Fmoc SPPS使用Perloza珠状纤维素。

D R Englebretsen, D R Harding
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引用次数: 0

摘要

Perloza珠状纤维素通过氰乙基化/还原程序功能化得到氨基丙基Perloza。fmoc氨基酸通过TFA不稳定的4-氧甲基苯氧乙酰(HMPA)连接剂锚定在氨基丙基Perloza珠状纤维素上。使用fmoc -氨基酰基-4-氧甲基苯氧乙酰基-2,4-二氯苯基酯,将所有20种氨基酸锚定在0.37至0.65 mmol/g的取代水平上。fmoc氨基酸也用肽酰胺连接剂4-[(R,S)-1-[1-(9h -芴-9-基)-甲氧羰基氨基-(2',4'-二甲氧基苯甲酸]苯氧乙酸固定。Fmoc-氨基酰基树脂采用Fmoc化学方法制备SPPS。SPPS采用LKB Biolynx 4175低压泵柱连续流多肽合成仪或ABI 430A自动旋涡间歇式仪器进行。用不同合成器合成的肽进行比较,粗肽的质量差别不大。不同的fmoc -氨基酸活化方法(DIC/HOBt/DMF, HBTU, DIC/HOBt/DCM)对Perloza同样有效。使用TFA和清除剂对肽进行切割;然而,通过简单的过滤,TFA-肿胀树脂不容易从TFA/肽溶液中分离出来。因此,可选择的乳沟处理程序使用Perloza。肽段用高效液相色谱法纯化,用高效液相色谱法和氨基酸分析进行鉴定,部分用FAB-MS进行鉴定。成功合成的氨基酸长度从5到34个氨基酸不等。一些肽也使用聚苯乙烯载体和标准化(ABI Fastmoc) SPPS协议合成。用高效液相色谱法对各合成产物的粗裂肽进行比较。我们与Perloza合作的总体目标是合成用于亲和层析和抗体生成的树脂结合肽配体。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fmoc SPPS using Perloza beaded cellulose.

Perloza beaded cellulose was functionalised by a cyanoethylation/reduction procedure to give aminopropyl Perloza. Fmoc-amino acids were anchored to aminopropyl Perloza beaded cellulose via the TFA labile 4-oxymethylphenoxyacetyl (HMPA) linker. Using Fmoc-aminoacyl-4-oxymethylphenoxyacetyl-2,4-dichloro-phenyl esters, all 20 amino acids were anchored at substitution levels ranging from 0.37 to 0.65 mmol/g. Fmoc-amino acids were also anchored using the peptide-amide linker 4-[(R,S)-1-[1-(9H-fluoren-9-yl)-methoxycarbonylamino - (2',4'-dimethoxybenzyl]phenoxyacetic acid. The Fmoc-aminoacyl resins were used for SPPS using Fmoc chemistry. SPPS was carried out using either an LKB Biolynx 4175 low-pressure pumped column continuous-flow peptide synthesiser or an ABI 430A automated vortexing batchwise instrument. Comparison of peptides made using each synthesiser showed little difference in quality of the crude peptides. Different Fmoc-amino acid activation methods (DIC/HOBt/DMF, HBTU, DIC/HOBt/DCM) were found to be equally useful with Perloza. Peptides were cleaved using TFA plus scavengers; however, the TFA-swollen resin was not readily separated from the TFA/peptide solution by simple filtration. Therefore alternative cleavage workup procedures were used with Perloza. Peptides were purified by HPLC and characterised by HPLC and amino acid analysis, and in some cases by FAB-MS. Successful syntheses ranged from 5 to 34 amino acids in length. Some of the peptides were also synthesized using a polystyrene support and standardised (ABI Fastmoc) SPPS protocols. The crude cleaved peptides from each synthesis were compared by HPLC analysis. The overall aim of our work with Perloza is synthesis of resin-bound peptide ligands for affinity chromatography and antibody generation.(ABSTRACT TRUNCATED AT 250 WORDS)

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