Assimilation

9.4 Assimilation
 
This image provides an overview of assimilation, divided into five categories:  Circulatory System: Blood vessels transport nutrients to the liver, and the lymphatic system carries fats into the bloodstream. Liver Functions: Processes nutrients, removes toxins, and stores excess nutrients such as glycogen. Assimilation in the Liver: Amino acids make proteins or are turned into urea if not needed. Glucose is stored as glycogen or converted to fats when there’s excess. Assimilation in Cells: Nutrients are used for growth, energy, and repair. Fats and glucose provide energy when needed. Energy Processes: Energy from glucose and fats fuels cellular activities such as protein synthesis and tissue repair.
 
The Role of The Circulatory System
  • The human circulatory system consists of the blood circulation system and the lymphatic system to help transport nutrients to be assimilated.
  • In the assimilation process that occurs in cells, nutrients are used to form complex compounds or structures of components.
  • The blood capillaries in the small intestine combine to form the hepatic portal vein that transports blood to the liver.
  • Lacteals combine to form bigger lymph vessels in the lymphatic system.
  • Then, the contents of the lymph vessels enter the thoracic duct that flows into the left subclavian vein.
  • This lipid is then transported by blood throughout the body.
 
Functions of Liver in The Assimilation of Digested Food
  • The liver is the regulator that controls the quantity of nutrients that enter the blood circulatory system.
  • The liver carries out the following functions.
Metabolism of Digested Food
  • Glucose is used for cellular respiration.
  • Amino acids are used for synthesising plasma proteins and enzymes.
  • Through the deamination process, excess amino acids are turned into urea to be excreted through the urine.
Detoxification
  • Liver cells expel toxic substances from the blood.
  • Toxic substances are expelled through the urine.
Storage of Nutrients
  • Excess glucose is converted to glycogen to be stored.
 
Assimilation Process in The Liver
Amino Acids
  • The liver synthesises plasma protein and enzymes from amino acids.
  • Excess amino acids cannot be stored in the body and are broken down through the deamination process to form urea which is then expelled.
  • When the glucose supply is insufficient, the liver converts amino acids into glucose.
Glucose
  • Glucose in the liver is used for cellular respiration when required by the body and the excess is converted to glycogen and stored in the liver.
  • When the glucose level in the blood decreases and the body needs energy, glycogen is converted to glucose.
  • When the glycogen supply reaches a maximum level, the excess glucose is converted to fats.
 
Assimilation Process in Cells
Amino Acids
  • Amino acids are used to synthesise new protoplasm and also repair damaged tissues.
  • Amino acids are used to synthesise hormones and enzymes.
Glucose
  • Glucose is oxidised through cellular respiration to release energy, water and carbon dioxide.
  • Excess glucose is kept as glycogen in muscles.
  • Energy is used for cell processes such as protein synthesis.
Lipids
  • Lipids such as phospholipid and cholesterol are the primary components that build the plasma membrane.
  • Excess fats are kept in adipose tissues found underneath the skin as stored energy.
  • Fat is oxidised to release energy when there is insufficient glucose.

Assimilation

9.4 Assimilation
 
This image provides an overview of assimilation, divided into five categories:  Circulatory System: Blood vessels transport nutrients to the liver, and the lymphatic system carries fats into the bloodstream. Liver Functions: Processes nutrients, removes toxins, and stores excess nutrients such as glycogen. Assimilation in the Liver: Amino acids make proteins or are turned into urea if not needed. Glucose is stored as glycogen or converted to fats when there’s excess. Assimilation in Cells: Nutrients are used for growth, energy, and repair. Fats and glucose provide energy when needed. Energy Processes: Energy from glucose and fats fuels cellular activities such as protein synthesis and tissue repair.
 
The Role of The Circulatory System
  • The human circulatory system consists of the blood circulation system and the lymphatic system to help transport nutrients to be assimilated.
  • In the assimilation process that occurs in cells, nutrients are used to form complex compounds or structures of components.
  • The blood capillaries in the small intestine combine to form the hepatic portal vein that transports blood to the liver.
  • Lacteals combine to form bigger lymph vessels in the lymphatic system.
  • Then, the contents of the lymph vessels enter the thoracic duct that flows into the left subclavian vein.
  • This lipid is then transported by blood throughout the body.
 
Functions of Liver in The Assimilation of Digested Food
  • The liver is the regulator that controls the quantity of nutrients that enter the blood circulatory system.
  • The liver carries out the following functions.
Metabolism of Digested Food
  • Glucose is used for cellular respiration.
  • Amino acids are used for synthesising plasma proteins and enzymes.
  • Through the deamination process, excess amino acids are turned into urea to be excreted through the urine.
Detoxification
  • Liver cells expel toxic substances from the blood.
  • Toxic substances are expelled through the urine.
Storage of Nutrients
  • Excess glucose is converted to glycogen to be stored.
 
Assimilation Process in The Liver
Amino Acids
  • The liver synthesises plasma protein and enzymes from amino acids.
  • Excess amino acids cannot be stored in the body and are broken down through the deamination process to form urea which is then expelled.
  • When the glucose supply is insufficient, the liver converts amino acids into glucose.
Glucose
  • Glucose in the liver is used for cellular respiration when required by the body and the excess is converted to glycogen and stored in the liver.
  • When the glucose level in the blood decreases and the body needs energy, glycogen is converted to glucose.
  • When the glycogen supply reaches a maximum level, the excess glucose is converted to fats.
 
Assimilation Process in Cells
Amino Acids
  • Amino acids are used to synthesise new protoplasm and also repair damaged tissues.
  • Amino acids are used to synthesise hormones and enzymes.
Glucose
  • Glucose is oxidised through cellular respiration to release energy, water and carbon dioxide.
  • Excess glucose is kept as glycogen in muscles.
  • Energy is used for cell processes such as protein synthesis.
Lipids
  • Lipids such as phospholipid and cholesterol are the primary components that build the plasma membrane.
  • Excess fats are kept in adipose tissues found underneath the skin as stored energy.
  • Fat is oxidised to release energy when there is insufficient glucose.