CHARACTERIZATION OF ADENOSINE NUCLEOSIDASE FROM ALASKA PEA SEEDS
CHARACTERIZATION OF ADENOSINE NUCLEOSIDASE FROM ALASKA PEA SEEDS
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Date
2015-06-22
Authors
Shamsuddin, Abdullah Khairuddin
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Journal ISSN
Volume Title
Publisher
Middle Tennessee State University
Abstract
Adenosine nucleosidase was purified from Alaska pea seeds five days after germination. A 4-fold purification has been reached with a 1.3 % recovery. The subunit molecular weight of adenosine nucleosidase was determined by mass spectrometry to be 26,103 daltons. The number of subunits was 1. The Michaelis constant, Km, and the maximum velocity, V max, for adenosine were determined to be 137 48 M, and 0.34 0.02 M/min respectively.
In addition, the substrate specificity of the enzyme was investigated. Based on the observed substrate specificity, adenosine nucleosidase from Alaska pea seeds belongs to the non-specific inosine-uridine nucleoside hydrolases (IU-NHs). An interesting finding was the fact that the purified enzyme was the only plant source that used 2, 3, and 5-deoxyadenosine as substrates. This is completely different from the parasitic protozoa IU-NH, specifically the nucleoside hydrolase from C. fasciculata, which showed no activity toward deoxynucleosides. This difference also indicates that adenosine nucleosidase from Alaska pea goes through a different mechanism of reaction from that of parasitic protozoa. While these results provide insight about the enzyme from Alaska pea seeds, further conformation is required to support the statements above.
In addition, the substrate specificity of the enzyme was investigated. Based on the observed substrate specificity, adenosine nucleosidase from Alaska pea seeds belongs to the non-specific inosine-uridine nucleoside hydrolases (IU-NHs). An interesting finding was the fact that the purified enzyme was the only plant source that used 2, 3, and 5-deoxyadenosine as substrates. This is completely different from the parasitic protozoa IU-NH, specifically the nucleoside hydrolase from C. fasciculata, which showed no activity toward deoxynucleosides. This difference also indicates that adenosine nucleosidase from Alaska pea goes through a different mechanism of reaction from that of parasitic protozoa. While these results provide insight about the enzyme from Alaska pea seeds, further conformation is required to support the statements above.
Description
Keywords
Adenosine nucleosidase,
Characterization,
Nucleoside hydrolases,
Purification,
Substrate specificity