Amino acid: Difference between revisions

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[[Image:Twenty amino acid structures3.jpg|right|thumb|500px|{{#ifexist:Template:Twenty amino acid structures2.jpg/credit|{{Twenty amino acid structures2.jpg/credit}}<br/>|}}Amino acid structures.]]  
[[Image:Twenty amino acid structures3.jpg|right|thumb|500px|{{#ifexist:Template:Twenty amino acid structures2.jpg/credit|{{Twenty amino acid structures2.jpg/credit}}<br/>|}}Amino acid structures.]]  


In [[biochemistry]], an <math>\alpha</math>-'''amino acid''' is an [[organic chemistry|organic]] [[monomer]] consisting of an [[amino group]], a [[carboxyl group]], a [[hydrogen]] atom, and a residual group (commonly denoted as simply "R") [[covalent bond|covalently]] bonded to a central (alpha) carbon (C<sub><math>\alpha</math></sub>). Amino acids are linked via [[peptide bond|peptide bonds]] to create short chains called [[polypeptide|polypeptides]], which is often shortened to peptides. Longer, more complex chains (or combinations of multiple chains) are called [[protein|proteins]], which have a vast array of biological functions.  In peptides and proteins, the R-groups are often called "side chains", because they are not involved in the polymer backbone.   
In [[biochemistry]], an <math>\alpha</math>-'''amino acid''' is an [[organic chemistry|organic]] [[monomer]] consisting of an [[amino group]], a [[carboxyl group]], a [[hydrogen]] atom, and a residual group (commonly denoted as simply "R") [[covalent bond|covalently]] bonded to a central (alpha) carbon (C<sub><math>\alpha</math></sub>). Amino acids can link via [[peptide bond|peptide bonds]] to create short chains (polymers) called [[polypeptide|polypeptides]], often referred to simply as peptides. Longer, more complex chains (or combinations of multiple chains) are called [[protein|proteins]], which have a vast array of biological functions.  In peptides and proteins, the R-groups are often called "side chains", because they are not involved in the polymer backbone.   
Amino acids have two stereo isomers (mirror images of each other), and only the L-isomer is used in protein synthesis.
Amino acids have two stereo isomers (mirror images of each other), and only the L-isomer is used in protein synthesis.



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Amino acid structures.

In biochemistry, an -amino acid is an organic monomer consisting of an amino group, a carboxyl group, a hydrogen atom, and a residual group (commonly denoted as simply "R") covalently bonded to a central (alpha) carbon (C). Amino acids can link via peptide bonds to create short chains (polymers) called polypeptides, often referred to simply as peptides. Longer, more complex chains (or combinations of multiple chains) are called proteins, which have a vast array of biological functions. In peptides and proteins, the R-groups are often called "side chains", because they are not involved in the polymer backbone. Amino acids have two stereo isomers (mirror images of each other), and only the L-isomer is used in protein synthesis.

The Amino Acids

There are twenty common amino acids used by nearly all living organisms as well as several rarer ones. The difference between any two amino acids is the residual (R) group, and they can be categorized based on the chemical properties of the R-groups. Each amino acid has a three-letter abbreviation and a one-letter symbol.

Amino Acids with Non-Polar R-Groups

Amino Acids with Aromatic R-Groups

Amino Acids with Polar, Uncharged R-Groups

Amino Acids with Positively Charged R-Groups

Amino Acids with Negatively Charged R-Groups

Synthesis

Most organisms are unable to synthesize all twenty amino acids. Essential amino acids must be taken in from the environment, whereas nonessential amino acids can be produced by the organism. For humans, there are seven essential amino acids that must be obtained in the diet in order to survive; there are therefore thirteen non-essential amino acids for humans. The number of and the identity of the essential amino acids varies among species.

For humans, the nonessential amino acids can be synthesized in cells through a variety of pathways. For some animals, the amino acid carnitine is essential, but most animals can produce it from lysine.

See Also