Difference Between Starch Cellulose and Glycogen

Main Difference – Starch vs Cellulose vs Glycogen

Starch, cellulose, and glycogen are three types of polymeric carbohydrates found in living cells. Autotrophs produce glucose as the simple sugar during photosynthesis. All these carbohydrate polymers, starch, cellulose, and glycogen, are made up of joining glucose monomer units together by different types of glycosidic bonds. They serve as chemical energy sources as well as the structural components of the cell. The main difference between starch, cellulose and glycogen is that starch is the main storage carbohydrate source in plants whereas cellulose is the main structural component of the cell wall of plants and glycogen is the main storage carbohydrate energy source of fungi and animals.      

This article explores,

1. What is Starch
      – Structure, Properties, Source, Function
2. What is Cellulose
      – Structure, Properties, Source, Function
3. What is Glycogen
      – Structure, Properties, Source, Function
4. What is the difference between Starch Cellulose and Glycogen

Difference Between Starch Cellulose and Glycogen- Comparison Summary

What is Starch

Starch is the polysaccharide synthesized by green plants as their main energy store. Glucose is produced by photosynthetic organisms as a simple organic compound. It is converted into insoluble substances like oils, fats, and starch for storage. Insoluble storage substances like starch do not affect the water potential inside the cell. They may not move away from the storage areas. In plants, glucose and starch are converted into structural components like cellulose. They are also converted into proteins which are required for the growth and repair of the cellular structures.    

Plants store glucose in staple foods like fruits, tubers like potatoes, seeds like rice, wheat, corn, and cassava. Starch occurs in granules called amyloplasts, arranged into semi-crystalline structures. Starch is composed of two types of polymers: amylose and amylopectin. Amylose is a linear and helical chain but amylopectin is a branched chain. Around 25% of starch in plants are amylose while the rest is amylopectin. Glucose 1-phosphate is first converted into ADP-glucose. Then ADP-glucose is polymerized via 1,4-alpha glycosidic bond by the enzyme, starch synthase. This polymerization forms the linear polymer, amylose. The 1,6-alpha glycosidic bonds are introduced to the chain by starch branching enzyme that produces amylopectin. Starch granules of rice are shown in figure 1.

Difference Between Starch Cellulose and Glycogen - 1

Figure 1: Starch granules in rice

What is Cellulose

Cellulose is the polysaccharide which is made up of hundred to many thousands of glucose units. It is the major component of the cell wall of plants. Many algae and oomycetes also use cellulose to form their cell wall. Cellulose is a straight chain polymer in which 1,4-beta glycosidic bonds are formed between glucose molecules. Hydrogen bonds are formed between multiple hydroxyl groups of one chain with neighboring chains. This allows the two chains to be held together firmly. Likewise, several cellulose chains are involved in the formation of cellulose fibers. A cellulose fiber, which is made up of three cellulose chains, is shown in figure 2. Hydrogen bonds between cellulose chains are shown in cyan color lines.

Difference Between Starch Cellulose and Glycogen

Figure 2: A cellulose fiber

What is Glycogen

Glycogen is the storage polysaccharide of animals and fungi. It is the analogue to starch in animals. Glycogen is structurally similar to amylopectin but highly branched than the latter. Linear chain forms via 1,4-alpha glycosidic bonds and branches occur via 1,6-alpha glycosidic bonds. Branching occurs in every 8 to 12 glucose molecules in the chain. Its granules occur in the cytosol of cells. Liver cells, as well as the muscle cells, store glycogen in humans. Once needed, glycogen is broken down into glucose by glycogen phosphorylase. The process is called glycogenolysis. Glucogon is the hormone which stimulates glycogenolysis. 1,4-alpha glycosidic and 1,6-alpha glycosidic linkages of glycogen are shown in figure 3.

Main Difference - Starch Cellulose vs Glycogen

Figure 3: Bonds in glycogen

Difference Between Starch Cellulose and Glycogen


Starch: Starch is the main storage carbohydrate source in plants.

Cellulose: Cellulose is the main structural component of the cell wall of plants.

Glycogen: Glycogen is the main storage carbohydrate energy source of fungi and animals.      


Starch: The monomer of starch is alpha glucose.

Cellulose: The monomer of cellulose is beta glucose.

Glycogen: The monomer of glycogen is alpha glucose.

Bond Between Monomers

Starch: The 1,4 glycosidic bonds in amylose and 1,4 and 1,6 glycosidic bond in amylopectin occur between monomers of starch. 

Cellulose: 1,4 glycosidic bonds occur between the monomers of cellulose.

Glycogen: 1,4 and 1,6 glycosidic bonds occur between the monomers of glycogen.

Nature of the Chain

Starch: Amylose is an unbranched, coiled chain and amylopectin is a long branched chain, of which some are coiled.

Cellulose: Cellulose is a straight, long, unbranched chain, which forms H-bonds with adjacent chains.

Glycogen: Glycogen is a short, many branched chains of which some chains are coiled. 

Molecular Formula

Starch: The molecular formula of starch is (C6H10O5)n

Cellulose: The molecular formula of cellulose is (C6H10O5)n.

Glycogen: The molecular formula of glycogen is C24H42O21.

Molar Mass

Starch: Molar mass of starch is variable.

Cellulose: Molar mass of cellulose is 162.1406 g/mol.

Glycogen: Molar mass of glycogen is 666.5777 g/mol.

Found in

Starch: Starch can be found in plants.

Cellulose: Cellulose is found in plants.

Glycogen: Glycogen is found in animals and fungi.


Starch: Starch serves as a carbohydrate energy store.

Cellulose: Cellulose is involved in the building of cellular structures like cell walls.

Glycogen: Glycogen serves as a carbohydrate energy store.


Starch: Starch occurs in grains.

Cellulose: Cellulose occurs in fibers.

Glycogen: Glycogen occurs in small granules.


Starch, cellulose, and glycogen are polysaccharides found in organisms. Starch is found in plants as their major storage form of carbohydrates. Linear chains of starch are called amylose and when branched they are called amylopectin. Glycogen is similar to amylopectin but is highly branched. It is the major carbohydrate storage form in animals and fungi. Cellulose is a linear polysaccharide, which forms hydrogen bonds among several cellulose chains to form a fibrous structure. It is the major component of the cell wall of plants, some algae, and fungi. Thus, the main difference between starch cellulose and glycogen is their role in each organism.

1. Berg, Jeremy M. “Complex Carbohydrates Are Formed by Linkage of Monosaccharides.” Biochemistry. 5th edition. U.S. National Library of Medicine, 01 Jan. 1970. Web. 17 May 2017. </>

Image Courtesy:
1. “Rice starch – microscopy” By MKD – Own work via
2. “Cellulose spacefilling model”By CeresVesta (talk) (Uploads) – Own work (Public Domain) via
3. “Glycogen” (Public Domain) via

About the Author: Lakna

Lakna, a graduate in Molecular Biology & Biochemistry, is a Molecular Biologist and has a broad and keen interest in the discovery of nature related things

Leave a Comment

Related pages

meaning of unicameraldifference between mitosis and cytokinesisdifference between vernier caliper and micrometerthree differences between aerobic and anaerobic respirationmelanin and sleepcustoms and traditions definitionheterotrophs exampleskinds of adjectives with exampleswhat is difference between mphil and phddefinition of nucleolusscience definition of malleabilityprophase metaphase anaphase and telophasedifference between autobiographies and biographiesdifferentiate between unicellular and multicellular organismswhat are schemas according to piagetdifference between rotational and circular motionwhat is the difference between fairies and pixieshallucination vs delusiondefinition of photoautotrophsscallions or green onionsunpolarizedclimax of the old man and the seawhat is an asyndetonwhat is the difference between modern and contemporary dancewhat is the difference between aldose and ketosegamma particle definitionthe difference between anime and cartoonswhat is the difference between a cpap and a bipapproceed or procededefine a monologuehow do sister chromatids differ from homologous chromosomeswhat is the meaning of bewilderedwhat is a main difference between prose and versedifference between apartment and townhouseteleplay vs screenplayflirting with intentintensive pronoun sentencesdefinition of a rhyme schemestratified epithelial tissue structurealliteration assonanceb6 vs b12xanthan gum vs guar gumwhat is the difference between nitrite and nitratedifference between classical and operant conditioning examplesdeoxyribose structurewhat is the difference between minerals and rocksdifference between immigrant and emmigrantwhat is the difference between race ethnicity and cultureascorbic acid vs citric acidwhat are the characteristics of solutions colloids and suspensionsdifference between termite and flying antmphil phd differencepassive rom definitionnormal air pressure measured in kilopascalsexamples of photoautotrophic bacteriadotson dachshundpositive and normative economics definitionwhat are litotesdifferentiate adsorption from absorptionbathe meaning in hindiwhat is intensive pronounminiature dachshund factsdifference between diploid and haploiddifference between kayak and canoeaccuracy of vernier caliper and micrometerdifference between renewable and nonrenewable sources of energywhats the difference between a tornado and a cycloneautotrophic plants definitionsubstages of prophase 1difference between alaskan malamute and huskymodernism and postmodernism in literaturetested zaripermittivity definition physicschemoautotroph exampledefinition of heterogeneous mixtures