The role of linker length and composition in actin binding and bundling by palladin
Sargent, Rachel Bradford, Colby Hughes, Lauren M. Ta, Nathan H. Limpiado, Marc Arthur J. Vattepu, Ravi Beck, Moriah R.
Sargent, Rachel
Bradford, Colby
Hughes, Lauren M.
Ta, Nathan H.
Limpiado, Marc Arthur J.
Vattepu, Ravi
Beck, Moriah R.
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2026-02-09
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Actin binding protein,Immunoglobulin domain,Linker,Palladin,Tandem domain repeats
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Rachel A. Sargent, Colby W. Bradford, Lauren M. Hughes, Nathan H. Ta, MarcArthur J. Limpiado, Ravi Vattepu, Moriah R. Beck; The role of linker length and composition in actin binding and bundling by palladin. Biochem J 4 March 2026; 483 (3): 301–318. doi: https://doi.org/10.1042/BCJ20250187
Abstract
Interdomain linkers in multidomain proteins influence spatial arrangement, flexibility, and cooperative binding, yet their functional roles remain underexplored. Palladin, an actin scaffold protein essential for cytoskeletal organization, contains tandem immunoglobulin domains (Ig3-4) separated by an unusually long (∼41-residue), arginine-rich, intrinsically disordered linker. While Ig3 mediates direct F-actin binding, the adjacent Ig4 domain and linker enhance binding and bundling, suggesting active roles beyond passive connection. Using targeted mutagenesis, actin co-sedimentation, bundling assays, and SAXS, we show that linker length, charge, and residue patterning are critical for activity. Shortening or replacing the 41-residue linker with the native Ig4-Ig5 linker reduced binding and abolished bundling, while small internal deletions decreased affinity but unexpectedly increased bundling efficiency. Neutralizing basic residues eliminated activity, while scrambling the sequence impaired both functions-demonstrating that electrostatic tuning and residue order, not just net charge, are essential. SAXS revealed that the native linker supports a broad, dynamic interdomain ensemble, enabling multiple binding-competent geometries. Shortened linkers restricted this conformational space, locking domains in extended orientations incompatible with efficient actin engagement. These results establish the Ig3-Ig4 linker as a finely tuned structural and electrostatic module that coordinates domain flexibility and filament crosslinking. More broadly, these findings highlight long, intrinsically disordered linkers as active determinants of cytoskeletal scaffold function, providing a general mechanism for modulating multivalent interactions in actin-binding proteins. © 2026 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.
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The Biochemical journal
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0264-6021