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Golgi Apparatus01:49

Golgi Apparatus

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.The Golgi apparatus is a major sorting and dispatch station for the products of the ER. Newly arriving vesicles enter...
Golgi Apparatus01:09

Golgi Apparatus

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...
Golgi Matrix Proteins01:12

Golgi Matrix Proteins

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.
One of the first identified Golgi matrix proteins was GM130, a rod-like protein located in the cis-Golgi. Subsequently, many Golgi...
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...
Transport Across the Golgi01:26

Transport Across the Golgi

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...
Golgi Apparatus01:09

Golgi Apparatus

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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Related Experiment Video

Updated: Jul 12, 2026

Aip1p Dynamics Are Altered by the R256H Mutation in Actin
08:57

Aip1p Dynamics Are Altered by the R256H Mutation in Actin

Published on: July 30, 2014

Cytoskeletal proteins and Golgi dynamics

J Lippincott-Schwartz1

  • 1Cell Biology and Metabolism Branch, NICHD, National Institute for Health, Bethesda, MD 20892-0001, USA. jlippin@helix.nih.gov

Current Opinion in Cell Biology
|March 4, 1998
PubMed
Summary

The Golgi complex links to microtubules for cell positioning and efficient transport. This association involves proteins like ankyrin and spectrin, crucial for understanding cellular traffic and dynamics.

Area of Science:

  • Cell Biology
  • Molecular Motors
  • Cytoskeletal Dynamics

Background:

  • The Golgi complex's position and function depend on its association with cytoskeletal elements, especially microtubules.
  • This linkage is vital for efficient protein and lipid delivery within cells.
  • Key molecular players in this association include ankyrin, spectrin, and motor proteins.

Purpose of the Study:

  • To elucidate the mechanisms connecting the Golgi complex to the microtubule cytoskeleton.
  • To understand the roles of ankyrin, spectrin, and motor proteins in Golgi positioning and trafficking.
  • To gain insights into the regulation of Golgi dynamics and its integration with secretory membrane traffic.

Main Methods:

  • Investigating the interaction between Golgi membranes and cytoskeletal components.

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Quantitative Localization of a Golgi Protein by Imaging Its Center of Fluorescence Mass
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Quantitative Localization of a Golgi Protein by Imaging Its Center of Fluorescence Mass

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4D Microscopy of Yeast
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4D Microscopy of Yeast

Published on: April 28, 2019

Related Experiment Videos

Last Updated: Jul 12, 2026

Aip1p Dynamics Are Altered by the R256H Mutation in Actin
08:57

Aip1p Dynamics Are Altered by the R256H Mutation in Actin

Published on: July 30, 2014

Quantitative Localization of a Golgi Protein by Imaging Its Center of Fluorescence Mass
13:08

Quantitative Localization of a Golgi Protein by Imaging Its Center of Fluorescence Mass

Published on: August 10, 2017

4D Microscopy of Yeast
12:00

4D Microscopy of Yeast

Published on: April 28, 2019

  • Analyzing the function of ankyrin, spectrin, and motor proteins (dynein, kinesin, myosin) in Golgi association.
  • Studying the impact of these associations on Golgi trafficking and cellular organization.
  • Main Results:

    • Identified ankyrin and spectrin as crucial for linking Golgi membranes to motor proteins.
    • Demonstrated the involvement of motor proteins in maintaining Golgi spatial organization.
    • Highlighted the regulatory mechanisms governing Golgi-cytoskeletal interactions.

    Conclusions:

    • The Golgi complex's association with microtubules, mediated by proteins like ankyrin and spectrin, is essential for its cellular localization.
    • These cytoskeletal interactions are fundamental for efficient intracellular transport and secretory pathway function.
    • Further understanding of these dynamics offers insights into cellular organization and membrane traffic regulation.