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Related Concept Videos

Simplified Synchronous Machine Model01:30

Simplified Synchronous Machine Model

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The Synchronous Machine Model is a fundamental tool in analyzing and ensuring the transient stability of power systems. This model simplifies the representation of a synchronous machine under balanced three-phase positive-sequence conditions, assuming constant excitation and ignoring losses and saturation. The model is pivotal for understanding the behavior of synchronous generators connected to a power grid, particularly during transient events.
In this model, each generator is connected to a...
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Golgi Apparatus01:49

Golgi Apparatus

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As they leave the Endoplasmic Reticulum (ER), properly folded and assembled proteins are selectively packaged into vesicles. These vesicles are transported by microtubule-based motor proteins and fuse together to form vesicular tubular clusters, subsequently arriving at the Golgi apparatus, a eukaryotic endomembrane organelle that often has a distinctive ribbon-like appearance.
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Golgi Apparatus01:09

Golgi Apparatus

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Properly folded and assembled proteins are selectively packaged into vesicles that exit the ER. Motor proteins transport these vesicles to the Golgi apparatus for adding modifications that make these proteins functional at their destination.
The Golgi apparatus is a eukaryotic organelle that has a distinctive ribbon-like appearance. It is a primary sorting and dispatch station for cargo arriving from the ER. Newly arriving vesicles enter the cis face of the Golgi, closest to the ER, and are...
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Transport Across the Golgi01:26

Transport Across the Golgi

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While it is unclear how molecules move between adjacent Golgi cisternae, it is apparent that the molecules move from cis- cisterna, the entry face, to the trans- cisterna, the exit face. Experiments initially suggested vesicles that bud from one cisterna and fuse with the next cisterna to transport proteins between the cisternae. This vesicular transport model describes the Golgi apparatus as a relatively static structure with a unique enzyme composition in each cisterna. Molecules are...
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Golgi Matrix Proteins01:12

Golgi Matrix Proteins

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Golgi matrix proteins are a group of highly dynamic proteins that maintain the stacked structure of Golgi. These proteins adapt to rapid morphological changes of the Golgi during the cell cycle. During cell division, mild proteolysis removes these connections resulting in Golgi unstacking. In The daughter cells, these proteins help reassemble the unstacked Golgi.
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Protein Complex Assembly02:41

Protein Complex Assembly

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Proteins can form homomeric complexes with another unit of the same protein or heteromeric complexes with different types.  Most protein complexes self-assemble spontaneously via ordered pathways, while some proteins need assembly factors that guide their proper assembly. Despite the crowded intracellular environment, proteins usually interact with their correct partners and form functional complexes.
Many viruses self-assemble into a fully functional unit using the infected host cell to...
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Related Experiment Video

Updated: Jan 21, 2026

Assessment of Hippocampal Dendritic Complexity in Aged Mice Using the Golgi-Cox Method
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Corrigendum: Complex Dynamics in Simplified Neuronal Models: Reproducing Golgi Cell Electroresponsiveness.

Alice Geminiani1, Claudia Casellato2, Francesca Locatelli2

  • 1NEARLab, Department of Electronics, Information and Bioengineering, Politecnico di Milano, Milan, Italy.

Frontiers in Neuroinformatics
|July 30, 2019
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Summary

This study corrects a previous article DOI. The updated information ensures accurate citation and retrieval of scientific research in neuroscience and artificial intelligence.

Keywords:
Golgi cellcerebellumleaky integrate-and-firemodel simplificationneuronal electroresponsivenessneuronal modelingpoint neuron

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Last Updated: Jan 21, 2026

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Area of Science:

  • Neuroscience
  • Artificial Intelligence

Context:

  • Correction of a previously published article DOI.
  • Ensuring accurate citation and retrieval of scientific literature.

Purpose:

  • To provide the correct Digital Object Identifier (DOI) for a specific publication.
  • To facilitate proper referencing and access to research findings.

Summary:

  • The article DOI: 10.3389/fninf.2018.00088 has been corrected.
  • This ensures the integrity of scientific records and aids researchers in locating the intended study.

Impact:

  • Improved accuracy in scientific literature databases.
  • Enhanced discoverability and citation of the corrected research article.