Amino acid

(thing) by BioTech (6.5 mon) (print) ? (I like it!) Sun Feb 09 2003 at 6:41:35

Any of a class of 20 molecules that are combined to form proteins in living things. The sequence of amino acids in a protein and hence protein function are determined by the genetic code.

From the BioTech Dictionary at http://biotech.icmb.utexas.edu/. For further information see the BioTech homenode.

(thing) by The Other Dan (1.8 y) (print) ? (I like it!) Sat Nov 13 1999 at 9:13:29

An amino acid is a carbon atom with a hydrogen atom, an organic acid {COOH}, an amino group {NH2}, and one other chemical group attached. The other chemical group is what gives each amino acid its specific properties.

Amino acids are linked together to form proteins.

(idea) by ModernAngel (2.8 wk) (print) ? (I like it!) 1 C! Wed Jan 26 2000 at 0:03:31

The "building blocks" of muscles, nerves, and organ meat. Since the science of nutrition seems to still be in its infancy, different experts identify between 20 and 29 amino acids. Muscleheads, er I mean weightlifters, often consume amino acid supplements. My experience leads me to consider them as fun and effective as vitamins.

(thing) by CrazyIvan (6.9 y) (print) ? (I like it!) Sun Apr 09 2000 at 2:58:29

These are the 1 and 3 letter codes for the 20 amino acids commonly found in proteins.

A Ala Alanine
C Cys Cysteine
D Asp Aspartic acid
E Glu Glutamic acid
F Phe Phenylalanine
G Gly Glycine
H His Histidine
I Ile Isoleucine
K Lys Lysine
L Leu Leucine
M Met Methionine
N Asn Asparagine
P Pro Proline
Q Gln Glutamine
R Arg Arginine
S Ser Serine
T Thr Threonine
V Val Valine
W Trp Tryptophan
Y Tyr Tyrosine

(thing) by bonnet (5.2 y) (print) ? (I like it!) Sun Apr 09 2000 at 3:39:35

The L is for Levo, meaning that the substance rotates the plane of polarized light to the left. If there is an isomer, the opposite (mirror image) would be the D (for Dextro) form.

When chemists whip up a batch of an amino acid, they may well end up with roughly half of each orientation, whereas all known forms of life on this planet can only (efficiently) make or use the L orientation.

It is one of the mysteries of science why this L preference occurred back in the goo stages of evolution.

(idea) by piq (1.9 mon) (print) ? (I like it!) 1 C! Mon Oct 23 2000 at 18:10:29

Amino Acids - the building blocks of Protein

All have the same fundamental structure
- Central Carbon Atom bonded to an amino group (-NH₂) to a carboxyl group (-COOH) and to a hydrogen atom
- In every amino acid there is also another atom or group of atoms designated by (-R)
- A large variety is possible, but only twenty different kinds are used to build proteins.
- The only difference in proteins is their (-R) group.
Example of condensation: Amino "head" of one amino acid can be linked to the carboxyl tail of another by removal of a molecule of water. (Peptide bond)
- forms dipeptide or polypeptide
- sequence of amino acids in polypeptide chain determines the characters of the protein molecule.

    R            R
    |            |
H-N-C-C-OH   H-N-C-C-OH
  | | ||       | | ||
  H H O        H H O

H₂O is extracted from the molecules in the middle and a single bond is formed. (A peptide bond is a covalent bond formed by condensation.



    R     R
    |     |
H-N-C-C-N-C-C-OH
  | | ||| | ||
  H H O H H O

I wish there were a better way to do this, the Hydrogen is single-bonded to the nitrogen and the Oxygen shares a double bond with the Carbon.

(thing) by LadySun (6.3 hr) (print) ? (I like it!) 2 C!s Tue May 08 2001 at 16:38:01

There are 23 L-amino acids that form the basis for proteins in all the known life on this planet. (The L- refers to the organization of the subgroups around the chiral carbon, or alpha carbon. D-amino acids be structural mirror images of L-amino acids.) All amino acids have the same "backbone", or basic structure:

    COOH
    |
H₂N-C-H
    |
    R

where "R" represents the defining subgroup.

There are three "types" of amino acids, as defined by the polarity of their subgroups.
R groups only shown, except Proline. In parentheses are three-letter and one-letter abbreviations
The nonpolar (uncharged, hydrophobic) amino acids are:


Alanine (Ala, A):  -CH₃
                       CH₃
                       |
Isoleucine (Ile, I):  -CH-CH₂-CH₃

                        CH₃
                        |
Leucine (Leu, L):  -CH₂-CH-CH₃

Methionine (Met, M):  -CH₂-CH₂-S-CH₃

                               C=C
                              /   \
Phenylalanine (Phe, F): -CH₂-C     C
                              \\ //
                               C-C

Proline (Pro, P):       COOH
                        |
                     HN-C-H
                      / |
                   H₂C   CH₂
                     \  /
                      CH₂

Tryptophan (Trp, W):  -CH₂-C=CH
                           | \
                           |  NH
                           | /
                           C-C
                          // \\
                         C     C
                          \   /
                           C=C

                  CH₃
                  |
Valine (Val, V): -CH-CH₃

The polar but uncharged amino acids are:

                          NH₂
                          |
Asparagine (Asn, N): -CH₂-C=O

Cysteine (Cys, C): -CH₂-SH

Glycine (Gly, G): -H

Note: Glycine is not chiral, because there are two identical subgroups (hydrogen).


                              NH₂
                              |
Glutamine (Gln, Q):  -CH₂-CH₂-C=O

Serine (Ser, S):  -CH₂-OH

                      OH
                      |
Threonine (Thr, T):  -CH-CH₃


                           C=C
                          /   \
Tyrosine (Tyr, Y):  -CH₂-C     C-OH
                          \\ //
                           C-C

The charged amino acids are:


Aspartate (Asp, D):  -CH₂-COO^-

                                    NH₂
                                    |
Arginine (Arg, R):  -CH₂-CH₂-CH₂-NH-C=NH₂⁺

Histidine (His, H): -CH₂-C-NH
                        //  \
                       HC    CH
                        \  //
                         NH⁺

Glutamate (Glu, E):  -CH₂-CH₂-COO^-

Lysine (Lys, K):  -CH₂-CH₂-CH₂-CH₂-NH₃⁺

There are other amino acids, such as ornithine, histamine, and thyroxine, which are modified amino acids found only in certain proteins or that occur as precursors during biosynthesis.

Structures redrawn from Garrett and Grisham, Biochemistry, 2nd edition

(idea) by Bobbin_Threadbare (3.2 mon) (print) ? (I like it!) 1 C! Wed Dec 04 2002 at 4:32:25

Amino acids, the building blocks of proteins, are one of the most interesting biological molecules.

The Strecker Method
The Strecker synthesis is a way to make amino acids from aldehydes, and the aldehyde used determines the amino acid which results. Simply add to the aldehyde ammonia, and remove the water. To the resultant imine (the nitrogen of the ammonia supplants the oxygen of the aldehyde), add hydrogen cyanide. This will create an amino nitrile. To this add aqueous acid, heat, and water, and voila, an amino acid.

Organic Chemistry: Structure and Function by Vollhardt and Schore is the book my instructer taught us from, and it seemed to do a fine job of teaching this chemistry and the rest of organic chemistry that one learns as an undergraduate. Amino acids are the building blocks of proteins. The following is one of several ways to synthesize amino acids. Its advantage over some other ways is the wide variety of amino acids which can be synthesized in this fashion.

The first step is to take potassium 1,2-benzene-di carboxylic imide and add to it di ethyl 2-bromo-propane di oate. The result is that the nitrogen of the prior reagent, which has a full negative charge, attacks the carbon which the bromine is attached to on the second reagent, kicking off said bromine.

At this point, one can replace the hydrogen on this carbon with a different side chain (this is where the variety I mentioned earlier is possible). Simply add sodium ethoxide and ethanol to deprotonate the carbon, and add your side chain attached to a halogen (chlorine, bromine, &c.).

Finally, heat it up in the presence of aqueous acid to clear out the protecting group (what the 1,2-benzene-dicarboxylic imide turned into).

The Gabriel Synthesis
The advantage of the Gabriel synthesis over some other ways is the wide variety of amino acids which can be synthesized in this fashion. The first step is to take potassium 1,2-benzene-di carboxylic imide and add to it di ethyl 2-bromo-propane di oate. The result is that the nitrogen of the prior reagent, which has a full negative charge, attacks the carbon which the bromine is attached to on the second reagent, kicking off said bromine.

At this point, one can replace the hydrogen on this carbon with a different side chain (this is where the variety I mentioned earlier is possible). Simply add sodium ethoxide and ethanol to deprotonate the carbon, and add your side chain attached to a halogen (chlorine, bromine, &c.).

Finally, heat it up in the presence of aqueous acid to clear out the protecting group (what the 1,2-benzene-dicarboxylic imide turned into).

An excellent explanation of thess and other amino acid syntheses can be found in Organic Chemistry: Structure and Function by Vollhardt and Schore.

printable version
chaos

The Expert Factor	Phenylalanine	peptide	Tryptophan
Lysine	Cysteine	histidine	Isoleucine
Methionine	Leucine	Valine	Alanine
Threonine	The Art of War	Universal Genetic Code	Arginine
Glycine	protein	Aspartic acid	selenocysteine
Tyrosine	L-tryptophan	Alpha Ketoglutarate Dehydrogenase - Links Krebs Cycle to Amino Acid production	Taurine

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