2.4.1.15	ADP-alpha-D-glucose + D-glucose 6-phosphate	-	
2.4.1.15	additional information	the enzyme, encoded by gen tps1, is a regulator of glucose, abscisic acid, and stress signaling, trehalose is an osmoprotectant, trehalose content in wild-type and transgenic plants, overview	
2.4.1.15	additional information	trehalose acts as a global protectant against abiotic stress, accumulation of trehalose leads to increased salt, drought, and cold resistance in plants	
2.4.1.15	additional information	trehalose is able to protect the integrity of the cells against a variety of environmental stresses such as desiccation, dehydration, heat, cold, and oxidation, probably via reduction of protein denaturation through protein-trehalose interactions	
2.4.1.15	additional information	trehalose is able to protect the integrity of the cells against a variety of environmental stresses such as desiccation, dehydration, heat, cold, and oxidation, probably via reduction of protein denaturation through protein-trehalose interactions, in flying insects trehalose content is especially high in hemolymph and thorax muscles and is consumed during flight	
2.4.1.15	additional information	trehalose is able to protect the integrity of the cells against a variety of environmental stresses such as desiccation, dehydration, heat, cold, and oxidation, probably via reduction of protein denaturation through protein-trehalose interactions, the enzyme might be a radical scavenger	
2.4.1.15	additional information	the trehalose-6-phosphate synthase/phosphatase (OtsA–OtsB) pathway plays an important role in the synthesis of trehalose in response to stress	
2.4.1.15	additional information	TPS1 may play a major role in coordinating cell wall biosynthesis and cell division with cellular metabolism during embryo development	
2.4.1.15	UDP-alpha-D-glucose + D-glucose 6-phosphate	-	
2.4.1.15	UDP-alpha-D-glucose + D-glucose 6-phosphate	first step in one of 2 existing trehalose biosynthesis pathways, plays a role in osmoadaptation	
2.4.1.15	UDP-alpha-D-glucose + D-glucose 6-phosphate	first step in trehalose biosynthesis, enzyme is essential for embryo maturation	
2.4.1.15	UDP-alpha-D-glucose + D-glucose 6-phosphate	step in trehalose biosynthesis	
2.4.1.15	UDP-alpha-D-glucose + D-glucose 6-phosphate	both TPS1 and TPS2 are required for high-temperature (37°C) growth and glycolysis but that the block at TPS2 results in the apparent toxic accumulation of trehalose-6-phosphate, which makes this enzyme a fungicidal target	
2.4.1.15	UDP-glucose + D-glucose 6-phosphate	-	
2.4.1.15	UDPglucose + glucose 6-phosphate	-	
2.4.1.15	UDPglucose + glucose 6-phosphate	the enzyme is essential for Arabidopsis embryo development, TPS1 appears to play a vital role in responding to the increase in sucrose supply, which accompanies the onset of embryo maturation	
2.4.1.15	UDPglucose + glucose 6-phosphate	TPS1-encoded trehalose-6-phosphate synthase exerts an essential control on the influx into glycolysis. Tps1-mediated protein-protein interactions are important for control of glucose influx into yeast glycolysis	
2.4.1.15	UDPglucose + glucose 6-phosphate	alpha,alpha-trehalose 6-phosphate synthase is dispensable for growth on glucose but not for spore germination	
2.4.1.15	UDPglucose + glucose 6-phosphate	trehalose-6-phosphate synthase A affects citrate accumulation by Aspergillus niger under conditions of high glycolytic flux	
2.4.1.15	UDPglucose + glucose 6-phosphate	AtTPS1 is a single-copy gene and is expressed constitutively at very low levels	
2.4.1.15	UDPglucose + glucose 6-phosphate	the enzyme does not play a role in the control of glycolysis	
2.4.1.15	UDPglucose + glucose 6-phosphate	enzyme is osmotically inducible, mutants which are defective in the synthesis of the synthase have an impaired osmotic tolerance in glucose-mineral medium	
2.4.1.15	UDPglucose + glucose 6-phosphate	key enzyme for biosynthesis of trehalose, the major soluble carbohydrate in resting cells	
2.4.1.15	UDPglucose + glucose 6-phosphate	the enzyme plays a role in the control of glycolysis