The Golgi body, or Golgi apparatus, does not convert sugars directly; rather, it plays a crucial role in modifying, sorting, and packaging proteins and lipids that have been synthesized in the endoplasmic reticulum. It can also modify carbohydrate structures attached to proteins and lipids, which may involve adding or trimming sugar molecules. This process is essential for the proper functioning of glycoproteins and glycolipids in cellular processes. So, while it interacts with sugars, it does not convert them in the traditional sense.
No, not all sugars are converted to glucose in the body. Some sugars, like fructose, are metabolized in the liver and converted into glucose or stored as energy in the form of glycogen. Glucose is the main source of energy for the body's cells and is derived from various sugars through digestion and metabolic processes.
The building like a Golgi body is a post office
Golgi, or you can say Golgi body or the Golgi apparatus
A postal office could be a life example of a Golgi Body.
Yes
energy
The Golgi Apparatus also referred to as the Golgi Body processes the lipids and proteins. The Golgi Body can therefore be compared to the digestive system.
The Golgi complex is also known as Golgi apparatus, Golgi body or Golgi. It is found in most eukaryotic cells. The Golgi complex was identified by the Italian physician Camillo Golgi in 1897.
Is a golgi body cytoplasm matter
yes
No, not all sugars are converted to glucose in the body. Some sugars, like fructose, are metabolized in the liver and converted into glucose or stored as energy in the form of glycogen. Glucose is the main source of energy for the body's cells and is derived from various sugars through digestion and metabolic processes.
Golgi Body
golgi body
The building like a Golgi body is a post office
Golgi, or you can say Golgi body or the Golgi apparatus
The endoplasmic reticulum powers the Golgi body by providing proteins to interact with enzymes contained within the Golgi complex.
The Golgi body, or Golgi complex, or Golgi apparatus packages proteins and synthesized materials of the cell. It moves it toward the cell surface to fuse with the cell membrane.