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Protoplasmic movements within cells

Protoplasmic movements within cells Printed in U.S.A. THEODORE L. JAHN AND EUGENE Department of Zoology, University of California, Los ofPhysiology and Cell Biology, University of Angeles, California, and Department Kansas, Lawrence, Kansas Fundamental Mechanism for Movement. ........................ Early assumptions for a quasi-muscular system .............................. Repeated assumptions for a fibrillar, molecular system ...................... ............................ Search and evidence for actomyosinoid . Principal components of the system. ...................................... ............................ Functional Theories for the Fundamental System. ...................................... Molecular expositions of interaction, ................................ Evidence for Functional Fib& in the System. Microtubular and microfibrillar actinoid elements ........................... ................................................ Other fibrillar elements. .............................................. Helical of fib&. Jarosch’s screw-mechanical, biplicity theory of fibrillar function. .............. Major Types of Actomyosinoid ...................................... ................................................. Active-shearing system. ............................................ Contraction-hydraulic system. Protein-folding and -unfolding system. ..................................... .................................................. Active-Shearing . ....................................................... Striated muscle. .......................................... Other . Examples of Active-Shearing . ....................................... Rotational and circulatory in plant cells. ........................ ............................................ Cyclosis in ciliated Protozoa. Microstreaming in plant cells. ............................................ ........................... of chromosomes along spindle fibers. .......................... of heliozoan and radiolarian axopods. of filose granuloreticulopodia of Foraminifera .................... Tractile of testacid Sarcodina. ................................. Glidinglocomotion ..................................................... ........................................... Suctorian ingestive mechanisms Examples of Contraction-Hydraulic . ................................. Ameboid movement. . . . . .. .. . . .. .. .. .. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physiological Reviews The American Physiological Society

Protoplasmic movements within cells

T. L. Jahn and E. C. Bovee
Physiological Reviews , Volume 49: 793 – Oct 1, 1969
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Publisher
The American Physiological Society
Copyright
Copyright © 1969 the American Physiological Society
ISSN
0031-9333
eISSN
1522-1210
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Abstract

Printed in U.S.A. THEODORE L. JAHN AND EUGENE Department of Zoology, University of California, Los ofPhysiology and Cell Biology, University of Angeles, California, and Department Kansas, Lawrence, Kansas Fundamental Mechanism for Movement. ........................ Early assumptions for a quasi-muscular system .............................. Repeated assumptions for a fibrillar, molecular system ...................... ............................ Search and evidence for actomyosinoid . Principal components of the system. ...................................... ............................ Functional Theories for the Fundamental System. ...................................... Molecular expositions of interaction, ................................ Evidence for Functional Fib& in the System. Microtubular and microfibrillar actinoid elements ........................... ................................................ Other fibrillar elements. .............................................. Helical of fib&. Jarosch’s screw-mechanical, biplicity theory of fibrillar function. .............. Major Types of Actomyosinoid ...................................... ................................................. Active-shearing system. ............................................ Contraction-hydraulic system. Protein-folding and -unfolding system. ..................................... .................................................. Active-Shearing . ....................................................... Striated muscle. .......................................... Other . Examples of Active-Shearing . ....................................... Rotational and circulatory in plant cells. ........................ ............................................ Cyclosis in ciliated Protozoa. Microstreaming in plant cells. ............................................ ........................... of chromosomes along spindle fibers. .......................... of heliozoan and radiolarian axopods. of filose granuloreticulopodia of Foraminifera .................... Tractile of testacid Sarcodina. ................................. Glidinglocomotion ..................................................... ........................................... Suctorian ingestive mechanisms Examples of Contraction-Hydraulic . ................................. Ameboid movement. . . . . .. .. . . .. .. .. ..

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Physiological ReviewsThe American Physiological Society

Published: Oct 1, 1969

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