The monomers used in the synthesis of amylopectin are glucose units, while the monomers used in the synthesis of cellulose are also glucose units but arranged in a different way, forming beta-D-glucose units.
Carbon dioxide and water are the two molecules that serve as starting materials for glucose synthesis.
The dehydration synthesis equation for lactose is: glucose + galactose -> lactose + water. The dehydration synthesis equation for melibiose is: glucose + galactose -> melibiose + water.
Glucose can be used for immediate energy production, stored as glycogen for later use, converted into fat for long-term energy storage, or used in the synthesis of other compounds needed by the body.
A dehydration synthesis is represented as a word equation by stating the reactants and the product formed. For example, the word equation for the dehydration synthesis of glucose and fructose to form sucrose is "glucose + fructose → sucrose + water."
Glucose serves as a source of energy for the body, allowing cells to perform the necessary functions for protein synthesis. It provides the building blocks and fuel needed for the process of creating proteins in the human body.
The monomers used in the synthesis of amylopectin are glucose units, while the monomers used in the synthesis of cellulose are also glucose units but arranged in a different way, forming beta-D-glucose units.
Carbon dioxide and water are the two molecules that serve as starting materials for glucose synthesis.
The dehydration synthesis equation for lactose is: glucose + galactose -> lactose + water. The dehydration synthesis equation for melibiose is: glucose + galactose -> melibiose + water.
Glucose is important for lactose synthesis because it provides the substrate for the enzyme lactose synthase to combine with galactose to form lactose. Without glucose, there would not be enough substrate available for lactose synthesis to occur efficiently. Additionally, glucose can stimulate the production of lactose synthase enzyme, further promoting lactose synthesis in mammary glands.
Glucose can be used for immediate energy production, stored as glycogen for later use, converted into fat for long-term energy storage, or used in the synthesis of other compounds needed by the body.
Gluconeogenesis
enhances protein synthesis, decreases glucose use, and promotes the destruction of fats
Xylem to bring water from the roots through the plant. Phloem to bring glucose from it's point of synthesis to where it is needed in the plant.
It is an intermediary in the synthesis of glucose from lactate
A dehydration synthesis is represented as a word equation by stating the reactants and the product formed. For example, the word equation for the dehydration synthesis of glucose and fructose to form sucrose is "glucose + fructose → sucrose + water."
Glucose is stored as a type of starch in seeds. Some plants also store it in specialized organs inside of the plant.