4.2.1.146: L-galactonate dehydratase
This is an abbreviated version!
For detailed information about L-galactonate dehydratase, go to the full flat file.
Reaction
Synonyms
LGD1
ECTree
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Engineering
Engineering on EC 4.2.1.146 - L-galactonate dehydratase
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additional information
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gene replacement strategy for generating Bortrytis cinerea deletion constructs, complementation study, overview. Targeted gene replacement of all four genes, either separately or in combinations, yields mutants that are affected in growth on D-galacturonic acid, pectate, or pectin as the sole carbon source
additional information
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gene replacement strategy for generating Bortrytis cinerea deletion constructs, complementation study, overview. Targeted gene replacement of all four genes, either separately or in combinations, yields mutants that are affected in growth on D-galacturonic acid, pectate, or pectin as the sole carbon source
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additional information
the C-terminal tagging results in an inactive protein while the N-terminal tagging results in a protein with reduced activity. The activity found in the crude extract of the N-terminally tagged protein is about five times lower than the non-tagged protein
additional information
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the C-terminal tagging results in an inactive protein while the N-terminal tagging results in a protein with reduced activity. The activity found in the crude extract of the N-terminally tagged protein is about five times lower than the non-tagged protein
additional information
strain M106, derived from wild-type strain Rut-C30, accumulates L-galactonic acid from provided galacturonic acid due to a L-galactonate dehydratase deletion. Strain M106 maintains higher intracellular pH in the presence of D-galacturonic acid than its parental strain Rut-C30. The acidic external pH caused significant acidification of cytosol
additional information
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strain M106, derived from wild-type strain Rut-C30, accumulates L-galactonic acid from provided galacturonic acid due to a L-galactonate dehydratase deletion. Strain M106 maintains higher intracellular pH in the presence of D-galacturonic acid than its parental strain Rut-C30. The acidic external pH caused significant acidification of cytosol
additional information
-
strain M106, derived from wild-type strain Rut-C30, accumulates L-galactonic acid from provided galacturonic acid due to a L-galactonate dehydratase deletion. Strain M106 maintains higher intracellular pH in the presence of D-galacturonic acid than its parental strain Rut-C30. The acidic external pH caused significant acidification of cytosol
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