Structure and Function

Cellulose is an unbranched polymer of beta-glucose. The linkages are called beta-1,4-glycosidic bonds, formed between adjacent glucose monomers undergoing condensation reactions. This polymer forms long, straight chains giving it a rigid structure. Because hydrogen bonds are formed between parallel chains, cellulose forms microfibrils. ^[1] Around 40 cellulose chains combine together, by forming hydrogen bonds, to form a microfibril. ^[2] Thus, cellulose is a major component of plant cell walls, giving the cell tensile strength. ^[3]

Plant cells have a very negative water potential, due to many different solutes dissolved within the cytosol. Water, therefore, enters cells from the outside. The cellulose cell wall, however, prevents osmotic lysis; in this state, plant cells are said to be turgid. Turgor pressure is very important for the mechanical rigidity of the cell, and is also vital for expansion during cell growth. ^[4]

References

↑ Berg J., Tymoczko J and Stryer L., 2007. Biochemistry. 7th edition. New York: WH Freeman
↑ Bruce Alberts et al, 2007. Molecular Biology of the Cell. 5th edition. USA: Garland Publishing Inc.
↑ Berg J., Tymoczko J and Stryer L., 2007. Biochemistry. 7th edition. New York: WH Freeman
↑ Bruce Alberts et al, 2007. Molecular Biology of the Cell. 5th edition. USA: Garland Publishing Inc.

[1] Berg J., Tymoczko J and Stryer L., 2007. Biochemistry. 7th edition. New York: WH Freeman

[2] Bruce Alberts et al, 2007. Molecular Biology of the Cell. 5th edition. USA: Garland Publishing Inc.

[3] Berg J., Tymoczko J and Stryer L., 2007. Biochemistry. 7th edition. New York: WH Freeman

[4] Bruce Alberts et al, 2007. Molecular Biology of the Cell. 5th edition. USA: Garland Publishing Inc.

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[2]

[3]

[4]

Cellulose

Structure and Function

References

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