Different sequences of amino acids and possibly different numbers.
Chains folded differently and a different sequence of amino acid.
because it does
There are two kinds of proteins in a cell membrane: peripheral PROTEINS OR trans membrane proteins. Cell membranes are able to perform various functions only because of different membrane protein functions. Most of the membrane proteins have alpha helix structure.
Simple proteins are composed of only amino acids. These proteins are also called monomeric proteins because they consist of a single polypeptide chain. The sequence of amino acids determines the structure and function of the protein.
The size of the membrane pores depend on the proteins constituting the pore, thus different proteins may cause different pore sizes. So in most cases, yes, the "pores" will most likely be of different sizes.
It is different because it is a twisted lie.
chains folded differently and a different sequence of amino acids
because it does
There are two kinds of proteins in a cell membrane: peripheral PROTEINS OR trans membrane proteins. Cell membranes are able to perform various functions only because of different membrane protein functions. Most of the membrane proteins have alpha helix structure.
Because enzymes are proteins. Short proteins are called poypeptides.
Because enzymes are proteins. Short proteins are called poypeptides.
Because they are useful in a number of functions that require some type of movement; they are the 'movement' proteins.
Simple proteins are composed of only amino acids. These proteins are also called monomeric proteins because they consist of a single polypeptide chain. The sequence of amino acids determines the structure and function of the protein.
Complete proteins are proteins that contain amino acids. Complete proteins are important for your health because amino acids help to form new proteins and to enhance biological functions in the body.
allows molecular proteins to enter through nuclear pores that permeate the double membrane. different than mitochondrial and chloroplast membranes because it allows whole proteins to enter. each membrane has a different molecular composition, signalling that there are two functions.
The size of the membrane pores depend on the proteins constituting the pore, thus different proteins may cause different pore sizes. So in most cases, yes, the "pores" will most likely be of different sizes.
Because it is. Meat is usually muscle tissue, and muscle tissue is composed primarily of a couple of proteins.
False. Proteins have very specific shapes and functions and cannot be used interchangeably.