Isolation of a point-mutated p47 lacking binding affinity to p97ATPase

Abstractp47, a p97-binding protein, functions in Golgi membrane fusion together with p97 and VCIP135, another p97-binding protein. We have succeeded in creating p47 with a point mutation, F253S, which lacks p97-binding affinity. p47 mapping experiments revealed that p47 had two p97-binding regions and the F253S mutation occurred in the first p97-binding site. p47(F253S) could not form a complex with p97 and did not caused any cisternal regrowth in an in vitro Golgi reassembly assay. In addition, mutation corresponding to the p47 F253S mutation in p37 and ufd1 also abolished their binding ability to p97.Structured summaryMINT-7987189, MINT-7987207, MINT-7987303: p47 (uniprotkb:O35987) binds (MI:0407) to p97 (uniprotkb:Q01853) by pull down (MI:0096)MINT-7987226: p97 (uniprotkb:P46462) binds (MI:0407) to p47 (uniprotkb:O35987) by pull down (MI:0096)MINT-7987348: p97 (uniprotkb:P46462) physically interacts (MI:0915) with Ufd1 (uniprotkb:P70362) by pull down (MI:0096)MINT-7987264: p97 (uniprotkb:P46462) and p47 (uniprotkb:O35987) bind (MI:0407) by competition binding (MI:0405)MINT-7987326: p97 (uniprotkb:P46462) binds (MI:0407) to p37 (uniprotkb:Q0KL01) by pull down (MI:0096

Distinct roles of MLCK and ROCK in the regulation of membrane protrusions and focal adhesion dynamics during cell migration of fibroblasts

We examined the role of regulatory myosin light chain (MLC) phosphorylation of myosin II in cell migration of fibroblasts. Myosin light chain kinase (MLCK) inhibition blocked MLC phosphorylation at the cell periphery, but not in the center. MLCK-inhibited cells did not assemble zyxin-containing adhesions at the periphery, but maintained focal adhesions in the center. They generated membrane protrusions all around the cell, turned more frequently, and migrated less effectively. In contrast, Rho-associated kinase (ROCK) inhibition blocked MLC phosphorylation in the center, but not at the periphery. ROCK-inhibited cells assembled zyxin-containing adhesions at the periphery, but not focal adhesions in the center. They moved faster and more straight. On the other hand, inhibition of myosin phosphatase increased MLC phosphorylation and blocked peripheral membrane ruffling, as well as turnover of focal adhesions and cell migration. Our results suggest that myosin II activated by MLCK at the cell periphery controls membrane ruffling, and that the spatial regulation of MLC phosphorylation plays critical roles in controlling cell migration of fibroblasts

細胞分裂期におけるミオシンリン酸化の制御機構 : 細胞周期依存的なミオシン軽鎖キナーゼおよびミオシンフォスターゼの活性調節機構

Table of Contents / p2 1. General Abstract / p3 2. General Introduction / p5 3. Chapter1:Mitosis-specific Phosphorylation of Smooth Muscle Regulatory Light Chain of Myosin II at Ser-1 and/or -2 and Thr-9 in Sea Urchin Egg Extract. / p8 4. Chapter2:Activation of myosin phosphatase targeting subunit by mitosis-specific phosphorylation / p24 5. General Discussion / p56 6. Acknowledgement / p62 7. References / p63広島大学(Hiroshima University)博士(理学)Sciencedoctora