Schüttel Mischa, Will Edward, Sangouard Gontran, Zarda Anne, Habeshian Sevan, Nielsen Alexander L, Heinis Christian
Institute of Chemical Sciences and Engineering, School of Basic Sciences, École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.
J Pept Sci. 2024 Apr;30(4):e3555. doi: 10.1002/psc.3555. Epub 2024 Jan 14.
Newer solid-phase peptide synthesis and release strategies enable the production of short peptides with high purity, allowing direct screening for desired bioactivity without prior chromatographic purification. However, the maximum number of peptides that can currently be synthesized per microplate reactor is 96, allowing the parallel synthesis of 384 peptides in modern devices that have space for 4 microplate reactors. To synthesize larger numbers of peptides, we modified a commercially available peptide synthesizer to enable the production of peptides in 384-well plates, which allows the synthesis of 1,536 peptides in one run (4 × 384 peptides). We report new hardware components and customized software that allowed for the synthesis of 1,536 short peptides in good quantity (average > 0.5 μmol), at high concentration (average > 10 mM), and decent purity without purification (average > 80%). The high-throughput peptide synthesis, which we developed with peptide drug development in mind, may be widely used for peptide library synthesis and screening, antibody epitope scanning, epitope mimetic development, or protease/kinase substrate screening.
更新的固相肽合成和释放策略能够生产高纯度的短肽,无需事先进行色谱纯化即可直接筛选所需的生物活性。然而,目前每个微孔板反应器能够合成的肽的最大数量为96个,在有4个微孔板反应器空间的现代设备中可并行合成384个肽。为了合成更多数量的肽,我们对市售的肽合成仪进行了改造,使其能够在384孔板中生产肽,一次运行可合成1536个肽(4×384个肽)。我们报告了新的硬件组件和定制软件,它们能够以良好的产量(平均>0.5μmol)、高浓度(平均>10 mM)和相当高的纯度(平均>80%)在无需纯化的情况下合成1536个短肽。我们在设计肽药物开发时所开发的高通量肽合成法,可能广泛用于肽库合成与筛选、抗体表位扫描、表位模拟物开发或蛋白酶/激酶底物筛选。
