Channel formation in cry toxins: an alphafold-2 perspective
Bacillus thuringiensis (Bt) strains produce pore-forming toxins (PFTs) that attack insect pests. Information for pre-pore and pore structures of some of these Bt toxins is available. However, for the three-domain (I-III) crystal (Cry) toxins, the most used Bt toxins in pest control, this crucial inf...
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sg-ntu-dr.10356-1730462024-01-15T15:32:43Z Channel formation in cry toxins: an alphafold-2 perspective Torres, Jaume Surya, Wahyu Boonserm, Panadda School of Biological Sciences Science::Biological sciences Cry Toxins Alphafold Bacillus thuringiensis (Bt) strains produce pore-forming toxins (PFTs) that attack insect pests. Information for pre-pore and pore structures of some of these Bt toxins is available. However, for the three-domain (I-III) crystal (Cry) toxins, the most used Bt toxins in pest control, this crucial information is still missing. In these Cry toxins, biochemical data have shown that 7-helix domain I is involved in insertion in membranes, oligomerization and formation of a channel lined mainly by helix α4, whereas helices α1 to α3 seem to have a dynamic role during insertion. In the case of Cry1Aa, toxic against Manduca sexta larvae, a tetrameric oligomer seems to precede membrane insertion. Given the experimental difficulty in the elucidation of the membrane insertion steps, we used Alphafold-2 (AF2) to shed light on possible oligomeric structural intermediates in the membrane insertion of this toxin. AF2 very accurately (<1 Å RMSD) predicted the crystal monomeric and trimeric structures of Cry1Aa and Cry4Ba. The prediction of a tetramer of Cry1Aa, but not Cry4Ba, produced an 'extended model' where domain I helices α3 and α2b form a continuous helix and where hydrophobic helices α1 and α2 cluster at the tip of the bundle. We hypothesize that this represents an intermediate that binds the membrane and precedes α4/α5 hairpin insertion, together with helices α6 and α7. Another Cry1Aa tetrameric model was predicted after deleting helices α1 to α3, where domain I produced a central cavity consistent with an ion channel, lined by polar and charged residues in helix α4. We propose that this second model corresponds to the 'membrane-inserted' structure. AF2 also predicted larger α4/α5 hairpin n-mers (14 ≤n ≤ 17) with high confidence, which formed even larger (~5 nm) pores. The plausibility of these models is discussed in the context of available experimental data and current paradigms. Published version 2024-01-10T04:55:24Z 2024-01-10T04:55:24Z 2023 Journal Article Torres, J., Surya, W. & Boonserm, P. (2023). Channel formation in cry toxins: an alphafold-2 perspective. International Journal of Molecular Sciences, 24(23), 16809-. https://dx.doi.org/10.3390/ijms242316809 1661-6596 https://hdl.handle.net/10356/173046 10.3390/ijms242316809 38069132 2-s2.0-85179347787 23 24 16809 en International journal of molecular sciences © 2023 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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Science::Biological sciences Cry Toxins Alphafold Torres, Jaume Surya, Wahyu Boonserm, Panadda Channel formation in cry toxins: an alphafold-2 perspective |
| description |
Bacillus thuringiensis (Bt) strains produce pore-forming toxins (PFTs) that attack insect pests. Information for pre-pore and pore structures of some of these Bt toxins is available. However, for the three-domain (I-III) crystal (Cry) toxins, the most used Bt toxins in pest control, this crucial information is still missing. In these Cry toxins, biochemical data have shown that 7-helix domain I is involved in insertion in membranes, oligomerization and formation of a channel lined mainly by helix α4, whereas helices α1 to α3 seem to have a dynamic role during insertion. In the case of Cry1Aa, toxic against Manduca sexta larvae, a tetrameric oligomer seems to precede membrane insertion. Given the experimental difficulty in the elucidation of the membrane insertion steps, we used Alphafold-2 (AF2) to shed light on possible oligomeric structural intermediates in the membrane insertion of this toxin. AF2 very accurately (<1 Å RMSD) predicted the crystal monomeric and trimeric structures of Cry1Aa and Cry4Ba. The prediction of a tetramer of Cry1Aa, but not Cry4Ba, produced an 'extended model' where domain I helices α3 and α2b form a continuous helix and where hydrophobic helices α1 and α2 cluster at the tip of the bundle. We hypothesize that this represents an intermediate that binds the membrane and precedes α4/α5 hairpin insertion, together with helices α6 and α7. Another Cry1Aa tetrameric model was predicted after deleting helices α1 to α3, where domain I produced a central cavity consistent with an ion channel, lined by polar and charged residues in helix α4. We propose that this second model corresponds to the 'membrane-inserted' structure. AF2 also predicted larger α4/α5 hairpin n-mers (14 ≤n ≤ 17) with high confidence, which formed even larger (~5 nm) pores. The plausibility of these models is discussed in the context of available experimental data and current paradigms. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Torres, Jaume Surya, Wahyu Boonserm, Panadda |
| format |
Article |
| author |
Torres, Jaume Surya, Wahyu Boonserm, Panadda |
| author_sort |
Torres, Jaume |
| title |
Channel formation in cry toxins: an alphafold-2 perspective |
| title_short |
Channel formation in cry toxins: an alphafold-2 perspective |
| title_full |
Channel formation in cry toxins: an alphafold-2 perspective |
| title_fullStr |
Channel formation in cry toxins: an alphafold-2 perspective |
| title_full_unstemmed |
Channel formation in cry toxins: an alphafold-2 perspective |
| title_sort |
channel formation in cry toxins: an alphafold-2 perspective |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173046 |
| _version_ |
1789483106136227840 |