What is the Difference Between Cisternal Maturation and Vesicular Transport?
🆚 Go to Comparative Table 🆚The difference between cisternal maturation and vesicular transport lies in the way proteins and secretory cargos are transported through the Golgi complex, a vital cell organelle in eukaryotic cells. The two models are:
- Cisternal Maturation:
- In this model, new cis Golgi cisterna forms, matures into medial and trans cisternae, and carries proteins from the endoplasmic reticulum (ER) to the cell membrane.
- Vesicles move in a retrograde manner, from the trans-Golgi to the cis-Golgi.
- Resident Golgi proteins are carried back to the ER in vesicles, a process known as retrograde transport.
- This model is supported by overwhelming in vitro data through quantitative proteomics.
- Vesicular Transport:
- In this model, the cis-, medial-, and trans-Golgi cisternae are more static structures.
- COPI vesicles transport biosynthetic cargo from stationary cisternae, allowing their cargo to be processed.
- Vesicles move towards the trans-Golgi, and resident Golgi proteins do not bud off in vesicles.
In summary, the main difference between cisternal maturation and vesicular transport is whether the cisternae are dynamic (forming and maturing) or static, and how proteins and secretory cargos are transported between the different Golgi compartments.
Comparative Table: Cisternal Maturation vs Vesicular Transport
The difference between cisternal maturation and vesicular transport can be summarized in the following table:
Feature | Cisternal Maturation | Vesicular Transport |
---|---|---|
Model Type | Cisternae move forward and mature into trans cisternae, with new cis cisternae forming from the fusion of vesicles at the cis face. | Vesicles bud off and fuse to cisternae membranes, moving secretory cargos forward across stable and distinct cis, medial, and trans-Golgi stack. |
Cargo Movement | Cisternae carry secretory cargos forward. | Secretory cargos move forward across stable and distinct cis, medial, and trans-Golgi stack by vesicles budded off from each cisterna. |
Cisternal Movement | Cisternae move during cisternal maturation. | Cisternae remain stationary in vesicular transport. |
In summary, cisternal maturation involves the movement of cisternae within the Golgi apparatus, while vesicular transport occurs through the budding and fusion of vesicles to move secretory cargos between cisternae.
- Transport Vesicles vs Secretory Vesicles
- Vacuoles vs Vesicles
- Cisternae vs Tubules
- Anterograde vs Retrograde Transport
- Endocytosis vs Transcytosis
- Cotransport vs Countertransport
- COP vs Clathrin Coated Vesicles
- Active Transport vs Passive Transport
- Diffusion vs Active Transport
- Endocytosis vs Exocytosis
- Cristae vs Cisternae
- Transportation vs Translocation
- Endosome vs Lysosome
- Symplast vs Vacuolar Pathway
- Golgi Apparatus vs Endoplasmic Reticulum
- Active Transport vs Facilitated Diffusion
- Golgi Bodies vs Mitochondria
- Slow vs Fast Axonal Transport
- Active Transport vs Group Translocation