Biophysical analysis of Vip3Aa toxin mutants before and after activation
Cry toxins from Bacillus thuringiensis are effective biopesticides that kill lepidopteran pests, replacing chemical pesticides that indiscriminately attack both target and non-target organisms. However, resistance in susceptible pests is an emerging problem. B. thuringiensis also produces vegetative...
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sg-ntu-dr.10356-1821102025-01-13T15:32:36Z Biophysical analysis of Vip3Aa toxin mutants before and after activation Khunrach, Pongsatorn Surya, Wahyu Promdonkoy, Boonhiang Torres, Jaume Boonserm, Panadda School of Biological Sciences Medicine, Health and Life Sciences Bacillus thuringiensis Mass photometry Cry toxins from Bacillus thuringiensis are effective biopesticides that kill lepidopteran pests, replacing chemical pesticides that indiscriminately attack both target and non-target organisms. However, resistance in susceptible pests is an emerging problem. B. thuringiensis also produces vegetative insecticidal protein (Vip3A), which can kill insect targets in the same group as Cry toxins but using different host receptors, making the combined application of Cry and Vip3A an exciting possibility. Vip3A toxicity requires the formation of a homotetramer. Hence, screening of Vip3A mutants for increased stability requires orthogonal biophysical assays that can test both tetrameric integrity and monomeric robustness. For this purpose, we have used herein for the first time a combination of analytical ultracentrifugation (AUC), mass photometry (MP), differential static light scattering (DSLS) and differential scanning fluorimetry (DSF) to test five mutants at domains I and II. Although all mutants appeared more stable than the wild type (WT) in DSLS, mutants that showed more dissociation into dimers in MP and AUC experiments also showed earlier thermal unfolding by DSF at domains IV-V. All of the mutants were less toxic than the WT, but toxicity was highest for domain II mutations N242C and F229Y. Activation of the protoxin was complete and resulted in a form with a lower sedimentation coefficient. Future high-resolution structural data may lead to a deeper understanding of the increased stability that will help with rational design while retaining native toxicity. Nanyang Technological University Published version This work was supported by the School of Biological Sciences (to J.T.), the National Science and Technology Development Agency, Thailand, grant number P2050624 (to P.B. and B.P.), the Thailand Graduate Institute of Science and Technology (TGIST), and the Mahidol University Scholarship for Postgraduate Student Mobility Program 2023 (to P.K.). 2025-01-08T01:40:38Z 2025-01-08T01:40:38Z 2024 Journal Article Khunrach, P., Surya, W., Promdonkoy, B., Torres, J. & Boonserm, P. (2024). Biophysical analysis of Vip3Aa toxin mutants before and after activation. International Journal of Molecular Sciences, 25(22), 11970-. https://dx.doi.org/10.3390/ijms252211970 1661-6596 https://hdl.handle.net/10356/182110 10.3390/ijms252211970 39596038 2-s2.0-85210552015 22 25 11970 en International Journal of Molecular Sciences © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Medicine, Health and Life Sciences Bacillus thuringiensis Mass photometry Khunrach, Pongsatorn Surya, Wahyu Promdonkoy, Boonhiang Torres, Jaume Boonserm, Panadda Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| description |
Cry toxins from Bacillus thuringiensis are effective biopesticides that kill lepidopteran pests, replacing chemical pesticides that indiscriminately attack both target and non-target organisms. However, resistance in susceptible pests is an emerging problem. B. thuringiensis also produces vegetative insecticidal protein (Vip3A), which can kill insect targets in the same group as Cry toxins but using different host receptors, making the combined application of Cry and Vip3A an exciting possibility. Vip3A toxicity requires the formation of a homotetramer. Hence, screening of Vip3A mutants for increased stability requires orthogonal biophysical assays that can test both tetrameric integrity and monomeric robustness. For this purpose, we have used herein for the first time a combination of analytical ultracentrifugation (AUC), mass photometry (MP), differential static light scattering (DSLS) and differential scanning fluorimetry (DSF) to test five mutants at domains I and II. Although all mutants appeared more stable than the wild type (WT) in DSLS, mutants that showed more dissociation into dimers in MP and AUC experiments also showed earlier thermal unfolding by DSF at domains IV-V. All of the mutants were less toxic than the WT, but toxicity was highest for domain II mutations N242C and F229Y. Activation of the protoxin was complete and resulted in a form with a lower sedimentation coefficient. Future high-resolution structural data may lead to a deeper understanding of the increased stability that will help with rational design while retaining native toxicity. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Khunrach, Pongsatorn Surya, Wahyu Promdonkoy, Boonhiang Torres, Jaume Boonserm, Panadda |
| format |
Article |
| author |
Khunrach, Pongsatorn Surya, Wahyu Promdonkoy, Boonhiang Torres, Jaume Boonserm, Panadda |
| author_sort |
Khunrach, Pongsatorn |
| title |
Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| title_short |
Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| title_full |
Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| title_fullStr |
Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| title_full_unstemmed |
Biophysical analysis of Vip3Aa toxin mutants before and after activation |
| title_sort |
biophysical analysis of vip3aa toxin mutants before and after activation |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182110 |
| _version_ |
1821279344085958656 |