Modified coiled-coils sequences can be used in biotechnology, vaccine development, and biochemical research to induce protein oligomerization. A prominent model for the versatility of coiled-coil sequences is a peptide derived from the yeast transcription factor, GCN4. Unexpectedly, its trimeric variant, GCN4-pII, binds bacterial lipopolysaccharides (LPS) from different bacterial species with picomolar affinity. LPS molecules are highly immunogenic, toxic glycolipids that comprise the outer leaflet of the outer membrane of Gram-negative bacteria. Using scattering techniques and electron microscopy, we show how GCN4-pII breaks down LPS micelles in solution. In an ELISA-like assay, we find that LPS can in principle be detected in minimal concetrations, competitive to the industry gold standard for LPS detection, the LAL assay. Our findings thus suggest that the GCN4-pII peptide and derivatives thereof could be used for novel LPS detection and removal solutions with high relevance to the production and quality control of biopharmaceuticals and other biomedical products, where even minuscule amounts of residual LPS can be lethal.