15.8:

Insertion of Single-pass Transmembrane Proteins in the RER

JoVE Central
Cell Biology
Se requiere una suscripción a JoVE para ver este contenido.  Inicie sesión o comience su prueba gratuita.
JoVE Central Cell Biology
Insertion of Single-pass Transmembrane Proteins in the RER

5,375 Views

01:26 min

April 30, 2023

Integral membrane proteins are proteins adhered to the lipid bilayer of a cell organelle or membrane. They can be of two types: transmembrane integral proteins that span the lipid bilayer and monotopic proteins that are attached to either side of the membrane but do not pass through it.

Integral transmembrane proteins possess transmembrane and extra membrane domains. The transmembrane domains are primarily made of 20-25 hydrophobic amino acids arranged in a helical secondary confirmation. These domains are stable enough to be embedded in the phospholipid interior of the membrane and are critical in determining the protein's topology. Such proteins are inserted into the ER membrane co-translationally and are broadly categorized as single-pass and multipass transmembrane proteins. There are three types of single-pass transmembrane proteins with a single domain traversing through the membrane.

Type I membrane proteins have a cleavable ER-signal sequence, a single transmembrane domain, the N terminal placed in the ER lumen. It has two distinct sequences to start and stop the polypeptide transfer through the translocon on the ER membrane. The human growth hormone receptor is a type I transmembrane protein.

Type II membrane proteins also have a single transmembrane domain, but it acts as a non-cleavable signal sequence and a membrane anchor, unlike type I membrane proteins. The transmembrane domain of the type II proteins is also called the signal anchor sequence. This sequence is always preceded by positive amino acid residues that prevent the N terminal of the polypeptide chain from slipping down into the translocon. Hence, the C terminal of type II proteins is oriented inside the ER lumen. The transferrin receptor and the Golgi galactosyltransferase are examples of a type II membrane protein.

Type III membrane proteins are similar to type II proteins in terms of the transmembrane domain structure; however, the positive amino acid residues are placed after the signal-anchor sequence. Thus, their N terminal is inserted into the translocon, and the C terminal is left out in the cytosol. Cytochrome P40 is a type III membrane protein.