Amino acids

From The School of Biomedical Sciences Wiki
(Difference between revisions)
Jump to: navigation, search
m
Line 17: Line 17:
 
| [[Alanine|alanine]]  
 
| [[Alanine|alanine]]  
 
| A  
 
| A  
| ala
+
| Ala
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 23: Line 23:
 
| [[Arginine|arginine]]  
 
| [[Arginine|arginine]]  
 
| R  
 
| R  
| arg
+
| Arg
 
| +ve  
 
| +ve  
 
| polar
 
| polar
Line 29: Line 29:
 
| [[Asparagine|asparagine]]  
 
| [[Asparagine|asparagine]]  
 
| N  
 
| N  
| asn
+
| Asn
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 35: Line 35:
 
| [[Aspartate|aspartate]]  
 
| [[Aspartate|aspartate]]  
 
| D  
 
| D  
| asp
+
| Asp
 
| -ve  
 
| -ve  
 
| polar
 
| polar
Line 41: Line 41:
 
| [[Cysteine|cysteine]]  
 
| [[Cysteine|cysteine]]  
 
| C  
 
| C  
| cys
+
| Cys
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 47: Line 47:
 
| [[Glycine|glycine]]  
 
| [[Glycine|glycine]]  
 
| G  
 
| G  
| gly
+
| Gly
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 53: Line 53:
 
| [[Glutamine|glutamine]]  
 
| [[Glutamine|glutamine]]  
 
| Q  
 
| Q  
| gln
+
| Gln
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 59: Line 59:
 
| [[Glutamate|glutamate]]  
 
| [[Glutamate|glutamate]]  
 
| E  
 
| E  
| glu
+
| Glu
 
| -ve  
 
| -ve  
 
| polar
 
| polar
Line 65: Line 65:
 
| [[Histidine|histidine]]  
 
| [[Histidine|histidine]]  
 
| H  
 
| H  
| his
+
| His
 
| +ve  
 
| +ve  
 
| polar
 
| polar
Line 71: Line 71:
 
| [[Isoleucine|isoleucine]]  
 
| [[Isoleucine|isoleucine]]  
 
| I  
 
| I  
| ile
+
| Ile
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 77: Line 77:
 
| [[Leucine|leucine]]  
 
| [[Leucine|leucine]]  
 
| L  
 
| L  
| leu
+
| Leu
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 83: Line 83:
 
| [[Lysine|lysine]]  
 
| [[Lysine|lysine]]  
 
| K  
 
| K  
| lys
+
| Lys
 
| +ve  
 
| +ve  
 
| polar
 
| polar
Line 89: Line 89:
 
| [[Methionine|methionine]]  
 
| [[Methionine|methionine]]  
 
| M  
 
| M  
| met
+
| Met
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 95: Line 95:
 
| [[Phenylalanine|phenylalanine]]  
 
| [[Phenylalanine|phenylalanine]]  
 
| F  
 
| F  
| phe
+
| Phe
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 101: Line 101:
 
| [[Proline|proline]]  
 
| [[Proline|proline]]  
 
| P  
 
| P  
| pro
+
| Pro
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 107: Line 107:
 
| [[Serine|serine]]  
 
| [[Serine|serine]]  
 
| S  
 
| S  
| ser
+
| Ser
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 113: Line 113:
 
| [[Threonine|threonine]]  
 
| [[Threonine|threonine]]  
 
| T  
 
| T  
| thr
+
| Thr
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 119: Line 119:
 
| [[Tryptophan|tryptophan]]  
 
| [[Tryptophan|tryptophan]]  
 
| W  
 
| W  
| trp
+
| Trp
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar
Line 125: Line 125:
 
| [[Tyrosine|tyrosine]]  
 
| [[Tyrosine|tyrosine]]  
 
| Y  
 
| Y  
| tyr
+
| Tyr
 
| neutral  
 
| neutral  
 
| polar
 
| polar
Line 131: Line 131:
 
| [[Valine|valine]]  
 
| [[Valine|valine]]  
 
| V  
 
| V  
| val
+
| Val
 
| neutral  
 
| neutral  
 
| nonpolar
 
| nonpolar

Revision as of 23:01, 29 November 2012

Amino acids are the building blocks of proteins. There are 20 naturally occurring amino acids. Amino acids exist in proteins as L-optical isomers, however they can extist as D-isomers in isolated examples, e.g. some bacterial cell walls contain D-isomers.

Amino acids can also be characterized as polar or non-polar and these dictate the amino acid function. There are 10 non-polar amino acids found in protein core, and there are 10 polar amino acids. These have enzymatic roles and can be used to bind DNA, metals and other naturally occuring ligands. There are essential amino acids and non-essential amino acids. Essential amino acids are the ones that the body cannot synthesise on its own. The essential amino acids in humans are: histidine, leucine, isoleucine, lysine, methionine, valine, phenylalanine, tyrosine and tryptophan.[1] These amino acids have to be supplied to the body via digested proteins that are then absorbed in the intestine and transported in the blood to where they are needed[2]. The digestion of cellular proteins is also an important source for amino acids. Non-essential amino acids can be synthesised from compounds already existing in the body.

Amino acids have been abbreviated into a 3 letter code as well as a 1 letter code. For example, glycine has the 3 letter code 'Gly' and is assigned the letter 'G' (see single letter amino acid codes).

List of the 20 Amino acids, single letter code, three letter code, their charges, and side chain polarity:

Amino acid single letter code three letter code charge polarity
alanine A Ala neutral nonpolar
arginine R Arg +ve polar
asparagine N Asn neutral polar
aspartate D Asp -ve polar
cysteine C Cys neutral polar
glycine G Gly neutral nonpolar
glutamine Q Gln neutral polar
glutamate E Glu -ve polar
histidine H His +ve polar
isoleucine I Ile neutral nonpolar
leucine L Leu neutral nonpolar
lysine K Lys +ve polar
methionine M Met neutral nonpolar
phenylalanine F Phe neutral nonpolar
proline P Pro neutral nonpolar
serine S Ser neutral polar
threonine T Thr neutral polar
tryptophan W Trp neutral nonpolar
tyrosine Y Tyr neutral polar
valine V Val neutral nonpolar

Amino acid structure

All amino acids have a carboxyl terminus and an amino terminus, but they differ in their residual groups. Amino acids are bonded together by a covalent linkage called a peptide bond [3]. Amino acids contain both a carboxyl group (COOH) and an amino group (NH2). The core amino acid structure is:

              NH2-----C(H)(R)----COOH

where (R) is the side chain unique to each different amino acid.

Large amino acids form the rigid region of the polypeptide backbone while the small amino acids form the flexible regions of the polypeptide allowing the protein to fold into it's three dimensional shape. This is what allows the polypeptides primary sequence to fold to an alpha helix which is one strand coiled. A beta strand is two strands coiled to an antiparallel helix. The core of the polypeptide is made up of the hydrophobic amino acids like phenyalanine, tyrosine, and tryptophan [4]. These three amino acids are also aromatic and are the largest amino acids.

Amino acids are referred to as chiral due to the alpha carbon being connected to four different groups. They can exist as one of two mirror images referred to as the L isomer and the D isomer with only the L form of the amino acid isomer present within proteins. [5]

Amino acids in Translation

During the translation of mRNA amino acids bind to the ribosome as it reads the mRNA and using the information given it produces a specific amino acid sequence producing a polypeptide chain. The 30S subunit binds to the mRNA first, and the 50S subunit binds second to form the 70S initiatior complex.

References

  1. Berg J., Tymoczko J and Stryer L. (2007) Biochemistry, 6th edition, New York: W.H. Freeman and Company, pg650.
  2. Berg J., Tymoczko J and Stryer L. (2007) Biochemistry, 6th edition, New York: W.H. Freeman and Company, pg650.
  3. Alberts, B et al. (2008). Molecular Biology of the Cell. 5th ed. US: Garland Science. 1268. (Page 59)
  4. J.M.Berg, J.L.Tymoczko, L.Stryer,(2007) Biochemistry, 6th edition, New York: W.H.Freeman and company (page 27).
  5. Berg J. Tymoczko J. Stryer L., Biochemistry Sixth Edition (2007, WH Freeman, New York (page 27)
Personal tools
Namespaces
Variants
Actions
Navigation
Toolbox