2-(γGlu)-CO-(CH2)18-CO2H)AQ-Aib-EFI-(D-Glu)-YLIEGGPSSGAPPPS-NH2 trifluoroacetic acid salt[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
General procedure: The peptide backbone of Peptide 1 is synthesized usingFluorenylrnethyloxycarbonyi (Fmoe)/tert-Butyl (t-Bu) chemistry on a Symphony X peptide synthesizer (Gyros Protein Technologies. Tucson, AZ).The resin consists of 1% DVB cross-linked polystyrene (Fmoc-Rink-MBHA Low Loading resin, 100-200 mesh, EMD Millipore) at a substitution of 0.3-0.4 meq/g.Standard side-chain protecting groups were used. Fmoc-Lys(Mtt)-OH is used for the lysine at position 17 and Boc-Tyr(tBu)-QH) was used for the tyrosine at position 1. Frnoc groups are removed prior to each coupling step (2 x 7 minutes) using 20% piperidine in DMF. All standard amino acid couplings are performed for 1 hour to a primary amine and 3 hour to a secondary amine, using an equal molar ratio of Fmoc amino acid (0.3 mM), diisopropyicarbodiimide (0.9 mM) and Qxyma (0.9 mM), at a 9-fold molar excess over the theoretical peptide loading. Exceptions are couplings to C -methylated amino acids, which are coupled for 3 hours. After completion of the synthesis of the peptide backbone, the resin is thoroughly washed with DCM for 6 times to remove residual DMF. The Mtt protecting group on the lysine at position 17 is selectively removed from the peptide resin using two treatments of 30% hexafuoroisopropanol (Oakwood Chemicals) in DCM (2 x 40-minute treatment).Subsequent attachment of the fatty acid-linker moiety is accomplished by coupling of 2-[2-(2-Fmoc-amino-ethoxy)-ethoxy]-acetic acid (Fmoc-AEEA-OH, ChemPep, hie.), Fmoe-glutamie acid or-t-butyl ester (Fmoc-Glu-OtBu, Ark Pharm, Inc.), eicosanedioic acid (WuXi AppTec, Shanghai, China). 3-Fold excess of reagents (AA: PyAQP: DIPEAM : 1 : 1 mol/mol) are used for each coupling that is I -hour long.After the synthesis is complete, the peptide resin is washed with DCM, and then thoroughly air-dried. The dry' resin is treated with 10 mL of cleavage cocktail(trifuoroaeetie acid: water: triisopropylsilane, 95:2,5:2.5 v/v) for 2 hours at room temperature. The resin is filtered off, washed twice each with 2 mL of neat T'FA, and the combined filtrates are treated with 5-fold excess volume of cold diethyl ether (-20C) to precipitate the crude peptide. The peptide/ether suspension is then centrifuged at 3500 rpm for 2 min to form a solid pellet, the supernatant is decanted, and the solid pellet is triturated with ether two additional times and dried in vacuo. The crude peptide is solubilized in 20% aeetonitrile/20%Acetic acid/60%water and purified by RP- HPLC on a Luna 5 /.mi Phenyl-Hexyl preparative column (21 x 250 mm, Phenomenex) with linear gradients of 100% acetonitrile and 0.1% TF A/ water buffer system (30-50% acetonitrile in 60 min). The purity of peptide is assessed using analytical RP-HPLC and pooling criteria is >95%. The main pool purity of compound 1 is found to be 98.0%. Subsequent lyophilization of the final main product pool yielded the lyophilized peptide TFA salt.The molecular weight is determined by LC- MS (obsd: M+3 =1657.2; Calc M+3=1657.0).
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