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Mechanism of Ciliary Motion01:05

Mechanism of Ciliary Motion

The ciliary structures were first seen in 1647 by Antonie Leeuwenhoek while observing the protozoans. In lower organisms, these appendages are responsible for cell movement, while in higher organisms, these appendages help in the movement of the extracellular fluids within the body cavities.
The cilia are made up of microtubules in a 9+2 arrangement, with nine microtubule doublet ring bundles, surrounding a pair of central singlet microtubule bundles. The doublet microtubule bundles are...
Mechanism of Ciliary Motion01:05

Mechanism of Ciliary Motion

The ciliary structures were first seen in 1647 by Antonie Leeuwenhoek while observing the protozoans. In lower organisms, these appendages are responsible for cell movement, while in higher organisms, these appendages help in the movement of the extracellular fluids within the body cavities.
The cilia are made up of microtubules in a 9+2 arrangement, with nine microtubule doublet ring bundles, surrounding a pair of central singlet microtubule bundles. The doublet microtubule bundles are...
Microtubules in Cell Motility01:24

Microtubules in Cell Motility

Microtubules are thick hollow cylindrical proteins that help form the cytoskeleton. Microtubules have varied roles in the cell. These filaments help form cellular appendages like cilia and flagella, which are responsible for locomotion. The cilia arise from basal bodies, separated from the main body by a membrane-like structure forming the transition zone. This zone is the gate for the entry of lipids and proteins, creating a unique composition of lipids and proteins in the ciliary membrane and...
Geometry of Hyperbolas01:30

Geometry of Hyperbolas

A hyperbola consists of all points where the absolute difference of distances to two fixed points, called foci, remains constant. The standard equation isEach branch extends infinitely and approaches two asymptotes, which guide the curve’s behavior. The parameters a and b define key features: a measures the distance from the center to each vertex along the transverse axis, while b influences the slopes of the asymptotes. The asymptotes have equationsA rectangle centered at the origin with...
Cytoskeletal Coordination in Cell Migration01:32

Cytoskeletal Coordination in Cell Migration

A migrating cell changes its shape during the cyclic events of attachment and detachment from the substratum and repositions the cell organelles correspondingly. These complex events are orchestrated by the dynamic cytoskeletal network comprising actin filaments, intermediate filaments, and microtubules. Cytoskeletal crosstalk — the direct and indirect communication between the different components — is crucial for this coordination. Direct communication involves various linker proteins that...
Accessory Structures of the Eye01:17

Accessory Structures of the Eye

Optical perception, or vision, is an extraordinary sense dependent on converting light signals received via the ocular organs. These organs, known as eyes, are securely positioned within the bony cavities of the skull, called orbits. The orbits serve a dual purpose: a protective shield for the ocular globes and a stable attachment point for the soft ocular tissues. The eye's external protective mechanisms include the eyelids, which are edged with lashes that act as a barrier against foreign...

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Related Experiment Video

Updated: Jun 21, 2026

Observation of the Ciliary Movement of Choroid Plexus Epithelial Cells Ex Vivo
08:00

Observation of the Ciliary Movement of Choroid Plexus Epithelial Cells Ex Vivo

Published on: July 13, 2015

Geometry of ciliary dynamics.

Mark A Peterson1

  • 1Department of Physics, Mount Holyoke College, South Hadley, Massachusetts 01075, USA. mpeterso@mtholyoke.edu

Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics
|August 8, 2009
PubMed
Summary
This summary is machine-generated.

This study models cilia bending, revealing that filament twist is constrained and introduces a new term in ciliary motion equations. This model also offers insights into bacterial flagella diversity.

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Application of High-speed Super-resolution SPEED Microscopy in Live Primary Cilium
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Application of High-speed Super-resolution SPEED Microscopy in Live Primary Cilium

Published on: January 16, 2018

Related Experiment Videos

Last Updated: Jun 21, 2026

Observation of the Ciliary Movement of Choroid Plexus Epithelial Cells Ex Vivo
08:00

Observation of the Ciliary Movement of Choroid Plexus Epithelial Cells Ex Vivo

Published on: July 13, 2015

Application of High-speed Super-resolution SPEED Microscopy in Live Primary Cilium
07:53

Application of High-speed Super-resolution SPEED Microscopy in Live Primary Cilium

Published on: January 16, 2018

Area of Science:

  • Biophysics
  • Cell Biology
  • Mechanobiology

Background:

  • Cilia are essential motile organelles.
  • Ciliary bending is driven by internal shear stresses within tubulin filaments.
  • Existing models may not fully capture ciliary mechanical constraints.

Purpose of the Study:

  • To develop a continuum model for ciliary material.
  • To incorporate key ciliary mechanical constraints into the model.
  • To investigate the implications of these constraints on ciliary motion and structure.

Main Methods:

  • Construction of a continuum mechanical model for ciliary material.
  • Incorporation of filament inextensibility, material incompressibility, and longitudinal shear strain.
  • Derivation of equations of motion under these constraints.

Main Results:

  • Filament twist is not an independent degree of freedom under ciliary constraints.
  • A previously unrecognized term related to twist appears in the equations of motion.
  • The geometrical framework provides a basis for understanding bacterial flagella polymorphism.

Conclusions:

  • The developed continuum model accurately reflects ciliary mechanical properties.
  • The findings reveal a fundamental constraint on filament twist during ciliary motion.
  • This work offers a unified geometrical approach applicable to both cilia and bacterial flagella.