Your search keyword '"Aliphatic Amino Acids"' showing total 3 results

1. Characteristics and biotechnology applications of aliphatic amino acid hydroxylases belonging to the Fe(II)/α-ketoglutarate-dependent dioxygenase superfamily.

Author

Hibi, Makoto and Ogawa, Jun

Subjects

*BIOTECHNOLOGY, *ALIPHATIC amines, *HYDROXYLASES, *IRON oxides, *DIOXYGENASES, *PHARMACEUTICAL chemistry

Abstract

The asymmetric hydroxylation of inactive carbon atoms is still an important reaction in the industrial synthesis of valuable chiral compounds such as pharmaceuticals and fine chemicals. Applications of monooxygenation enzymes, like cytochrome P450 monooxygenases, flavin-containing monooxygenases, and Fe(II)/α-ketoglutarate-dependent dioxygenases (Fe/αKG-DOs), are strongly desired as hydroxylation biocatalysts because they have great advantages in regio- and stereoselectivity of the reactions. Recently, several novel Fe/αKG-DOs have been found to catalyze the asymmetric hydroxylation of aliphatic amino acids. Depending on their amino acid sequences, these Fe/αKG-DOs catalyze different types of regioselective hydroxylations, or C3-, C4-, and C5-hydroxylation. Additionally, most also have stereoselective sulfoxidation activities. Here, we have reviewed the characterization and process development of this novel functioning group of Fe/αKG-DOs. [ABSTRACT FROM AUTHOR]

Published

2014

2. Combinatorics of aliphatic amino acids.

Author

Grützmann, Konrad, Böcker, Sebastian, and Schuster, Stefan

Abstract

This study combines biology and mathematics, showing that a relatively simple question from molecular biology can lead to complicated mathematics. The question is how to calculate the number of theoretically possible aliphatic amino acids as a function of the number of carbon atoms in the side chain. The presented calculation is based on earlier results from theoretical chemistry concerning alkyl compounds. Mathematical properties of this number series are highlighted. We discuss which of the theoretically possible structures really occur in living organisms, such as leucine and isoleucine with a chain length of four. This is done both for a strict definition of aliphatic amino acids only involving carbon and hydrogen atoms in their side chain and for a less strict definition allowing sulphur, nitrogen and oxygen atoms. While the main focus is on proteinogenic amino acids, we also give several examples of non-proteinogenic aliphatic amino acids, playing a role, for instance, in signalling. The results are in agreement with a general phenomenon found in biology: Usually, only a small number of molecules are chosen as building blocks to assemble an inconceivable number of different macromolecules as proteins. Thus, natural biological complexity arises from the multifarious combination of building blocks. [ABSTRACT FROM AUTHOR]

Published

2011

3. Hydrophobic hydration of aliphatic amino acids.

Author

Khurgin, Yu., Baranov, A., and Vorob'ev, M.

Abstract

Indexes of hydrophobic hydration of aliphatic amino acids derived by millimeter spectroscopy (31.42 GHz) give a linear correlation with the accessible surface area of the side chains. [ABSTRACT FROM AUTHOR]

Published

1994