Acetyl group: Difference between revisions
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{{Short description| | {{Short description|Overview of the acetyl group in organic chemistry}} | ||
== | ==Acetyl Group== | ||
The '''acetyl group''' is a functional group in organic chemistry with the formula | [[File:Acetyl_group.svg|thumb|right|150px|Structure of the acetyl group]] | ||
The '''acetyl group''' is a functional group in organic chemistry with the formula \( \text{CH}_3\text{CO} \). It is derived from [[acetic acid]] and is characterized by the presence of a carbonyl group (C=O) bonded to a methyl group (CH_). The acetyl group is a common moiety in [[biochemistry]] and is involved in various biochemical processes. | |||
==Structure and Properties== | ==Structure and Properties== | ||
The acetyl group consists of a | The acetyl group consists of a carbon atom double-bonded to an oxygen atom (carbonyl group) and single-bonded to a methyl group. This structure imparts certain chemical properties, such as the ability to act as an [[electrophile]] in chemical reactions. The carbonyl carbon is partially positive, making it susceptible to nucleophilic attack. | ||
==Biological Significance== | ==Biological Significance== | ||
In biological systems, the acetyl group plays a crucial role in [[metabolism]] and [[ | In biological systems, the acetyl group plays a crucial role in [[metabolism]] and [[gene expression]]. It is involved in the [[acetylation]] of proteins, which can affect their function and activity. For example, the acetylation of [[histones]] is a key mechanism in the regulation of [[gene expression]], influencing the accessibility of [[DNA]] for transcription. | ||
===Acetyl-CoA=== | |||
[[File:Acetyl_group.svg|thumb|left|150px|Acetyl group as part of acetyl-CoA]] | |||
One of the most important acetyl-containing molecules in metabolism is [[acetyl-CoA]]. Acetyl-CoA is a central metabolite in the [[citric acid cycle]] (Krebs cycle) and is involved in the synthesis and oxidation of [[fatty acids]]. It serves as a key intermediate in the transfer of acetyl groups in various biochemical pathways. | |||
==Applications== | ==Applications in Medicine== | ||
The acetyl group is | The acetyl group is also significant in medicine, particularly in the development of [[pharmaceuticals]]. Many drugs are acetylated to improve their absorption and efficacy. For instance, [[acetylsalicylic acid]], commonly known as [[aspirin]], is an acetylated form of salicylic acid and is widely used as an [[analgesic]] and [[anti-inflammatory]] agent. | ||
==Related | ==Related Pages== | ||
* [[Acetic acid]] | * [[Acetic acid]] | ||
* [[Acetylation]] | |||
* [[Acetyl-CoA]] | * [[Acetyl-CoA]] | ||
* [[Histone acetylation]] | * [[Histone acetylation]] | ||
* [[Citric acid cycle]] | |||
[[Category:Functional groups]] | [[Category:Functional groups]] | ||
[[Category:Organic chemistry]] | [[Category:Organic chemistry]] | ||
[[Category:Biochemistry]] | |||
Latest revision as of 03:42, 13 February 2025
Overview of the acetyl group in organic chemistry
Acetyl Group[edit]
The acetyl group is a functional group in organic chemistry with the formula \( \text{CH}_3\text{CO} \). It is derived from acetic acid and is characterized by the presence of a carbonyl group (C=O) bonded to a methyl group (CH_). The acetyl group is a common moiety in biochemistry and is involved in various biochemical processes.
Structure and Properties[edit]
The acetyl group consists of a carbon atom double-bonded to an oxygen atom (carbonyl group) and single-bonded to a methyl group. This structure imparts certain chemical properties, such as the ability to act as an electrophile in chemical reactions. The carbonyl carbon is partially positive, making it susceptible to nucleophilic attack.
Biological Significance[edit]
In biological systems, the acetyl group plays a crucial role in metabolism and gene expression. It is involved in the acetylation of proteins, which can affect their function and activity. For example, the acetylation of histones is a key mechanism in the regulation of gene expression, influencing the accessibility of DNA for transcription.
Acetyl-CoA[edit]
One of the most important acetyl-containing molecules in metabolism is acetyl-CoA. Acetyl-CoA is a central metabolite in the citric acid cycle (Krebs cycle) and is involved in the synthesis and oxidation of fatty acids. It serves as a key intermediate in the transfer of acetyl groups in various biochemical pathways.
Applications in Medicine[edit]
The acetyl group is also significant in medicine, particularly in the development of pharmaceuticals. Many drugs are acetylated to improve their absorption and efficacy. For instance, acetylsalicylic acid, commonly known as aspirin, is an acetylated form of salicylic acid and is widely used as an analgesic and anti-inflammatory agent.
