| ID | 68966 |
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| Author |
Hayakawa, Tohru
Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University
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Yamaoka, Syun
Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University
Asakura, Mami
Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University
Hirano, Minako
Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University
Ide, Toru
Graduate School of Interdisciplinary Science and Engineering in Health Systems, Okayama University
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| Abstract | We constructed a library of Mpp46Ab mutants, in which S153 within the transmembrane β-hairpin was randomly replaced by other amino acids. Mutagenesis and subsequent primary screening yielded 10 different Mpp46Ab mutants in addition to the wild type. Remarkably, S153 was replaced with a more hydrophobic amino acid in most of the mutants, and the S153I mutant in particular exhibited significantly increased toxicity. Electrophysiologic analysis using artificial lipid bilayers revealed that the single-channel conductance and PK/PCl permeability ratio were significantly increased for S153I pores. This suggests that the formation of highly ion-permeable and highly cation-selective toxin pores increases the influx of cations and water into cells, thereby facilitating osmotic shock. In addition, the S153F, S153L, and S153I mutants exhibited significantly reduced synergistic toxicity with Cry4Aa. Electrophysiologic analysis showed that the S153F, S153L, and S153I mutants form toxin pores with a significantly reduced PK/PNa permeability ratio and a significantly increased PK/PCa permeability ratio compared to wild-type pores. Thus, our results suggest that pore formation is central to the insecticidal activity of Mpp46Ab and that the ion permeability of toxin pores is a potential indicator correlated with both toxicity and synergistic toxicity with other toxins.
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| Keywords | Bacillus thuringiensis
mosquito-larvicidal proteins
synergistic toxicity
Culex pipiens mosquito larvae
side-directed mutagenesis
electrophysiologic analysis
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| Published Date | 2025-04-30
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| Publication Title |
Biology
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| Volume | volume14
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| Issue | issue5
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| Publisher | MDPI AG
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| Start Page | 489
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| ISSN | 2079-7737
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| Content Type |
Journal Article
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| language |
English
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| OAI-PMH Set |
岡山大学
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| Copyright Holders | © 2025 by the authors.
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| File Version | publisher
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| Related Url | isVersionOf https://doi.org/10.3390/biology14050489
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| License | https://creativecommons.org/licenses/by/4.0/
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| Citation | Hayakawa, T.; Yamaoka, S.; Asakura, M.; Hirano, M.; Ide, T. Mutagenesis Targeting the S153 Residue Within the Transmembrane β-Hairpin of Mosquito-Larvicidal Mpp46Ab Affects Its Toxicity and the Synergistic Toxicity with Cry4Aa. Biology 2025, 14, 489. https://doi.org/10.3390/biology14050489
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| 助成情報 |
( 公益財団法人両備檉園記念財団 / Ryobi Teien Memorial Foundation )
22K05676:
殺蚊Btトキシンの小孔形成と殺虫活性-殺虫活性コントロール技術の開発に向けて-
( 独立行政法人日本学術振興会 / Japan Society for the Promotion of Science )
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