* All experimental methods are cited from the reference, please refer to the original source for details. We do not guarantee the accuracy of the content in the reference.
3-(9-carboxy-nonyloxy)benzoic acid tert-butyl ester[ No CAS ]
[ 84793-07-7 ]
[ 35661-40-6 ]
[ 71989-23-6 ]
[ 62-57-7 ]
[ 32926-43-5 ]
[ 166108-71-0 ]
Fmoc-Arg(pg)-OH[ No CAS ]
Fmoc-Trp(pg)-OH[ No CAS ]
Fmoc-Gln(pg)-OH[ No CAS ]
Fmoc-Tyr(pg)-OH[ No CAS ]
Fmoc-Ser(pg)-OH[ No CAS ]
Fmoc-Asp(pg)-OH[ No CAS ]
Fmoc-Thr(pg)-OH[ No CAS ]
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-{2-[2-(2-{2-[2-(2-{4-carboxy-4-[10-(3-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acetyl})-EFIAWLVRGRK(Nε-{2-[2-(2-{2-[2-(2-{4-carboxy-4-[10-(3-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acetyl})-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SPPS Method B, starting with low-load Fmoc-Lys(Mtt)-Wang resin. Fmoc-Lys(Mtt)-OH was used in position 26, and Boc-His(trt)-OH was used in position 7. The Mtt was removedwith HFIP, and 8-(9-fluorenylmethyloxycarbonyl-amino)-3,6-dioxaoctanoic acid (commercially available from Iris Biotech),Fmoc-Glu-OtBu, and 3-(9-carboxy-nonyloxy)-benzoic acid tert-butyl ester were coupled using a double couplingmethod on the Liberty Peptide synthesiser.UPLC (method 04_A4_1): 10.01 minUPLC (method 08_B4_1): 8.81 minLCMS4: m/z = 978.5 (M+5H)5+, 1222.8 (M+4H)4+, 1630.1 (M+3H)3+
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-[2-(2-{2-[10-(4-carboxyphenoxy)decanoylamino]ethoxy}ethoxy)acetyl])-EFIAWLVRGRK(Nε-[2-(2-{2-[10-(4-carboxyphenoxy)decanoylamino]ethoxy}ethoxy)acetyl])-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling.Preparation method: SPPS method B, starting with low-load Fmoc-Lys(Mtt)-Wang resin.Fmoc-Lys(Mtt)-OH was used in position 26, and Boc-His(trt)-OH was used in position 7. The Mtt was removed withHFIP, and 8-(9-fluorenylmethyloxycarbonyl-amino)-3,6-dioxaoctanoic acid (commercially available from Iris Biotech)and 4-(9-carboxy-nonyloxy)-benzoic acid tert-butyl ester (prepared as described in Example 25, step 2 of WO2006/082204) were coupled using a double coupling method on the Liberty Peptide synthesiserUPLC (method 04_A3_1): 10.51 minLCMS4: m/z = 1085.2 (M+4H)4+, 1447.3 (M+3H)3+
H-Aib-EGTFTSDVSSYLEGQAAK(Nε{2-[2-(2-{2-[2-(2-{(S)-4-Carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acet yl})-EFIAWLVRGRK(Nε-{2-[2-(2-{2-[2-(2-{(S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acetyl})-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SPPS method B, starting with low-load Fmoc-Lys(Mtt)-Wang resin. Fmoc-Lys(Mtt)-OHwas used in position 26, and Boc-His(Trt)-OH was used in position 7. The Mtt was removed with HFIP, and 8-(9-fluorenylmethyloxycarbonyl-amino)-3,6-dioxaoctanoic acid (commercially available from Iris Biotech), Fmoc-Glu-OtBu,and 4-(9-carboxy-nonyloxy)-benzoic acid tert-butyl ester (prepared as described in Example 25, step 2 of WO2006/082204) were coupled using a double coupling method on the Liberty Peptide synthesiser.UPLC (method 04_A3_1): 7.19 minLCMS4: m/z = 978.5 (M+5H)5+, 1222.8 (M+4H)4+ 1630.1 (M+3H)3+
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-{2-[2-(2-{(S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetyl})-EFIAWLVRGRK(Nε-{2-[2-(2-{(S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}ethoxy)ethoxy]acetyl})-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SPPS method B, starting with low-load Fmoc-Lys(Mtt)-Wang resin. Fmoc-Lys(Mtt)-OHwas used in position 26, and Boc-His(Trt)-OH was used in position 7. The Mtt was removed with HFIP, and 8-(9-fluorenylmethyloxycarbonyl-amino)-3,6-dioxaoctanoic acid (commercially available from Iris Biotech), Fmoc-Glu-OtBuand 4-(9-carboxy-nonyloxy)-benzoic acid tert-butyl ester (prepared as described in Example 25, step 2 of WO2006/082204) were coupled using SPPS method D.UPLC (method 08_B4_1): Rt = 8.8 minUPLC (method 04_A3_1): Rt = 9.6 minLCMS4: 4598.0Calculated MW = 4598.2
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-[2-[2-[2-[[2-[2-[2-[[(4S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butanoyl]amino]ethoxy]ethoxy]acetyl]amino]ethoxy]ethoxy]acetyl])-EFIAWLVRGRK(Nε-[2-[2-[2-[[2-[2-[2-[[(4S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butanoyl]amino]ethoxy]ethoxy]acetyl]amino]ethoxy]ethoxy]acetyl])-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SPPS method BLCMS4: Rt = 2.12 min, m/z: 4916.0UPLC (method: 08_B2_1): Rt = 12.59 minUPLC (method: 04_A3_1): Rt = 10.57 min
H-Aib-GGTFTSDVSSYLEGQAAK(Nε-[2-[2-[2-[[2-[2-[2-[[(2S)-4-carboxy-2-[10-(4-carboxyphenoxy)decanoylamino]butanoyl]amino]ethoxy]ethoxy]acetyl]amino]ethoxy]ethoxy]acetyl])-EFIAWLVRGRK(Nε-[2-[2-[2-[[2-[2-[2-[[(2S)-4-carboxy-2-[10-(4-carboxyphenoxy)decanoylamino]butanoyl]amino]ethoxy]ethoxy]acetyl]amino]ethoxy]ethoxy]acetyl])-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SSPS method BUPLC (method:08_B2_1): Rt = 13.193 minUPLC (method:05_B5_1): Rt = 6.685 minLCMS4: m/z: 4887; m/3:1630; m/4:1222; m/5:978
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-((S)-4-carboxy-4-{(S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}butyryl))-EFIAWLVRGRK(Nε-((S)-4-carboxy-4-{(S)-4-carboxy-4-[10-(4-carboxyphenoxy)decanoylamino]butyrylamino}butyryl))-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation: SPPS method B, starting with low-load Fmoc-Lys(Mtt)-Wang resin. Fmoc-Lys(Mtt)-OH was usedin position 26, and Boc-His(Trt)-OH was used in position 7. The Mtt was removed with HFIP, and Fmoc-Glu-OtBu and4-(9-carboxy-nonyloxy)-benzoic acid tert-butyl ester (prepared as described in Example 25, step 2 of WO 2006/082204)were coupled using SPPS method D.UPLC (method 08_B4_1): Rt = 8.6 minUPLC (method 04_A3_1): Rt = 7.9 minLCMS4: 4565.0Calculated MW = 4566.1
3-(11-carboxy-undecyloxy)benzoic acid tert-butyl ester[ No CAS ]
[ 84793-07-7 ]
[ 35661-40-6 ]
[ 71989-23-6 ]
[ 62-57-7 ]
[ 32926-43-5 ]
[ 166108-71-0 ]
Fmoc-Arg(pg)-OH[ No CAS ]
Fmoc-Trp(pg)-OH[ No CAS ]
Fmoc-Gln(pg)-OH[ No CAS ]
Fmoc-Tyr(pg)-OH[ No CAS ]
Fmoc-Ser(pg)-OH[ No CAS ]
Fmoc-Asp(pg)-OH[ No CAS ]
Fmoc-Thr(pg)-OH[ No CAS ]
H-Aib-EGTFTSDVSSYLEGQAAK(Nε-{2-[2-(2-{2-[2-(2-{(S)-4-carboxy-4-[12-(3-carboxyphenoxy)dodecanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acetyl})-EFIAWLVRGRK(Nε-{2-[2-(2-{2-[2-(2-{(S)-4-carboxy-4-[12-(3-carboxyphenoxy)dodecanoylamino]butyrylamino}ethoxy)ethoxy]acetylamino}ethoxy)ethoxy]acetyl})-OH[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
SPPS method B refers to the synthesis of a protected peptidyl resin using Fmoc chemistry on a microwave based Liberty peptide synthesiser (CEM Corp., North Carolina). A suitable resin is a pre-loaded, low-load Wang resinavailable from Novabiochem (e.g. low load Fmoc-Lys(Mtt)-Wang resin, 0.35 mmol/g). Fmoc-deprotection was with 5percentpiperidine in NMP at up to 70 or 75°C. The coupling chemistry was DIC/HOAt in NMP. Amino acid/HOAt solutions (0.3M in NMP at a molar excess of 3-10 fold) were added to the resin followed by the same molar equivalent of DIC (0.75Min NMP). For example, the following amounts of 0.3M amino acid/HOAt solution were used per coupling for the followingscale reactions: Scale/ml, 0.10 mmol/2.5 ml, 0.25 mmol/5 ml, 1 mmol/15 ml. Coupling times and temperatures weregenerally 5 minutes at up to 70 or 75°C. Longer coupling times were used for larger scale reactions, for example 10min. Histidine amino acids were double coupled at 50°C, or quadruple coupled if the previous amino acid was stericallyhindered (e.g. Aib). Arginine amino acids were coupled at RT for 25 min then heated to 70 or 75°C for 5 min. Someamino acids such as but not limited to Aib, were "double coupled", meaning that after the first coupling (e.g. 5 min at75°C), the resin is drained and more reagents are added (amino acid, HOAt and DIC), and the mixture in heated again(e.g. 5 min at 75°C). When a chemical modification of a lysine side chain was desired, the lysine was incorporated asLys(Mtt). The Mtt group was removed by washing the resin with DCM and suspending the resin in neat (undiluted)hexafluoroisopropanol for 20 minutes followed by washing with DCM and NMP. The chemical modification of the lysinewas performed either by manual synthesis (see SPPS method D) or by one or more automated steps on the Libertypeptide synthesiser as described above, using suitably protected building blocks (see General methods), optionallyincluding a manual coupling. Preparation method: SPPS Method B. The 3-(11-carboxy-undecyloxy)-benzoic acid tert-butyl ester was preparedin similar fashion as described for 3-(15-carboxy-pentadecyloxy)-benzoic acid tert-butyl ester, empoying 12-bromododecanoicacid. The final product was characterised by analytical UPLC and LC-MS with the exception that an aceticanhydride capping step was performed after the coupling of the following amino acids: Trp31, Ala25, Tyr19, Phe12 andAib8 (2? min, 65°C with 1 N Acetic acid anhydride in NMP)UPLC (method 08_B4_1): Rt = 9.449 minLCMS4: Rt = 2.37 min, m/z = m/z: 1011.88(m/4); 1264.32(m/3); 4942.24Calculated MW = 4944.608
Fmoc-?E-Amc-Ahx-dGlu-dGlu-dGlu-Gly-Tyr-Gly-Gly-Gly-Cys-NH2 (SEQ ID NO: 12) was assembled on the resin using standard Fmoc peptide synthesis. Fmoc-?E stands for Fmoc(Glu)-OtBu where the gamma-carboxyl group is unprotected. After removal of the last Fmoc on the assembled peptide, the resin is washed with DMF, methanol and chloroform. Then, a chloroform solution containing a 5-fold excess of H-Glu(OtBu)-OtBu mixed with 2.5 eq (with respect to H-Glu(OtBu)-OtBu) of diisopropylethylamine was prepared. The solution was then added slowly to 0.25 eq (with respect to H-Glu(OtBu)-OtBu) triphosgene over 10 minutes at room temperature. The presumed product of this reaction is an isocyanate derivative of H-Glu(OtBu)-OtBu. After a 15 minute incubation to allow for isocyanate formation, the reaction is mixed with the ?E-Amc-Ahx-Glu-Glu-Glu-Gly-Tyr-Gly-Gly-Gly-Cys-NH2 (SEQ ID NO: 13) on a rink amide resin pre-swollen in chloroform with 2.5 eq of diisopropylethylamine. After 30 minutes of mixing, a Ninhydrin test was administered to test for residual free-amine on the resin. Once the reaction is complete, the resin is washed and the complete peptide product is cleaved. The product elutes at 12.4 minutes on analytical HPLC column with a 10percent-95percent gradient in 40 minutes (flow rate 0.8 ml/min; A: water with 0.1percent TFA; B: acetonitrile). The mass was verified by MALDI/TOF mass spectrometry?Calculated: 1452.6 (C60H88N14O26S). found m/z: 1453.4 (M+1).
Fmoc-‘E-Amc-Ahx-dGlu-dGlu-dGlu-Tyr-Lys-NH2[ No CAS ]
Yield
Reaction Conditions
Operation in experiment
Fmoc-?E-Amc-Ahx-dGlu-dGlu-dGlu-Tyr-Lys-NH2 (SEQ ID NO: 14) was assembled on the resin using standard Fmoc peptide synthesis. The glutamates (dGlu) are D-isomers. Fmoc-?E stands for Fmoc(Glu)-OtBu where the gamma-carboxyl group is unprotected. The last Fmoc on the assembled peptide is then removed by 20percent piperidine. Then a chloroform solution containing 5 eq. of H-Glu(OtBu)-OtBu mixed with 2.5 eq (with respect to H-Glu(OtBu)-OtBu) of diisopropylethylamine was prepared. The solution was then added slowly to 0.25 eq (with respect to H-Glu(OtBu)-OtBu) triphosgene in chloroform over 10 minutes at room temperature. After a 15 minute incubation to allow for isocyanate formation, the reaction is mixed with the ?E-Amc-Ahx-Glu-Glu-Glu-Gly-Tyr-Gly-Gly-Gly-Cys-NH2 (SEQ ID NO: 13) on a rink amide resin pre-swollen in chloroform with 2.5 eq of diisopropylethylamine. After 30 minutes of mixing, a Ninhydrin test was administered to test for residual free-amine on the resin. The reaction was repeated if needed. Once the reaction is complete, the resin is washed and the complete peptide product is cleaved. To couple the purified peptide E?EAmc-Ahx-EEEYK(Bn-NOTA)-NH2 (SEQ ID NO: 15) with SCN-Bn-NOTA (Macrocyclics), E?EAmc-Ahx-dEdEdEYK (SEQ ID NO: 16) was dissolved in DMF at a concentration of 25 mg/mL and an equimolar amount of SCN-Bn-NOTA was dissolved in DMSO at a concentration of 200 mg/mL. After mixing the above DMF and DMSO solutions of the reactants, DIPEA was added to concentration of 2percent v/v. The reaction was monitored by HPLC and allowed to proceed up to 2 hours. Then, glacial acetic acid equivolume to DIPEA is added to stop the reaction. The final product was E?EAmc-Ahx-dGlu-dGlu-dGlu-Tyr-Lys(Bn-NOTA)-NH2 (compound 4) (SEQ ID NO: 8) The product elutes at 14.8 min on an analytical column with a 10percent-90percent gradient in 45 minutes with a flow rate of 0.8 ml/min (A: water with 0.1percent TFA; B: acetonitrile). The mass was verified by MALDI/TOF mass spectrometry?Calculated: 1699.7. found m/z: 1700.7 (M+1).
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