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Abstract
Phosphate plays a vital role in spider silk spinning and has been utilized in numerous artificial silk spinning attempts to replicate the remarkable mechanical properties of natural silk fiber. Its application in artificial processes has, however, yielded varying outcomes. It is thus necessary to investigate the origins and mechanisms behind these differences. By using recombinant silk protein SC-ADF3 derived from the garden spider Araneus diadematus, here, we describe its conformational changes under various conditions, elucidating the effect of phosphate on SC-ADF3 silk protein properties and interactions. Our results demonstrate that elevated phosphate levels induce the irreversible conformational conversion of SC-ADF3 from random coils to β-sheet structures, leading to decreased protein solubility over time. Furthermore, exposure of SC-ADF3 to phosphate stiffens already formed structures and reduces the ability to form new interactions. Our findings offer insights into the underlying mechanism through which phosphate-induced β-sheet structures in ADF3-related silk proteins impede fiber formation in the subsequent phases. From a broader perspective, our studies emphasize the significance of silk protein conformation for functional material formation, highlighting that the formation of β-sheet structures at the initial stages of protein assembly will affect the outcome of material forming processes.
Original language | English |
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Pages (from-to) | 3990–4000 |
Journal | Biomacromolecules |
Volume | 25 |
Issue number | 7 |
Early online date | 25 Jun 2024 |
DOIs | |
Publication status | Published - 8 Jul 2024 |
MoE publication type | A1 Journal article-refereed |
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Dive into the research topics of 'Effect of Phosphate on the Molecular Properties, Interactions, and Assembly of Engineered Spider Silk Proteins'. Together they form a unique fingerprint.-
-: Center of Excellence in Life-Inspired Hybrid Materials
Linder, M. (Principal investigator), Aranko, S. (Project Member), Elfving, K. (Project Member), Lemetti, L. (Project Member), Tunn, I. (Project Member), Aspelin, H. (Project Member), Fedorov, D. (Project Member), Osmekhina, E. (Project Member) & Roas Escalona, N. (Project Member)
01/01/2022 → 31/12/2024
Project: Academy of Finland: Other research funding
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CATBAT: A combinatorial approach towards biological materials
Linder, M. (Principal investigator), Astapov, D. (Project Member), Koskela, S. (Project Member), Sammalisto, F.-E. (Project Member), Yin, Y. (Project Member), Roas Escalona, N. (Project Member), Elfving, K. (Project Member), Malkamäki, M. (Project Member), Tersteegen, J. (Project Member), Tunn, I. (Project Member), Välisalmi, T. (Project Member), Möttönen, N. (Project Member), Aspelin, H. (Project Member), Ahlberg, M. (Project Member), Lankinen, T. (Project Member) & Gabryelczyk, B. (Project Member)
01/05/2020 → 30/04/2025
Project: Other external funding: Other foreign funding
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A novel material concept for high strength cellulose composites
Linder, M. (Principal investigator), Malkamäki, M. (Project Member), Roas Escalona, N. (Project Member), Lemetti, L. (Project Member), Fedorov, D. (Project Member), Yin, Y. (Project Member), Gabryelczyk, B. (Project Member) & Osmekhina, E. (Project Member)
01/01/2019 → 31/12/2021
Project: Academy of Finland: Other research funding
Equipment
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Bioeconomy Research Infrastructure
Seppälä, J. (Manager)
School of Chemical EngineeringFacility/equipment: Facility