Literature summary extracted from

Silva, M.C.P.; Terra, W.R.; Ferreira, C.
Absorption of toxic beta-glucosides produced by plants and their effects on tissue trehalase from insects (2006), Comp. Biochem. Physiol. B, 143, 367-373.

Activating Compound

EC Number	Activating Compound	Comment	Organism	Structure
3.2.1.28	amygdalin	induces the enzyme in different organs, e.g. Malphigian tubules, midgut, fat body, hemolymph, and body wall, when feeded to larvae	Spodoptera frugiperda
3.2.1.28	esculin	induces the enzyme in different organs, e.g. Malphigian tubules, midgut, fat body, hemolymph, and body wall, when feeded to larvae	Spodoptera frugiperda

Inhibitors

EC Number	Inhibitors	Comment	Organism
3.2.1.28	amygdalin	-	Diatraea saccharalis
3.2.1.28	amygdalin	-	Musca domestica
3.2.1.28	amygdalin	-	Spodoptera frugiperda
3.2.1.28	amygdalin	-	Tenebrio molitor
3.2.1.28	esculin	-	Spodoptera frugiperda
3.2.1.28	esculin	-	Tenebrio molitor
3.2.1.28	mandelonitrile	-	Diatraea saccharalis
3.2.1.28	mandelonitrile	-	Musca domestica
3.2.1.28	mandelonitrile	-	Spodoptera frugiperda
3.2.1.28	mandelonitrile	-	Tenebrio molitor
3.2.1.28	additional information	inhibitory potency of plant-derived inhibitors in different tissues on soluble and membranous enzymes, overview, mechanism of insect tocircumvent trehalase inhibition caused by glucosides, overview	Diatraea saccharalis
3.2.1.28	additional information	inhibitory potency of plant-derived inhibitors in different tissues on soluble and membranous enzymes, overview, mechanism of insect tocircumvent trehalase inhibition caused by glucosides, overview	Musca domestica
3.2.1.28	additional information	inhibitory potency of plant-derived inhibitors in different tissues on soluble and membranous enzymes, overview, mechanism of insect tocircumvent trehalase inhibition caused by glucosides, overview	Spodoptera frugiperda
3.2.1.28	additional information	inhibitory potency of plant-derived inhibitors in different tissues on soluble and membranous enzymes, overview, mechanism of insect tocircumvent trehalase inhibition caused by glucosides, overview	Tenebrio molitor
3.2.1.28	phlorizin	-	Diatraea saccharalis
3.2.1.28	phlorizin	-	Musca domestica
3.2.1.28	phlorizin	-	Spodoptera frugiperda
3.2.1.28	phlorizin	-	Tenebrio molitor
3.2.1.28	prunasin	-	Diatraea saccharalis
3.2.1.28	prunasin	-	Musca domestica
3.2.1.28	prunasin	-	Spodoptera frugiperda
3.2.1.28	prunasin	-	Tenebrio molitor

Localization

EC Number	Localization	Comment	Organism	GeneOntology No.	Textmining
3.2.1.28	membrane	-	Tenebrio molitor	16020	-
3.2.1.28	membrane	-	Spodoptera frugiperda	16020	-
3.2.1.28	membrane	-	Musca domestica	16020	-
3.2.1.28	membrane	-	Diatraea saccharalis	16020	-
3.2.1.28	soluble	-	Tenebrio molitor	-	-
3.2.1.28	soluble	-	Spodoptera frugiperda	-	-
3.2.1.28	soluble	-	Musca domestica	-	-
3.2.1.28	soluble	-	Diatraea saccharalis	-	-

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.
3.2.1.28	alpha,alpha-trehalose + H2O	Tenebrio molitor	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	Spodoptera frugiperda	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	Musca domestica	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	Diatraea saccharalis	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	2 D-glucose	-	?

Organism

EC Number	Organism	UniProt	Comment	Textmining
3.2.1.28	Diatraea saccharalis	-	-	-
3.2.1.28	Musca domestica	-	-	-
3.2.1.28	Spodoptera frugiperda	-	-	-
3.2.1.28	Tenebrio molitor	-	-	-

Source Tissue

EC Number	Source Tissue	Comment	Organism	Textmining
3.2.1.28	body wall	larval	Tenebrio molitor	-
3.2.1.28	body wall	larval	Spodoptera frugiperda	-
3.2.1.28	body wall	larval	Musca domestica	-
3.2.1.28	body wall	larval	Diatraea saccharalis	-
3.2.1.28	fat body	larval	Tenebrio molitor	-
3.2.1.28	fat body	larval	Spodoptera frugiperda	-
3.2.1.28	fat body	larval	Musca domestica	-
3.2.1.28	hemolymph	larval	Tenebrio molitor	-
3.2.1.28	hemolymph	larval	Spodoptera frugiperda	-
3.2.1.28	hemolymph	larval	Musca domestica	-
3.2.1.28	hemolymph	larval, only soluble	Diatraea saccharalis	-
3.2.1.28	larva	-	Tenebrio molitor	-
3.2.1.28	larva	-	Spodoptera frugiperda	-
3.2.1.28	larva	-	Musca domestica	-
3.2.1.28	larva	-	Diatraea saccharalis	-
3.2.1.28	malpighian tubule	larval	Tenebrio molitor	-
3.2.1.28	malpighian tubule	larval	Spodoptera frugiperda	-
3.2.1.28	malpighian tubule	larval	Musca domestica	-
3.2.1.28	malpighian tubule	larval	Diatraea saccharalis	-
3.2.1.28	midgut	larval	Spodoptera frugiperda	-
3.2.1.28	midgut	larval	Musca domestica	-
3.2.1.28	midgut	larval	Diatraea saccharalis	-
3.2.1.28	midgut	over 60% of total enzyme activity, larval	Tenebrio molitor	-
3.2.1.28	additional information	distribution in the soluble and membrane fractions of the tissues, overview	Tenebrio molitor	-
3.2.1.28	additional information	distribution in the soluble and membrane fractions of the tissues, overview	Spodoptera frugiperda	-
3.2.1.28	additional information	distribution in the soluble and membrane fractions of the tissues, overview	Musca domestica	-
3.2.1.28	additional information	no activity in the fat body, distribution in the soluble and membrane fractions of the tissues, overview	Diatraea saccharalis	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
3.2.1.28	alpha,alpha-trehalose + H2O	-	Tenebrio molitor	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	-	Spodoptera frugiperda	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	-	Musca domestica	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	-	Diatraea saccharalis	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	Tenebrio molitor	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	Spodoptera frugiperda	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	Musca domestica	2 D-glucose	-	?
3.2.1.28	alpha,alpha-trehalose + H2O	the enzyme is important in insect metabolism with trehalose being the main circulating sugar in the organism with functions in storage, fuel for flight, and as a cryoprotector, in hemolymph trehalose is important for carbohydrate intake and nutritional homeostasis, enzyme deficiency leads to severe metabolic problems	Diatraea saccharalis	2 D-glucose	-	?

Synonyms

EC Number	Synonyms	Comment	Organism
3.2.1.28	glucose alpha-1,1-glucose hydrolase	-	Tenebrio molitor
3.2.1.28	glucose alpha-1,1-glucose hydrolase	-	Spodoptera frugiperda
3.2.1.28	glucose alpha-1,1-glucose hydrolase	-	Musca domestica
3.2.1.28	glucose alpha-1,1-glucose hydrolase	-	Diatraea saccharalis
3.2.1.28	trehalase	-	Tenebrio molitor
3.2.1.28	trehalase	-	Spodoptera frugiperda
3.2.1.28	trehalase	-	Musca domestica
3.2.1.28	trehalase	-	Diatraea saccharalis

Temperature Optimum [°C]

EC Number	Temperature Optimum [°C]	Temperature Optimum Maximum [°C]	Comment	Organism
3.2.1.28	30	-	assay at	Tenebrio molitor
3.2.1.28	30	-	assay at	Spodoptera frugiperda
3.2.1.28	30	-	assay at	Musca domestica
3.2.1.28	30	-	assay at	Diatraea saccharalis

pH Optimum

EC Number	pH Optimum Minimum	pH Optimum Maximum	Comment	Organism
3.2.1.28	6	-	assay at	Tenebrio molitor
3.2.1.28	6	-	assay at	Spodoptera frugiperda
3.2.1.28	6	-	assay at	Musca domestica
3.2.1.28	6	-	assay at	Diatraea saccharalis