Protein Synthesis
Endoplasmic Reticulum-->cis Golgi cisternae --> medial Golgi cisternae --> trans Golgi Cisternae --> Plasma membrane
Extra Cellular Space
As they are being synthesized, secretory proteins enter the lumen of the endoplasmic reticulum. From the ER, vesicles transport these proteins to the Golgi, where they are sequentially modified and concentrated in a cis-to-trans direction. Secretory vesicles bud from the Golgi and move along cytoskeletal filaments to eventually fuse with the plasma membrane, secreting their protein cargo. Each of these transport steps requires specialized proteins to ensure that the cargo is sent to the proper location and is able to fuse with the target membrane.
These proteins travel through cells in the following pattern:
Protein Synthesis ---> Endoplasmic Reticulum ---> cis Golgi cisternae ---> medial Golgi cisternae ---> trans Golgi cisternae ---> Plasma Membrane
Ribosome on RER--->vesicle--->cis Golgi-->trans Golgi-->vesicle-->plasma membrane-->exocytosis.
Endoplasmic Reticulum-->Golgi apparatus-->vesicles that fuse with plasma membrane
The most likely pathway is ER (endoplasmic reticulum) -> Golgi -> vesicles that fuse with plasma membrane.
Rough ER, Golgi apparatus, Secretory vesticles, Plasma membrane
Blood coagulation can occur either through an intrinsic or extrinsic pathway. The first step in either pathway begins with the production of Factor X,which marks the common pathway of coagulation.
a pathway
The Rough ER produces secretory proteins. Their pathway starts in the Rough ER, then the Golgi Apparatus and they are then packaged and transported outside the cell. Secretory proteins are made on bound ribosomes(ribosomes that don't float freely in the cytoplasm)... hope that helped
The secretory epithelium is a part of the skin and associated with the sweat glands.
Multiple steps provide a series of points where cross-talk can occur
the secretory pathway
An attached ribosome synthesizes proteins destined for the secretory pathway directly into the rough endoplasmic reticulum.
Examples of secretory proteins are collagen, insulin, and digestive enzymes of the stomach and intestine.
Blood coagulation can occur either through an intrinsic or extrinsic pathway. The first step in either pathway begins with the production of Factor X,which marks the common pathway of coagulation.
a pathway
Objectives, steps, pathway, task breakdown.
The Rough ER produces secretory proteins. Their pathway starts in the Rough ER, then the Golgi Apparatus and they are then packaged and transported outside the cell. Secretory proteins are made on bound ribosomes(ribosomes that don't float freely in the cytoplasm)... hope that helped
a metobolic pathway
Transport vesicles play a key part in moving molecules to and from the membrane-confined chambers of the secretory pathway. Proteins are transported in vesicles; the proteins are made on the cytosolic side of membranes.
A secretory vacuole is an organelle that is found in fungal and plant cells. Secretory vacuoles perform many different functions.
David G. Robinson has written: 'The Golgi Apparatus and the Plant Secretory Pathway' 'Gerbils' 'Plant membranes' -- subject(s): Plant cell membranes, Plant cells and tissues
The secretory system does not really exist. There is a secretory mechanism that is part of the endocrine system, and that secretes hormones into the blood stream.