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Rational Design Yields Molecular Insights on Leaf-Binding of Anchor Peptides

粘附 合理设计 纳米技术 材料科学 组合化学 聚合物 人口 生化工程 微量滴定板 有机化学 化学 色谱法 工程类 社会学 人口学
作者
Jonas Dittrich,Christin Brethauer,L.A. GONCHARENKO,Jens Bührmann,Viktoria V. Zeisler‐Diehl,Shyam Pariyar,Felix Jakob,Tetiana Kurkina,Lukas Schreiber,Ulrich Schwaneberg,Holger Gohlke
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:14 (25): 28412-28426 被引量:16
标识
DOI:10.1021/acsami.2c00648
摘要

In times of a constantly growing world population and increasing demand for food, sustainable agriculture is crucial. The rainfastness of plant protection agents is of pivotal importance to reduce the amount of applied nutrients, herbicides, and fungicides. As a result of protective agent wash-off, plant protection is lost, and soils and groundwater are severely polluted. To date, rainfastness of plant protection products has been achieved by adding polymeric adjuvants to the agrochemicals. However, polymeric adjuvants will be regarded as microplastics in the future, and environmentally friendly alternatives are needed. Anchor peptides (APs) are promising biobased and biodegradable adhesion promoters. Although the adhesion of anchor peptides to artificial surfaces, such as polymers, has already been investigated in theory and experimentally, exploiting the adhesion to biological surfaces remains challenging. The complex nature and composition of biological surfaces such as plant leaves and fruit surfaces complicate the generation of accurate models. Here, we present the first detailed three-layered atomistic model of the surface of apple leaves and use it to compute free energy profiles of the adhesion and desorption of APs to and from that surface. Our model is validated by a novel fluorescence-based microtiter plate (MTP) assay that mimics these complex processes and allows for quantifying them. For the AP Macaque Histatin, we demonstrate that aromatic and positively charged amino acids are essential for binding to the waxy apple leaf surface. The established protocols should generally be applicable for tailoring the binding properties of APs to biological interfaces.
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