Proteins have a sequence of amino acids that make its properties.
Enzymes are proteins and all proteins are coded for and produced by the nucleus/ribosomes.
Proteins involved in facilitated diffusion are typically carrier proteins or channel proteins. These proteins help transport specific molecules across the cell membrane by binding to them and facilitating their movement down a concentration gradient. Receptor proteins, on the other hand, are involved in cell signaling and response to extracellular stimuli.
Proteins used in active transport are called transport proteins. These proteins are responsible for moving molecules or ions across a cell membrane against their concentration gradient, requiring energy in the form of ATP.
They don't. The behaviour of histones and other proteins follows entirely from their physical and chemical properties, just like the rolling behaviour of a ball follows from the fact that it is round.
No, they don't. Not directly anyway. The proteins are degraded and new ones are built upp from the aminoacids. Don't know it there are any that actually can go through. Perhaps some of the smaller polypeptides
All life as we know it consists of proteins (in solution) reacting to their environment.
Enzymes are proteins and all proteins are coded for and produced by the nucleus/ribosomes.
i don t know
how the hell should i know !! _
Proteins involved in facilitated diffusion are typically carrier proteins or channel proteins. These proteins help transport specific molecules across the cell membrane by binding to them and facilitating their movement down a concentration gradient. Receptor proteins, on the other hand, are involved in cell signaling and response to extracellular stimuli.
I don't know of _ but i know about the disease caused by the deficiency of proteins that is kwashiorkor.
Proteins used in active transport are called transport proteins. These proteins are responsible for moving molecules or ions across a cell membrane against their concentration gradient, requiring energy in the form of ATP.
i dont know try wiki
i reslly dont know so lmafo
blood types are determined by proteins know as maker molecules
i dont not know so someone answer it soon please:(
So that our cells will know how to make the proteins that they must make to exist.