Chemistry Reference
In-Depth Information
52 Sun, Y., Schroeder, H.W., Beausang, J.F.,
Homma, K., Ikebe, M. and Goldman, Y.E.
(2006) Single molecule
kinetics: a molecular model for
processivity. Proc. Natl Acad. Sci. USA,
97
,
9486.
62 Sakamoto, T., Amitani, I., Yokota, E. and
Ando, T. (2000) Direct observation of
processive movement by individual
myosin V molecules. Biochem. Biophys.
Res. Commun.,
9482
uorescence
polarization of calmodulin in myosin VI.
Biophys. J.,
-
, 431a.
53 Bartko, A.P. and Dickson, R.M. (1999)
Imaging three-dimensional single
molecule orientations. J. Phys. Chem. B.,
103
90
590.
63 Baker, J.E., Krementsova, E.B., Kennedy,
G.G., Armstrong, A., Trybus, K.M. and
Warshaw, D.M. (2004) Myosin V
processivity: multiple kinetic pathways
for head-to-head coordination. Proc. Natl
Acad. Sci. USA, 101, 5542
-
5546.
64 Cheney, R.E. OShea, M.K., Heuser, J.E.,
Coelho, M.V., Wolenski, J.S., Esprea
272
, 586
-
11241.
54 Bohmer, M. and Enderlein, J. (2003)
Orientation imaging of single molecules
by wide-
, 11237
-
uorescence
microscopy. J. Opt. Soc. Am. B., 20,
554
-
559.
55 Patra, D., Gregor, I. and Enderlein, J.
(2004) Image analysis of defocused single-
molecule images for three-dimensional
molecule orientation studies. J. Phys.
Chem. A.,
eld epi
co,
E.M., Forscher, P., Larson, R.E. and
Mooseker, M.S. (1993) Brain myosin-V is
a two-headed unconventional myosin
with motor activity. Cell,
6841.
56 Toprak, E., Enderlein, J., Syed, S.,
McKinney, S.A., Petschek, R.G., Ha, T.,
Goldman, Y.E. and Selvin, P.R. (2006)
Defocused orientation and position
imaging (DOPI) of myosin V. Proc. Natl
Acad. Sci. USA,
108
, 6836
-
23.
65 De La Cruz, E.M., Wells, A.L., Rosenfeld,
S.S., Ostap, E.M. and Sweeney, H.L.
(1999) The kinetic mechanism of myosin
V. Proc. Natl Acad. Sci. USA,
75
,13
-
96
,
6499.
57 Kull, F.J., Sablin, E.P., Lau, R., Fletterick,
R.J. and Vale, R.D. (1996) Crystal
structure of the kinesin motor domain
reveals a structural similarity to myosin.
Nature,
103
, 6495
-
13731.
66 Mehta, A.D., Rock, R.S., Rief, M.,
Spudich, J.A., Mooseker, M.S. and
Cheney, R.E. (1999) Myosin-V is a
processive actin-based motor. Nature,
400
13726
-
555.
58 Erzberger, J.P. and Berger, J.M. (2006)
Evolutionary relationships and structural
mechanisms of AAA
380
, 550
593.
67 Purcell, T.J., Morris, C., Spudich, J.A. and
Sweeney, H.L. (2002) Role of the lever arm
in the processive stepping of myosin V.
Proc. Natl Acad. Sci. USA,
, 590
-
-
proteins. Annu.
Rev. Biophys. Biomol. Struct.,
รพ
35
,93
114.
99
,
-
59 Waterman-Storer, C.M., Karki, S.B.,
Kuznetsov, S.A., Tabb, J.S., Weiss, D.G.,
Langford, G.M. and Holzbaur, E.L.F.
(1997) The interaction between
cytoplasmic dynein and dynactin is
required for fast axonal transport.
Proc. Natl Acad. Sci. USA,
14164.
68 Purcell, T.J., Sweeney, H.L. and Spudich,
J.A. (2005) A force-dependent state
controls the coordination of processive
myosin V. Proc. Natl Acad. Sci. USA, 102,
13873
-
13878.
69 Veigel, C., Wang, F., Bartoo, M.L., Sellers,
J.R. and Molloy, J.E. (2002) The gated gait
of the processive molecular motor,
myosin V. Nat. Cell Biol.,
14159
-
94
,
12185.
60 Langford, G.M. and Molyneaux, B.J.
(1998) Myosin V in the brain: mutations
lead to neurological defects. Brain. Res.
Brain. Res. Rev.,
12180
-
65.
70 Veigel, C., Schmitz, S., Wang, F. and
Sellers, J.R. (2005) Load-dependent
kinetics of myosin-V can explain its
high processivity. Nat. Cell Biol.,
4
,59
-
8.
61 Rief, M., Rock, R.S., Mehta, A.D.,
Mooseker, M.S., Cheney, R.E. and
Spudich, J.A. (2000) Myosin-V stepping
28
,1
-
7
,
861
-
869.
