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1. Reconstitution of the core of the malaria parasite glideosome with recombinant Plasmodium class XIV myosin A and Plasmodium actin

2. Double-headed binding of myosin II to F-actin shows the effect of strain on head structure.

3. Mechanism of small molecule inhibition of Plasmodium falciparum myosin A informs antimalarial drug design.

4. Resistance of Acta2 R149C/+ mice to aortic disease is associated with defective release of mutant smooth muscle α-actin from the chaperonin-containing TCP1 folding complex.

5. The actomyosin interface contains an evolutionary conserved core and an ancillary interface involved in specificity.

6. Unusual dynamics of the divergent malaria parasite Pf Act1 actin filament.

7. Tropomyosin Must Interact Weakly with Actin to Effectively Regulate Thin Filament Function.

8. Reconstitution of the core of the malaria parasite glideosome with recombinant Plasmodium class XIV myosin A and Plasmodium actin.

9. Severe Molecular Defects Exhibited by the R179H Mutation in Human Vascular Smooth Muscle α-Actin.

10. Vascular disease-causing mutation R258C in ACTA2 disrupts actin dynamics and interaction with myosin.

11. Role of the essential light chain in the activation of smooth muscle myosin by regulatory light chain phosphorylation.

12. A periodic pattern of evolutionarily conserved basic and acidic residues constitutes the binding interface of actin-tropomyosin.

13. Tropomyosin is essential for processive movement of a class V myosin from budding yeast.

14. Phosphorylated smooth muscle heavy meromyosin shows an open conformation linked to activation.

15. Smooth muscle heavy meromyosin phosphorylated on one of its two heads supports force and motion.

16. Mutation of a conserved glycine in the SH1-SH2 helix affects the load-dependent kinetics of myosin.

17. Phosphorylation of a single head of smooth muscle myosin activates the whole molecule.

18. Expression of a nonpolymerizable actin mutant in Sf9 cells.

19. A mutant heterodimeric myosin with one inactive head generates maximal displacement.

20. The two heads of smooth muscle myosin are enzymatically independent but mechanically interactive.

21. The carboxyl-terminal isoforms of smooth muscle myosin heavy chain determine thick filament assembly properties.

22. ADP binding induces an asymmetry between the heads of unphosphorylated myosin.

23. Coiled-coil unwinding at the smooth muscle myosin head-rod junction is required for optimal mechanical performance.

24. Smooth muscle myosin mutants containing a single tryptophan reveal molecular interactions at the actin-binding interface.

25. Pioglitazone treatment for 7 days failed to correct the defect in glucose transport and glucose transporter translocation in obese Zucker rat (fa/fa) skeletal muscle plasma membranes.

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