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Blebs are a type of membrane protrusion formed by the internal hydrostatic pressure of the cytoplasm. Blebs are observed in several cell types, including fibroblasts, immune cells, and single-celled organisms like the amoeba. The primary function of blebs is cell locomotion and apoptosis, but they are also found during necrosis and cell division. The life cycle of a bleb comprises an initiation phase followed by the expansion and retraction phases.
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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.
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The response to stress—be it physical or psychological, acute or chronic—involves activation of the Hypothalamic-Pituitary-Adrenal (HPA) axis. The HPA axis is part of the neuroendocrine system because it involves both neuronal and hormonal communication. Its function is to regulate homeostatic systems—metabolic, cardiovascular, and immune—providing the necessary means to respond to a stressor.
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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...
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Eccentric axial loading occurs when an axial load is applied away from the centroidal axis of a structural member. This scenario is common in engineering, where structural elements may not be directly aligned due to various design or functional requirements.
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A rigid body's rotation around a fixed axis makes every point within it trace a circular path around a specific line or point. The term given to this type of spinning is defined by the angular position, symbolized by the angle θ. This angle is gauged from a static reference line to the revolving object. From this angular position, any variation is referred to as angular displacement, denoted by dθ. The extent of this displacement can be calculated in degrees, radians, or...
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Related Experiment Video

Updated: Sep 14, 2025

Hydra, a Computer-Based Platform for Aiding Clinicians in Cardiovascular Analysis and Diagnosis
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Hydra, a Computer-Based Platform for Aiding Clinicians in Cardiovascular Analysis and Diagnosis

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Is Hydra Axis Definition a Fluctuation-Based Process Picking Up External Cues?

Mikhail A Zhukovsky1,2, Si-Eun Sung2, Albrecht Ott2

  • 1Institute of Endotypes in Oncology, Metabolism, and Immunology "G. Salvatore" (IEOMI), National Research Council (CNR), Via P. Castellino 111, 80131 Naples, Italy.

Journal of Developmental Biology
|July 23, 2025
PubMed
Summary
This summary is machine-generated.

Hydra regeneration uses gene expression fluctuations and mechanical signals to break symmetry and define its body axis. This model explains how axis positioning occurs, even with external cues like temperature gradients.

Keywords:
HydraOlami–Feder–Christensen modelWntavalanche-like dynamicsaxis formationcritical statefractalgene expressionks1power lawregenerationscale-freespatial distributionsymmetry breakingtemperature gradient

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Area of Science:

  • Developmental Biology
  • Regenerative Biology
  • Theoretical Biology

Background:

  • Axis definition is crucial for establishing animal body plans during development and regeneration.
  • The cnidarian Hydra can regenerate its body plan from cell aggregates or tissue fragments.
  • Regeneration involves forming a cellular spheroid, followed by symmetry breaking and de novo axis definition.

Purpose of the Study:

  • To review theoretical work on Hydra regeneration for a broader scientific audience.
  • To present a model based on gene expression fluctuations and mechanical signaling for axis definition.
  • To connect theoretical findings with experimental observations in Hydra biology.

Main Methods:

  • A theoretical model based on gene expression fluctuations triggered by mechanical signaling.
  • Quantitative reproduction of the ks1 gene expression pattern using a single free parameter.
  • Analysis of Hydra's non-intuitive axis positioning in response to temperature gradients.

Main Results:

  • The model quantitatively reproduces the observed expression pattern of the ks1 gene, a head-forming potential marker.
  • The model explains Hydra's axis positioning behavior in response to weak temperature gradients.
  • The model aligns with experimental findings involving actin organization and mechanical stimulation in axis positioning.

Conclusions:

  • Fluctuation-based symmetry breaking is a plausible mechanism for de novo axis definition in Hydra.
  • The Hydra spheroid is highly sensitive to external perturbations for axis positioning.
  • The theoretical model provides a framework for understanding regeneration and body plan establishment.