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C Shingyoji

Showing results (11-20 of 19) with videos related to

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The Journal of Experimental Biology|March 1, 1991
Effect of imposed head vibration on the stability and waveform of flagellar beating in sea urchin spermatozoaC Shingyoji, I R Gibbons, A Murakami, et al.
Nature|January 22, 1987
Spontaneous recovery after experimental manipulation of the plane of beat in sperm flagellaI R Gibbons, C Shingyoji, A Murakami, et al.
Nature|June 26, 1998
Dynein arms are oscillating force generatorsC Shingyoji, H Higuchi, M Yoshimura, et al.
Journal of Cell Science|February 1, 1991
Polarity in spontaneous unwinding after prior rotation of the flagellar beat plane in sea-urchin spermatozoaK Takahashi, C Shingyoji, J Katada, et al.
Experimental Cell Research|October 1, 1992
The phase of sperm flagellar beating is not conserved over a brief imposed interruptionD Eshel, C Shingyoji, K Yoshimura, et al.
The Journal of Experimental Biology|March 1, 1995
Effect of beat frequency on the velocity of microtubule sliding in reactivated sea urchin sperm flagella under imposed head vibrationC Shingyoji, K Yoshimura, D Eshel, et al.
Journal of Cell Science|September 1, 1991
Evidence for an inequality in the forces that generate principal and reverse bends in sperm flagellaD Eshel, C Shingyoji, K Yoshimura, et al.
The Journal of Experimental Biology|September 1, 1990
Transient behavior of sea urchin sperm flagella following an abrupt change in beat frequencyD Eshel, C Shingyoji, K Yoshimura, et al.
Molecular Biology of the Cell|January 8, 1999
Rotation of the central pair microtubules in eukaryotic flagellaC K Omoto, I R Gibbons, R Kamiya, et al.
Pageof 2

Showing results (11-20 of 19) with videos related to

Sort By:
Pageof 2
You have reached the last page of results.This site can display upto 19 results.
The Journal of Experimental Biology|March 1, 1991
Effect of imposed head vibration on the stability and waveform of flagellar beating in sea urchin spermatozoaC Shingyoji, I R Gibbons, A Murakami, et al.
Nature|January 22, 1987
Spontaneous recovery after experimental manipulation of the plane of beat in sperm flagellaI R Gibbons, C Shingyoji, A Murakami, et al.
Nature|June 26, 1998
Dynein arms are oscillating force generatorsC Shingyoji, H Higuchi, M Yoshimura, et al.
Journal of Cell Science|February 1, 1991
Polarity in spontaneous unwinding after prior rotation of the flagellar beat plane in sea-urchin spermatozoaK Takahashi, C Shingyoji, J Katada, et al.
Experimental Cell Research|October 1, 1992
The phase of sperm flagellar beating is not conserved over a brief imposed interruptionD Eshel, C Shingyoji, K Yoshimura, et al.
The Journal of Experimental Biology|March 1, 1995
Effect of beat frequency on the velocity of microtubule sliding in reactivated sea urchin sperm flagella under imposed head vibrationC Shingyoji, K Yoshimura, D Eshel, et al.
Journal of Cell Science|September 1, 1991
Evidence for an inequality in the forces that generate principal and reverse bends in sperm flagellaD Eshel, C Shingyoji, K Yoshimura, et al.
The Journal of Experimental Biology|September 1, 1990
Transient behavior of sea urchin sperm flagella following an abrupt change in beat frequencyD Eshel, C Shingyoji, K Yoshimura, et al.
Molecular Biology of the Cell|January 8, 1999
Rotation of the central pair microtubules in eukaryotic flagellaC K Omoto, I R Gibbons, R Kamiya, et al.
Pageof 2