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A branched-chain amino acid (BCAA) is an amino acid having an aliphatic side-chain with a branch (a central carbon atom bound to three or more carbon atoms). Among the proteinogenic amino acids, there are three BCAAs: leucine, isoleucine, and valine. [1] Non-proteinogenic BCAAs include 2-aminoisobutyric acid and alloisoleucine. Leucine ...
2-, alpha-, or α-amino acids [21] have the generic formula H 2 NCHRCOOH in most cases, [b] where R is an organic substituent known as a "side chain". [22] Of the many hundreds of described amino acids, 22 are proteinogenic ("protein-building").
Protein structure is the three-dimensional arrangement of atoms in an amino acid-chain molecule. Proteins are polymers – specifically polypeptides – formed from sequences of amino acids, which are the monomers of the polymer. A single amino acid monomer may also be called a residue, which indicates a
Pages in category "Branched-chain amino acids" The following 8 pages are in this category, out of 8 total. This list may not reflect recent changes. ...
Protein sequence is typically notated as a string of letters, listing the amino acids starting at the amino-terminal end through to the carboxyl-terminal end. Either a three letter code or single letter code can be used to represent the 22 naturally encoded amino acids, as well as mixtures or ambiguous amino acids (similar to nucleic acid ...
There are several families that function in amino acid transport, some of these include: TC# 2.A.3 - Amino Acid-Polyamine-Organocation (APC) Superfamily; TC# 2.A.18 - Amino Acid/Auxin Permease (AAAP) Family; TC# 2.A.23 - Dicarboxylate/Amino Acid:Cation (Na + or H +) Symporter (DAACS) Family; TC# 2.A.26 - Branched Chain Amino Acid:Cation ...
Succinyl CoA can be formed from methylmalonyl CoA through the utilization of deoxyadenosyl-B 12 (deoxyadenosylcobalamin) by the enzyme methylmalonyl-CoA mutase.This reaction, which requires vitamin B 12 as a cofactor, is important in the catabolism of some branched-chain amino acids as well as odd-chain fatty acids.
The table below lists the abundance of amino acids in E.coli cells and the metabolic cost (ATP) for synthesis of the amino acids. Negative numbers indicate the metabolic processes are energy favorable and do not cost net ATP of the cell. [12] The abundance of amino acids includes amino acids in free form and in polymerization form (proteins).