Rational Design of Pepsin for Enhanced Thermostability via Exploiting the Guide of Structural Weakness on Stability

Zhao, Yue; Miao, Yulu; Zhi, Fengdong; Pan, Yiou; Zhang, Jianguo; Yang, Xuepeng; Zhang, John Z. H.; Zhang, Lujia

doi:10.3389/fphy.2021.755253

Cited by 7 publications

(2 citation statements)

References 55 publications

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“…Pepsin requires an optimum temperature of 37 °C, similar to body temperature, and an optimum pH of 1.8 (Fig. 1) [34]. The enzyme exhibits strong proteolytic activity, preferentially hydrolyzing peptide bonds involving the aromatic amino acids (tryptophan, tyrosine, and phenylalanine) at pH > 2.0 [35].…”

Section: Protein Digestion Process In Vivomentioning

confidence: 99%

Methods for improving meat protein digestibility in older adults

Lee¹,

Kang²,

Lee³

et al. 2023

J Anim Sci Technol

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Section: Protein Digestion Process In Vivomentioning

confidence: 99%

Methods for improving meat protein digestibility in older adults

Lee¹,

Kang²,

Lee³

et al. 2023

J Anim Sci Technol

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“…For instance, an engineered version of xylanase from Gloeophyllum trabeum was demonstrated to have an improved temperature optimum up to 80 o C and enhanced stability at low pH (2 -7.5) compared to the wild-type enzyme enabling applications in feed and brewing industries 20 . In another study, mutations D52N and S129A were introduced into pepsin based on G calculations and the half-life of these mutants was increased significantly 21 . However, so far there have been no reports on improving the thermostability of Cas effectors for diagnostic purposes.…”

Section: Introductionmentioning

confidence: 99%

Engineering Highly Thermostable Cas12b via De Novo Structural Analyses for One-Pot Detection of Nucleic Acids

Nguyễn

Rananaware

Yang

et al. 2022

Preprint

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Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)-based diagnostics have elevated nucleic acid detection in terms of sensitivity, specificity, and rapidity in recent years. CRISPR-Cas systems can be combined with a pre-amplification step in a one-pot reaction to simplify workflow and reduce carryover contamination. Here, we report an engineered Cas12b system from Brevibacillus (eBrCas12b) with improved thermostability that falls within the optimal range (60-65°C) of the Reverse Transcription-Loop-Mediated Isothermal Amplification (RT-LAMP). Using de novo structural analyses via DeepDDG and HotSpot Wizard based on Alpha Fold and SWISS-MODEL predicted structures, mutations were introduced into the REC and RuvC domains of wild-type BrCas12b to tighten the hydrophobic cores of the protein, thereby enhancing its stability at high temperatures. We expressed, purified, and systematically characterized 49 BrCas12b variants with the emphasis on functionality and thermostability. The assay utilizing eBrCas12b, which we coined SPLENDID (Single-pot LAMP-mediated engineered BrCas12b for nucleic acid detection of infectious diseases), exhibits robust trans-cleavage activity up to 67°C in a one-pot setting-4°C and 7°C higher than wild-type BrCas12b and AapCas12b, respectively. We further validated SPLENDID clinically in 40 Hepatitis C (HCV) positive and 40 negative serum samples. A specificity of 97.5%, an accuracy of 90.0%, and a sensitivity of 82.5% were achieved. Results can be obtained via one-pot testing in as little as 20 minutes. With the extraction process, the entire assay can be performed in under an hour. Therefore, we believe that SPLENDID has the potential to become a widely universal platform for the detection of infectious diseases.

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