Biomedical Engineering Reference
In-Depth Information
References
Baas, P. W., Black, M. M., and Banker, G. A. 1989. Changes in microtubule polarity orientation during the
development of hippocampal-neurons in culture.
Journal of Cell Biology,
109, 3085-3094.
Baas, P. W., Deitch, J. S., Black, M. M., and Banker, G. A. 1988. Polarity orientation of microtubules in
hippocampal-neurons—Uniformity in the axon and nonuniformity in the dendrite.
Proceedings of
the National Academy of Sciences of the United States of America,
85, 8335-8339.
Baas, P. W., White, L. A., and Heidemann, S. R. 1987. Microtubule polarity reversal accompanies regrowth
of amputated neurites.
Proceedings of the National Academy of Sciences of the United States of
America,
84, 5272-5276.
Barnes, S. J., Opitz, T., Merkens, M., Kelly, T., Von Der Brelie, C., Krueppel, R., and Beck, H. 2010. Stable
mossy fiber long-term potentiation requires calcium influx at the granule cell soma, protein synthe-
sis, and microtubule-dependent axonal transport.
Journal of Neuroscience,
30, 12996-13004.
Burton, P. R. 1988. Dendrites of mitral cell neurons contain microtubules of opposite polarity.
Brain
Research,
473, 107-115.
Burton, P. R. and Paige, J. L. 1981. Polarity of axoplasmic microtubules in the olfactory nerve of the frog.
Proceedings of the National Academy of Sciences of the United States of America-Biological Sciences,
78, 3269-3273.
Campagnola, P. J., Millard, A. C., Terasaki, M., Hoppe, P. E., Malone, C. J., and Mohler, W. A. 2002. Three-
dimensional high-resolution second-harmonic generation imaging of endogenous structural pro-
teins in biological tissues.
Biophysical Journal,
82, 493-508.
Chen, S. Y., Hsieh, C. S., Chu, S. W., Lin, C. Y., Ko, C. Y., Chen, Y. C., Tsai, H. J., Hu, C. H., and Sun, C. K.
2006. Noninvasive harmonics optical microscopy for long-term observation of embryonic nervous
system development
in vivo
.
Journal of Biomedical Optics,
11, 8.
Chu, S. W., Chen, S. Y., Tsai, T. H., Liu, T. M., Lin, C. Y., Tsai, H. J., and Sun, C. K. 2003.
In vivo
develop-
mental biology study using noninvasive multi-harmonic generation microscopy.
Optics Express,
11,
3093-3099.
Denk, W., Strickler, J. H., and Webb, W. W. 1990. 2-Photon laser scanning fluorescence microscopy.
Science,
248, 73-76.
Dombeck, D. A., Kasischke, K. A., Vishwasrao, H. D., Ingelsson, M., Hyman, B. T., and Webb, W. W. 2003.
Uniform polarity microtubule assemblies imaged in native brain tissue by second-harmonic genera-
tion microscopy.
Proceedings of the National Academy of Sciences of the United States of America,
100,
7081-7086.
Feng, G. P., Mellor, R. H., Bernstein, M., Keller-Peck, C., Nguyen, Q. T., Wallace, M., Nerbonne, J. M.,
Lichtman, J. W., and Sanes, J. R. 2000. Imaging neuronal subsets in transgenic mice expressing mul-
tiple spectral variants of GFP.
Neuron,
28, 41-51.
Fu, Y., Huff, T. B., Wang, H. W., Wang, H. F., and Cheng, J. X. 2008.
Ex vivo
and
in vivo
imaging of myelin
fibers in mouse brain by coherent anti-Stokes Raman scattering microscopy.
Optics Express,
16,
19396-19409.
Fu, Y., Wang, H. F., Shi, R. Y., and Cheng, J. X. 2007. Second harmonic and sum frequency generation
imaging of fibrous astroglial filaments in
ex vivo
spinal tissues.
Biophysical Journal,
92, 3251-3259.
Gualtieri, E. J., Haupert, L. M., and Simpson, G. J. 2008. Interpreting nonlinear optics of biopolymer
assemblies: Finding a hook.
Chemical Physics Letters,
465, 167-174.
Han, X. X. and Brown, E. 2010. Measurement of the ratio of forward-propagating to back-propagating
second harmonic signal using a single objective.
Optics Express,
18, 10538-10550.
Heidemann, S. R., Landers, J. M., and Hamborg, M. A. 1981. Polarity orientation of axonal microtubules.
Journal of Cell Biology,
91, 661-665.
Heidemann, S. R. and Mcintosh, J. R. 1980. Visualization of the structural polarity of microtubules.
Nature,
286, 517-519.
Helmchen, F. and Denk, W. 2005. Deep tissue two-photon microscopy.
Nature Methods,
2, 932-940.
