Chemical Basis of Bioengineering I

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Disaccharide

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Chemical Basis of Bioengineering I

Definition

A disaccharide is a type of carbohydrate formed by the combination of two monosaccharides through a glycosidic bond. These sugars play crucial roles in biological processes, serving as energy sources and structural components in various organisms. Disaccharides can be broken down into their constituent monosaccharides during digestion, which is essential for metabolic functions.

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5 Must Know Facts For Your Next Test

  1. Common examples of disaccharides include sucrose (table sugar), lactose (milk sugar), and maltose (malt sugar).
  2. Disaccharides are formed when two monosaccharides undergo a dehydration synthesis reaction, releasing a molecule of water.
  3. Lactose is unique among disaccharides because it contains a glucose and a galactose unit, and some individuals lack the enzyme lactase needed to digest it.
  4. Disaccharides can be hydrolyzed into their monosaccharide components by enzymes in the digestive system, allowing for energy extraction.
  5. In addition to providing energy, disaccharides can also participate in cell signaling and recognition processes due to their specific structures.

Review Questions

  • How do disaccharides differ from monosaccharides in terms of structure and function?
    • Disaccharides are composed of two monosaccharide units linked together by a glycosidic bond, while monosaccharides consist of single sugar molecules. Functionally, disaccharides serve as more complex carbohydrates that can provide energy more efficiently due to their ability to be broken down into simpler sugars. Monosaccharides are quickly absorbed for immediate energy needs, whereas disaccharides require enzymatic action to be hydrolyzed into their constituent monosaccharides before absorption.
  • Discuss the biochemical process by which disaccharides are formed from monosaccharides and the importance of this reaction.
    • Disaccharides are formed through a biochemical process known as dehydration synthesis, where two monosaccharide molecules combine to form a disaccharide while releasing a water molecule. This reaction is important because it not only helps build more complex carbohydrates from simple sugars but also plays a critical role in cellular metabolism. By forming disaccharides, organisms can store energy in a more compact form, which can be easily accessed when needed.
  • Evaluate the impact of enzyme deficiencies related to disaccharide metabolism on human health, particularly concerning lactose intolerance.
    • Enzyme deficiencies, such as lactase deficiency leading to lactose intolerance, can significantly impact human health by impairing the ability to digest certain disaccharides like lactose. This results in gastrointestinal symptoms such as bloating, gas, and diarrhea when dairy products are consumed. Understanding this condition highlights the importance of enzyme functionality in carbohydrate metabolism and underscores the need for dietary adjustments for affected individuals to avoid discomfort and ensure proper nutrition.
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