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Step-Growth Polymerization: Overview01:03

Step-Growth Polymerization: Overview

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Step-growth or condensation polymerization is a stepwise reaction of bi or multifunctional monomers to form long-chain polymers. As all the monomers are reactive, most of the monomers are consumed at the early stages of the reaction to form small chains of reactive oligomers, which then combine to form long polymer chains in the late stages. Hence, the reaction has to proceed for a long time to achieve high molecular weight polymers.
Many natural and synthetic polymers are produced by...
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Radical Chain-Growth Polymerization: Chain Branching01:17

Radical Chain-Growth Polymerization: Chain Branching

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The skeletal structure of polymers synthesized via radical polymerization is always branched. For example, the polymerization of ethylene by radical polymerization results in a low-density grade of polyethylene with a heavily branched skeletal structure. Here, the radical site abstracts hydrogen from the growing chain, and the radical site shifts from the end (a primary carbon center) to anywhere within the growing chain (a secondary carbon center). Consequently, the part of the chain from the...
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Mechanism of Lamellipodia Formation01:31

Mechanism of Lamellipodia Formation

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Cells migrating in response to external stimuli form lamellipodia, which are thin membrane protrusions supported by a mesh of linked, branched, or unbranched actin filaments. These actin filaments interact with myosin motor proteins, creating the dynamic actomyosin complex within the cytoskeleton. Contractility, or the ability to generate contractile stress, is inherent to the actomyosin complex. It helps cells detect the stiffness of the surrounding ECM and exert contractile force for...
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Generation of Straight or Branched Actin Filaments01:14

Generation of Straight or Branched Actin Filaments

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The straight or branched structure formation of actin filaments is controlled by nucleating proteins such as the formins and Arp2/3 complex. Formin-mediated assembly results in straight filaments, whereas Arp2/3 protein complex-mediated assembly results in branched actin filaments.
Arp2/3 Complex
Arp2/3 complex is a seven-subunit complex consisting of two proteins similar to actin- Arp2 and Arp3, and five other subunits that help keep Arp2 and Arp3 inactive. When required, the complex is...
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Radical Chain-Growth Polymerization: Overview01:10

Radical Chain-Growth Polymerization: Overview

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Chain-growth or addition polymerization is successive addition reactions of monomers with a polymer chain. In radical chain-growth polymerization, the reaction proceeds via a free-radical intermediate. The free radical is formed from radical initiators, which spontaneously generate free radicals by homolytic fission. Organic peroxides (such as dibenzoyl peroxide, as shown in Figure 1) or azo compounds are popular radical initiators. A low concentration ratio of radical initiator to monomer is...
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Plastic Deformation in Circular Shafts01:20

Plastic Deformation in Circular Shafts

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When materials are subjected to forces that surpass their yield strength, they undergo a process known as plastic deformation. This results in a permanent alteration or strain in their structure. This concept can be specifically applied to circular shafts, where the deformation leads to a change in its shape. The precise evaluation of this plastic deformation requires understanding the stress distribution within the circular shaft, which is achieved by calculating the maximum shearing stress in...
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Related Experiment Video

Updated: Apr 12, 2026

Scalable Nanohelices for Predictive Studies and Enhanced 3D Visualization
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Scalable Nanohelices for Predictive Studies and Enhanced 3D Visualization

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Snooping helices: The elastic path finding algorithm of growing hyphae.

Antoine Rittaud1,2, Elodie Couttenier3,4, Sophie Bachellier-Bassi4

  • 1Institut Charles Sadron, Université de Strasbourg, CNRS, 23 rue du Loess, BP 84047, Strasbourg 67034, France.

Proceedings of the National Academy of Sciences of the United States of America
|April 10, 2026
PubMed
Summary

Candida albicans hyphae exhibit complex oscillatory growth patterns under physical confinement. This study reveals how these fungal cells navigate and penetrate host tissues, offering insights into their virulence mechanisms.

Keywords:
Candida albicansconfinementhelixhyphaemicrofluidics

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Area of Science:

  • Biophysics
  • Mycology
  • Cellular Biology

Background:

  • Filamentous organisms like fungi make decisions at their growing tips.
  • Candida albicans hyphae are associated with severe human infections due to their ability to cross epithelial layers.
  • Previous reports suggest C. albicans hyphae exhibit helical or oscillatory growth under certain conditions.

Purpose of the Study:

  • To describe oscillatory growth modalities of Candida albicans hyphae under various physical confinements.
  • To unify observed hyphal behaviors under a theoretical framework.
  • To provide insight into the penetration strategy of C. albicans hyphae.

Main Methods:

  • Utilized microfluidic devices to create controlled physical confinements.
  • Employed quantitative time-lapse imaging for detailed analysis of hyphal growth.
  • Developed a theoretical framework based on elastic energy minimization.

Main Results:

  • Observed sudden sliding events and curvature switching in hyphal tips, leading to oscillatory morphology.
  • Documented stable curved tips navigating against microfluidic channel walls.
  • Unified these behaviors under the "growing squeezed helices" formalism.

Conclusions:

  • Hyphal shape results from elastic energy minimization of confined helical tips followed by solidification.
  • The study offers a mechanistic understanding of C. albicans hyphal penetration.
  • This insight is crucial for understanding the virulence of this fungal pathogen.