Glycogen Function Structure A secondary long-term energy-storage molecule. Function of Cellulose in Plants. Cellulose is a very important polysaccharide because it is the most abundant organic compound on earth.

Glycogen from the liver is converted into glucose to be used mainly by the central nervous system, which includes the brain and spinal cord. The primary energy-storage molecules are adipose cells. While animals don't produce cellulose, it is made by plants, algae, and some bacteria and other microorganisms. Function. Cellulose is a non-branched polysaccharide, meaning the compound is a linear, chemically bound chain of sugar molecules, more exactly beta-glucose, and a constitutional form of glucose.
The rigid structure of cellulose is what allows plants to stand upright, and, without the strength of cellulose, we wouldn't have lumber, paper, or cotton fabric. Some animals can digest cellulose. Cellulose isn't exactly cytoplasm, but it also give the cell protection. It is a complex carbohydrate or polysaccharide consisting of hundreds to thousands of glucose molecules, linked together to form a chain. Cellulose is a major component of tough cell walls that surround plant cells, and is what makes plant stems, leaves, and branches so strong. Cellulose [(C 6 H 10 O 5) n] is an organic compound and the most abundant biopolymer on Earth.

Muscle Many fungi, specifically the members of Basidiomycetes perform critical ecological function by degrading cellulose present in decaying wood. Cellulose is an organic compound essential to plants. Biology.