actin-kinetics

Actin kinetics + WH2 biophysics — validated parameters

Source agent: Domain 2 (Sonnet 4.6), 2026-04-23. Consumer: hydrogel_phase4d_factin_bundling_model.py + any actin-interacting therapeutic hypothesis.

Parameter table

Parameter	Literature value	Source	Conditions	Status	Used in
WH2 × G-actin Kd (WAVE, favorable)	~50–100 nM (inferred)	2026-04-23-chereau-wh2-actin-pnas (Chereau 2005 PNAS, Table 2 in SI — inaccessible)	ITC, 25°C, G-buffer pH 7.5	⚠ inferred from narrative	h09 Phase 4d
WH2 × G-actin Kd (WASP, weak)	~200–500 nM (inferred)	2026-04-23-chereau-wh2-actin-pnas	Same	⚠ inferred	h09 Phase 4d
Isolated WASP V-domain × G-actin	3.10 ± 0.5 μM	Padrick/Kim 2011 (cited via Chereau)	Fluorescence anisotropy	✅ primary	reference bound
WASP WA domain × G-actin	0.6 μM	Rohatgi 2000 Nat Cell Biol	Fluorescence anisotropy	✅ secondary	context
Full WH2 family range	50 nM – 3 μM	2026-04-23-dominguez-2016-wh2-nucleation-review (Trends Biochem Sci)	Review statement	✅ review	framing
WH2 × F-actin side-binding Kd	NOT MEASURED in any paper	literature search exhaustive	—	❌ NO PRIMARY	h09 Phase 4d load-bearing
Tβ4 × F-actin (closest analog)	5–10 mM (weak, cooperative)	2026-04-23-husson-wh2-multifunctionality	Direct measurement	✅ primary	risk benchmark
ABD cross-linker (CH-domain) × F-actin	~10 μM	2026-04-23-pollard-2016-actin-review-cshpb review consensus	Various	✅ review	affinity class reference
Profilin × G-actin Kd	0.1 μM	2026-04-23-pollard-2016-actin-review-cshpb	ITC	✅ primary	context
Actin polymerization k_on (barbed, ATP)	11.6 μM⁻¹s⁻¹	2026-04-23-pollard-1986-actin-rate-constants (JCB 1986)	Standard	✅ primary	kinetics benchmark
Actin polymerization k_off (barbed, ATP)	1.4 s⁻¹	2026-04-23-pollard-1986-actin-rate-constants	Standard	✅ primary	kinetics benchmark

Stereocilia actin architecture (Barr-Gillespie line)

Parameter	Value	Source	Notes
Actin molecules per stereocilium (chick utricle E15)	200,000	2026-04-23-krey-2019-stereocilia-proteomics-elife	QMS absolute quant
Derived local [total actin]	~3.5 mM	from 200k molecules / 9.4e-17 L (200 nm dia × 3 μm)	calculation
Derived local [F-actin]	~3–5 mM	assuming ~90% filamentous	calculation
Native inter-filament spacing (OHC core, plastin-1/fimbrin)	7.9–9.7 nm	Krey 2016 J Cell Biol (PMC5119939) — not retrieved as paper note	FFT-EM
Espin-crosslinked spacing	~12 nm	Review consensus (Krey 2016 cites)	for comparison

Red flags in current h09 Phase 4d model

Model constant	Value	Problem
WH2_KD_GACTIN_M = 100 nM	literature Kd	Partially defensible for WAVE-like WH2 (50–100 nM). For WASP-type (which is what WH2-family SAPs typically use) real value is 200 nM – 3 μM. Model comment should read “50–500 nM depending on construct”.
WH2_KD_FACTIN_M = 5 μM	”estimated 5–25× weaker”	LOAD-BEARING RISK. Zero primary measurements exist. Closest analog (Tβ4 × F-actin) = 5–10 mM = 1,000–2,000× weaker than model’s 5 μM. Structurally disfavored (binding site buried in F-filament). Avidity from multi-WH2 on RADA16 scaffold could compensate in principle; Phase 2c wet-lab bundling assay is the only resolution.
STEREOCILIA_INTER_FILAMENT_NM = 12.0	espin-specific	Native OHC uses plastin-1/fimbrin → real spacing 7.9–9.7 nm (Krey 2016). For STRC exoprosthesis modeling, use 9 nm as default.

Critical takeaway

Central unvalidated assumption of h09: WH2 can side-bind F-actin at a therapeutically relevant Kd. Only possible via avidity (multiple WH2 copies per RADA16 fibril contacting the same F-actin surface). Single-molecule Kd at 5 μM is speculative optimism. Phase 2c wet-lab actin-bundling assay (co-sedimentation + TIRF colocalisation) becomes the primary risk gate, not AF3 triple-complex.

Connections

• [part-of] _hub (literature-params)
• [see-also] rada16-geometry (avidity rests on scaffold multi-valency)
• [see-also] STRC Hydrogel Phase 4 Computational Campaign
• [applies] STRC Synthetic Peptide Hydrogel HTC