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Literature summary for 3.2.1.118 extracted from

  • Sanchez-Perez, R.; Jorgensen, K.; Olsen, C.E.; Dicenta, F.; Moller, B.L.
    Bitterness in almonds (2008), Plant Physiol., 146, 1040-1052.
    View publication on PubMedView publication on EuropePMC

Application

Application Comment Organism
food industry beta-glucosidase as a tool in marker-assisted selection against bitter almonds Prunus dulcis

Protein Variants

Protein Variants Comment Organism
nutrition in the sweet almond genotype, the inner epidermis in the tegument facing the nucellus is rich in cytoplasmic and vacuolar prunasin beta-glucosidase activity, whereas in the bitter cultivar, the beta-glucosidase activity in this cell layer is low. In the bitter genotype, prunasin synthesized in the tegument is transported into the cotyledon via the transfer cells and converted into amygdalin in the developing almond seed, whereas in the sweet genotype, amygdalin formation is prevented because the prunasin is degraded upon passage of the beta-glucosidase rich cell layer in the inner epidermis of the tegument Prunus dulcis

Localization

Localization Comment Organism GeneOntology No. Textmining
cytoplasm in the sweet genotype, the inner epidermis in the tegument facing the nucellus is rich in cytoplasmic and vacoular prunasin beta-glucosidase activity, whereas in the bitter cultivar, the beta-glucosidase activity in this cell layer is low Prunus dulcis 5737
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cytoplasm high activity in the inner epidermis in the tegument of the sweet genotype Ramillete Prunus dulcis 5737
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vacuole in the sweet genotype, the inner epidermis in the tegument facing the nucellus is rich in cytoplasmic and vacoular prunasin beta-glucosidase activity, whereas in the bitter cultivar, the beta-glucosidase activity in this cell layer is low Prunus dulcis 5773
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vacuole high activity in the inner epidermis in the tegument of the sweet genotype Ramillete Prunus dulcis 5773
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Organism

Organism UniProt Comment Textmining
Prunus dulcis
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-
-
Prunus dulcis
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four different genotypes with different degrees of bitterness
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Source Tissue

Source Tissue Comment Organism Textmining
epidermis in the sweet genotype, the inner epidermis in the tegument facing the nucellus is rich in cytoplasmic and vacoular prunasin beta-glucosidase activity, whereas in the bitter cultivar, the beta-glucosidase activity in this cell layer is low. In the bitter genotype, prunasin synthesized in the tegument is transported into the cotyledon via the transfer cells and converted into amygdalin in the developing almond seed, whereas in the sweet genotype, amygdalin formation is prevented because the prunasin is degraded upon passage of the beta-glucosidase rich cell layer in the inner epidermis of the tegument Prunus dulcis
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epidermis high activity in the inner epidermis of the tegument of the sweet genotype Ramillete, whereas the bitter cultivar S3067 shows low activity in this cell layer Prunus dulcis
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Substrates and Products (Substrate)

Substrates Comment Substrates Organism Products Comment (Products) Rev. Reac.
(R)-prunasin + H2O in the sweet genotype Ramillete, amygdalin formation is prevented because the prunasin is degraded upon passage of the beta-glucosidase rich cell layer in the inner epidermis of the tegument Prunus dulcis D-glucose + mandelonitrile
-
?
6-bromo-2-naphthyl-beta-D-glucopyranoside + H2O
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Prunus dulcis ?
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?

Synonyms

Synonyms Comment Organism
beta-glucosidase
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Prunus dulcis