Cellobiose: Difference between revisions

Latest revision as of 11:33, 15 February 2025

A disaccharide consisting of two glucose molecules

Overview[edit]

Skeletal structure of cellobiose

Cellobiose is a disaccharide consisting of two glucose molecules linked by a _(1_4) glycosidic bond. It is a product of the enzymatic breakdown of cellulose, a major component of the cell walls of plants. Cellobiose is an important intermediate in the biochemical conversion of cellulose to glucose.

Structure[edit]

Cellobiose is composed of two D-glucose units. The linkage between the glucose units is a _(1_4) bond, which is a type of glycosidic bond. This bond is resistant to hydrolysis by most amylase enzymes, which is why cellulose is not digestible by humans.

Properties[edit]

Cellobiose is a reducing sugar, meaning it has a free aldehyde or ketone group capable of acting as a reducing agent. It is soluble in water and has a sweet taste. The presence of the _(1_4) linkage gives cellobiose distinct properties compared to other disaccharides like maltose, which has an _(1_4) linkage.

Biological Role[edit]

In nature, cellobiose is an intermediate in the degradation of cellulose by cellulase enzymes. These enzymes are produced by certain bacteria, fungi, and protozoa that can digest cellulose. The breakdown of cellulose to cellobiose and then to glucose is a crucial step in the carbon cycle, allowing the conversion of plant biomass into usable energy forms.

Industrial Applications[edit]

Cellobiose is used in research to study the enzymatic breakdown of cellulose. It is also used in the production of biofuels, where cellulose is converted to glucose and then fermented to produce ethanol.

Related pages[edit]

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-'''Cellobiose''' is a [[disaccharide]] with the formula C12H22O11. It is a type of [[sugar]] that is produced when [[cellulose]], a polysaccharide, is broken down. It is composed of two [[glucose]] molecules linked by a β(1→4) bond.
+{{short description|A disaccharide consisting of two glucose molecules}}
+{{DISPLAYTITLE:Cellobiose}}
-== Structure and Properties ==
+==Overview==
+[[File:Cellobiose_skeletal.svg|thumb|right|Skeletal structure of cellobiose]]
+'''Cellobiose''' is a [[disaccharide]] consisting of two [[glucose]] molecules linked by a _(1_4) [[glycosidic bond]]. It is a product of the enzymatic breakdown of [[cellulose]], a major component of the cell walls of plants. Cellobiose is an important intermediate in the [[biochemical]] conversion of cellulose to glucose.
-Cellobiose is a disaccharide that consists of two glucose units linked by a β(1→4) glycosidic bond. This type of bond is significant because it is the same type of bond that links glucose units in cellulose. The presence of this bond gives cellobiose its unique properties and distinguishes it from other disaccharides.
+==Structure==
+Cellobiose is composed of two [[D-glucose]] units. The linkage between the glucose units is a _(1_4) bond, which is a type of [[glycosidic bond]]. This bond is resistant to hydrolysis by most [[amylase]] enzymes, which is why cellulose is not digestible by humans.
-Cellobiose is a non-reducing sugar, which means it does not have a free aldehyde or ketone group. This property makes it different from glucose, which is a reducing sugar.
+==Properties==
+Cellobiose is a reducing sugar, meaning it has a free [[aldehyde]] or [[ketone]] group capable of acting as a reducing agent. It is soluble in water and has a sweet taste. The presence of the _(1_4) linkage gives cellobiose distinct properties compared to other disaccharides like [[maltose]], which has an _(1_4) linkage.
-== Production and Uses ==
+==Biological Role==
+In nature, cellobiose is an intermediate in the degradation of cellulose by [[cellulase]] enzymes. These enzymes are produced by certain [[bacteria]], [[fungi]], and [[protozoa]] that can digest cellulose. The breakdown of cellulose to cellobiose and then to glucose is a crucial step in the carbon cycle, allowing the conversion of plant biomass into usable energy forms.
-Cellobiose is produced during the hydrolysis of cellulose, a process that can be catalyzed by certain types of enzymes known as [[cellulases]]. These enzymes are produced by certain types of microorganisms, including some species of bacteria and fungi.
+==Industrial Applications==
+Cellobiose is used in research to study the enzymatic breakdown of cellulose. It is also used in the production of biofuels, where cellulose is converted to glucose and then fermented to produce [[ethanol]].
-In the industrial sector, cellobiose is used in the production of biofuels. It is also used in the food industry as a sweetener, although it is not as sweet as sucrose.
+==Related pages==
-In the medical field, cellobiose can be used as a diagnostic tool. For example, it can be used to test for the presence of certain types of bacteria in the human gut that are capable of breaking down cellulose.
-== Health Effects ==
-While cellobiose is not harmful in small amounts, excessive consumption can lead to digestive issues. This is because humans lack the necessary enzymes to break down cellobiose. However, some gut bacteria are capable of breaking down cellobiose, and these bacteria can proliferate if large amounts of cellobiose are consumed, leading to digestive issues.
-== See Also ==
-* [[Disaccharide]]
 * [[Cellulose]]
 * [[Glucose]]
-* [[Cellulases]]
+* [[Disaccharide]]
+* [[Glycosidic bond]]
+* [[Cellulase]]
 [[Category:Disaccharides]]
-[[Category:Sugars]]
-[[Category:Biochemistry]]
-{{Biochemistry-stub}}