Hexose

A class of simple sugars containing six carbon atoms

Hexoses are a class of monosaccharides that contain six carbon atoms. They are an important group of carbohydrates and play a crucial role in metabolism and biochemistry. Hexoses are commonly found in nature and are essential components of many biological processes.

Structure[edit | edit source]

Hexoses have the chemical formula C_H__O_. They can exist in both linear and cyclic forms. In their linear form, hexoses have a chain of six carbon atoms, with one carbonyl group (C=O) and five hydroxyl groups (OH). The cyclic form is more common in nature and results from the reaction between the carbonyl group and one of the hydroxyl groups, forming a hemiacetal or hemiketal.

Haworth projection of D-glucose, a common hexose.

Types of Hexoses[edit | edit source]

Hexoses can be classified based on the position of the carbonyl group:

• Aldohexoses: These hexoses have an aldehyde group at the first carbon atom. Examples include glucose, galactose, and mannose.
• Ketohexoses: These hexoses have a ketone group at the second carbon atom. An example is fructose.

Isomerism[edit | edit source]

Hexoses exhibit several types of isomerism:

• Stereoisomerism: Hexoses can have different spatial arrangements of atoms, leading to different stereoisomers. For example, D-glucose and L-glucose are stereoisomers.
• Anomerism: In cyclic forms, hexoses can form two different anomers (_ and _) depending on the orientation of the hydroxyl group at the anomeric carbon.

Biological Importance[edit | edit source]

Hexoses are vital in various biological processes:

• Energy Source: Hexoses like glucose are primary energy sources for cells. They are metabolized through glycolysis and the citric acid cycle to produce ATP.
• Structural Role: Hexoses are components of structural polysaccharides such as cellulose in plants and chitin in arthropods.
• Signaling Molecules: Hexoses and their derivatives are involved in cell signaling and recognition processes.

Metabolism[edit | edit source]

Hexoses are metabolized through several pathways:

• Glycolysis: The breakdown of glucose to pyruvate, yielding ATP and NADH.
• Pentose Phosphate Pathway: A metabolic pathway parallel to glycolysis that generates NADPH and ribose-5-phosphate.
• Gluconeogenesis: The synthesis of glucose from non-carbohydrate precursors.

Applications[edit | edit source]

Hexoses have numerous applications in food, pharmaceuticals, and biotechnology:

• Food Industry: Hexoses like fructose are used as sweeteners.
• Pharmaceuticals: Hexose derivatives are used in drug formulations and as diagnostic agents.
• Biotechnology: Hexoses are used in fermentation processes to produce biofuels and other chemicals.

Related pages[edit | edit source]

• Monosaccharide
• Disaccharide
• Polysaccharide
• Carbohydrate
• Metabolism