8YQ1
Linear form of FGF10 from Homo sapiens
Summary for 8YQ1
| Entry DOI | 10.2210/pdb8yq1/pdb |
| Descriptor | Fibroblast growth factor 10 (2 entities in total) |
| Functional Keywords | growth factor, fgf10, fibroblast, hormone |
| Biological source | Homo sapiens (human) |
| Total number of polymer chains | 2 |
| Total formula weight | 33023.91 |
| Authors | Park, H.J.,Park, Y.S.,Lee, C.E.,Kang, L.W. (deposition date: 2024-03-18, release date: 2025-03-26, Last modification date: 2025-12-31) |
| Primary citation | Park, H.,Park, Y.S.,Kwak, K.,Yun, J.,Lee, H.,Lee, C.E.,Lee, D.,Lee, K.W.,An, Y.J.,Yim, H.S.,Lee, J.H.,Cha, S.S.,Kang, L.W. N-terminal helix formation and dimer-monomer transition of FGF10 in specific recognition of FGFR2b. Febs J., 292:6735-6746, 2025 Cited by PubMed Abstract: Fibroblast growth factors (FGFs) are crucial for various cellular functions, including proliferation, differentiation, tissue repair, and immune responses. FGF10, part of the FGF7 subfamily, binds to the FGFR2b receptor via heparin sulfate. We determined the crystal structure of human FGF10 alone. In the FGFR2b-bound form, the N-terminal region of FGF10 formed an α1 helix. This α1 helix, however, exists as a flexible loop with dual conformations in the unbound structure. Deleting this conformationally dynamic α1 helix reduces cell proliferation activity in vitro. Receptor-binding-induced formation of the α1 helix in FGF10 creates a distinct protruded knob and concave pocket on the globular core of FGFs, increasing the FGFR2b-binding surface by 37%. Size-exclusion chromatography showed a concentration-dependent dimer-monomer shift in purified FGF10, with the hydrophobic dimer interface aligning with the FGFR2b D2-domain-binding surface. These findings suggest that the conformational change in the N-terminal region and the dimer-monomer shift are critical for FGF10's specific binding to FGFR2b, highlighting the functional significance of these structural adaptations. PubMed: 40794773DOI: 10.1111/febs.70218 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (2.56 Å) |
Structure validation
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