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What is the effect of when Maltese acts upon a molecule of maltose?
When maltase acts upon a molecule of maltose, it catalyzes the hydrolysis of maltose into two glucose molecules. This reaction breaks the glycosidic bond between the glucose units in maltose, allowing for the release of the individual glucose molecules.
Can Maltase hydrolyze cellulose into Maltose?
No. First of all, the name maltase indicates that the enzyme breaks down maltose. Maltose is a disaccharide composed of two glucose monomers. Cellulose is an entirely different polysaccharide, composed of many monomers of beta glucose. Second, very few organisms have the ability to hydrolyze cellulose. In most organisms including humans, cellulose passes through our digestive tract without changing chemically. This is what we call "fiber". Even though we can get no nutrients from it, cellulose is good for the muscles lining the small intestine.
What trisaccharide can be converted by beta-galactosidase into maltose and galactose?
The trisaccharide that can be converted by beta-galactosidase into maltose and galactose is raffinose. Raffinose is composed of galactose, glucose, and fructose. When beta-galactosidase acts on raffinose, it hydrolyzes the galactose unit, resulting in the formation of maltose (glucose and glucose) and galactose.
What acts as a signal molecule in a cells cytoplasm?
Peace
What molecule in the human body acts like a starch molecule in a plant?
Glycogen is the molecule in the human body that acts like a starch molecule in plants. It is a polysaccharide that serves as a storage form of glucose and is stored mainly in the liver and muscles for energy production when needed.
What is the effect of when Maltese acts upon a molecule of maltose?
When maltase acts upon a molecule of maltose, it catalyzes the hydrolysis of maltose into two glucose molecules. This reaction breaks the glycosidic bond between the glucose units in maltose, allowing for the release of the individual glucose molecules.
What is substrate of maltase?
maltase is found in intestinal juice and hydrolyzes maltose to glucose. Substrate = maltose Product = glucose
What substance is acted on by maltase?
Maltase acts on maltose, which is a disaccharide made up of two glucose molecules linked together. Maltase breaks down maltose into two individual glucose molecules by catalyzing the hydrolysis of the glycosidic bond between them. This enzyme is found in the small intestine where it helps in the digestion and absorption of carbohydrates.
Can Maltase hydrolyze cellulose into Maltose?
No. First of all, the name maltase indicates that the enzyme breaks down maltose. Maltose is a disaccharide composed of two glucose monomers. Cellulose is an entirely different polysaccharide, composed of many monomers of beta glucose. Second, very few organisms have the ability to hydrolyze cellulose. In most organisms including humans, cellulose passes through our digestive tract without changing chemically. This is what we call "fiber". Even though we can get no nutrients from it, cellulose is good for the muscles lining the small intestine.
What is the product of the reaction when alpha-amylase acts on amylose?
maltose and glucose
What is the name of the enzyme in saliva and what compound is produced when this enzyme acts on starch?
the enzyme ptylin or some amylase and it converts starch to maltose
What is the subtrate and subunit product of amylase?
The Substrate for amylase are starch (amylose and Amylopectin), glycogen, and various Oligosaccharides and the subunit is maltose.
What is the job of ptyalin?
The enzyme ptyalin ,or salivary amylase acts on starches and converts them to maltose.
What polymer acts as an energy molecule?
Carbohydrate
Which molecule acts as a carrier during photosynthesis?
Nadp+
What acts as a signal molecule in a cells cytoplasm?
Peace
What kind of force acts with in a molecule?
The force that acts within a molecule is typically the electromagnetic force. This force is responsible for holding the atoms within a molecule together through the interactions between charged particles (electrons and protons).
