BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
巻, 号, ページ
Vol. 230
No. 1
pp. 76-80
出版年月
1997年1月
出版者
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アブストラクト
The sliding velocity of actin filaments propelled by chicken skeletal myosin subfragment-1 (S1) was measured when the tail end of S1 was specifically bound to the glass surface. To achieve the specific binding, a regulatory light chain was replaced by a recombinant fusion protein of biotin-dependent transcarboxylase (BDTC) and chicken gizzard smooth muscle regulatory light chain (cgmRLC). The BDTC-cgmRLC of S1 was then attached to the glass surface using a biotin-avidin system. The velocity of actin filaments caused by S1 bound to the surface in this manner was 6.8+/-0.6 μm/sec at 29℃, which was 3.5-fold greater than that (1.9+/-0.3 μm/sec) when bound directly to the surface as in previous studies, but similar to that caused by native chicken skeletal myosin (6.5+/-0.6 μm/sec). The actin-activated Mg-ATPase activity was similar to that of S1 before the RLC of S1 was exchanged for BDTC-cgmRLC. The results indicate taht S1 can produce a normal fast movement of actin filaments as well as hydrolyse ATP and generate force.