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Literature DB >> 599325

Asymmetric waveforms in echinoderm sperm flagella.

Abstract

1.Dark-field, multiple-exposure photographs of live spermatozoa of a number of echinoderms were analysed. 2. Bends develop at the base in pairs, as they do in flagella with symmetrical waveforms. However, the angles of these bends do not cancel, so that microtubular sliding-of up to over 50% of that associated with bend propagation-is transferred distally. This sliding implies that (a) microtubules are not rigidly cross-linked within straight regions, and (b) bends can propagate normally in spite of appreciable extrinsic microtubular sliding. 3. Both the sperm head and the asymmetry of the waveform appear to affect the swim path of a spermatozoon.

Entities: Chemical

Mesh：

Year: 1977 PMID： 599325 DOI： 10.1242/jeb.71.1.157

Source DB: PubMed Journal: J Exp Biol ISSN： 0022-0949 Impact factor: 3.312

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Cited

15 in total

1. Functional state of the axonemal dyneins during flagellar bend propagation.

Authors: D M Woolley; G G Vernon
Journal: Biophys J Date: 2002-10 Impact factor: 4.033

2. Basal sliding and the mechanics of oscillation in a mammalian sperm flagellum.

Authors: Geraint G Vernon; David M Woolley
Journal: Biophys J Date: 2004-10-01 Impact factor: 4.033

3. Nonlinear instability in flagellar dynamics: a novel modulation mechanism in sperm migration?

Authors: H Gadêlha; E A Gaffney; D J Smith; J C Kirkman-Brown
Journal: J R Soc Interface Date: 2010-05-12 Impact factor: 4.118

4. Kinematics of helical motion of microorganisms capable of motion with four degrees of freedom.

Authors: H C Crenshaw
Journal: Biophys J Date: 1989-11 Impact factor: 4.033

5. The flagellar protein Enkurin is required for mouse sperm motility and for transport through the female reproductive tract.

Authors: Melissa K Jungnickel; Keith A Sutton; Mark A Baker; Michael G Cohen; Michael J Sanderson; Harvey M Florman
Journal: Biol Reprod Date: 2018-10-01 Impact factor: 4.285

Asymmetric waveforms in echinoderm sperm flagella.

1. Functional state of the axonemal dyneins during flagellar bend propagation.

2. Basal sliding and the mechanics of oscillation in a mammalian sperm flagellum.

3. Nonlinear instability in flagellar dynamics: a novel modulation mechanism in sperm migration?

4. Kinematics of helical motion of microorganisms capable of motion with four degrees of freedom.

5. The flagellar protein Enkurin is required for mouse sperm motility and for transport through the female reproductive tract.

6. A study of bend formation in locally reactivated hamster sperm flagella.

7. Transient flagellar waveforms during intermittent swimming in sea urchin sperm. II. Analysis of tubule sliding.

8. Transient flagellar waveforms during intermittent swimming in sea urchin sperm. I. Wave parameters.

9. Borrelia burgdorferi swims with a planar waveform similar to that of eukaryotic flagella.

10. Calcium-induced asymmetrical beating of triton-demembranated sea urchin sperm flagella.