Full-length versus truncated α-factor secretory signal sequences for expression of recombinant human insulin precursor in yeast Pichia pastoris: a comparison.

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Nuruliawaty Utami, Dini Nurdiani, Hariyatun Hariyatun, Eko Wahyu Putro, Fadillah Putri Patria, Wien Kusharyoto
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Abstract

Background: Human insulin was the first FDA-approved biopharmaceutical drug produced through recombinant DNA technology. The previous studies successfully expressed recombinant human insulin precursors (HIP) in Pichia pastoris truncated and full-length α-factor recombinant clones. The matting α-factor (Matα), a signal secretion, direct the HIP protein into the culture media. This study aimed to compare the HIP expression from full-length and truncated α-factor secretory signals clones that grown in two types of media, buffered methanol complex medium (BMMY) and methanol basal salt medium (BSMM).

Results: ImageJ analysis of the HIP's SDS-PAGE shows that the average HIP expression level of the recombinant P. pastoris truncated α-factor clone (CL4) was significantly higher compared to the full-length (HF7) when expressed in both media. Western blot analysis showed that the expressed protein was the HIP. The α-factor protein structure was predicted using the AlphaFold and visualized using UCSF ChimeraX to confirm the secretion ability for both clones.

Conclusions: CL4 clone, which utilized a truncated α-factor in the P. pastoris HIP expression cassette, significantly expressed HIP 8.97 times (in BMMY) and 1.17 times (in BSMM) higher than HF7 clone, which used a full-length α-factor secretory signal. This research confirmed that deletion of some regions of the secretory signal sequence significantly improved the efficiency of HIP protein expression in P. pastoris.

Abstract Image

Abstract Image

Abstract Image

在酵母 Pichia pastoris 中表达重组人胰岛素前体的全长与截短 α-因子分泌信号序列:比较。
背景:人胰岛素是美国食品和药物管理局批准的第一种通过 DNA 重组技术生产的生物制药药物。之前的研究成功地在 Pichia pastoris 中表达了重组人胰岛素前体(HIP)的截短和全长 α-因子重组克隆。Matting α-因子(Matα)是一种信号分泌物,可引导 HIP 蛋白进入培养基。本研究旨在比较在两种培养基(缓冲甲醇复合培养基(BMMY)和甲醇基础盐培养基(BSMM))中生长的全长和截短α-因子分泌信号克隆的HIP表达情况:ImageJ对HIP的SDS-PAGE分析表明,重组牧马人截短α-因子克隆(CL4)在两种培养基中表达的HIP平均表达水平明显高于全长(HF7)。Western 印迹分析表明,表达的蛋白是 HIP。使用 AlphaFold 预测了α-因子蛋白的结构,并使用 UCSF ChimeraX 进行了可视化,以确认两个克隆的分泌能力:结论:CL4克隆在P. pastoris HIP表达盒中使用了截短的α-因子,其HIP表达量是使用全长α-因子分泌信号的HF7克隆的8.97倍(在BMMY中)和1.17倍(在BSMM中)。这项研究证实,删除分泌信号序列的某些区域可显著提高牧杆菌中 HIP 蛋白的表达效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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