They work the same way in lipids as they do in proteins, carbohydrates and nucleic acids. In dehydration synthesis, you have a hydroxyl on each side, so you take out an oxygen and two hydrogens and then bond the remaining oxygen to the remaining hydrogen to form a polymer. Hydrolysis works the same way in reverse, you add water and it breaks the bond between the hydrogen and the oxygen and reforms into two separate hydroxyls.
The organelle that anchors ribosomes is the Rough Endoplasmic Reticulum (ER). The Rough ER and ribosomes work very closely together. The rough Endoplasmic Reticulum is also the site of protein synthesis. The Smooth ER synthesizes lipids.
Ribosomes do the work of protein synthesis for the cell.
The endoplasmic reticulum (ER) and the Golgi apparatus work together to synthesize, modify, and transport macromolecules within the cell. The rough ER is involved in the synthesis of proteins, while the smooth ER is responsible for lipid synthesis. Once synthesized, these macromolecules are transported to the Golgi apparatus, where they undergo further modifications and are sorted for distribution to their final destinations. This coordinated action ensures that proteins and lipids are properly processed and delivered to maintain cellular function.
Yes, mitochondria work closely with the endoplasmic reticulum (ER) in a process known as mitochondrial-ER communication. This communication helps regulate calcium levels, lipid synthesis, and protein transport in cells. The ER provides lipids and proteins that are essential for mitochondrial function.
The ribosome and the nucleus
If ATP hydrolysis is not coupled to cellular work, the energy released from hydrolysis cannot be used to drive essential cellular processes such as active transport, muscle contraction, or biosynthesis. This can lead to a lack of energy for vital cellular functions and ultimately result in cell dysfunction or death.
The organelle that anchors ribosomes is the Rough Endoplasmic Reticulum (ER). The Rough ER and ribosomes work very closely together. The rough Endoplasmic Reticulum is also the site of protein synthesis. The Smooth ER synthesizes lipids.
fats
No. They are SSRIs and work on the nervous systems where statins work in the liver and metabolism of lipids.
Ribosomes do the work of protein synthesis for the cell.
The endoplasmic reticulum (ER) and the Golgi apparatus work together to synthesize, modify, and transport macromolecules within the cell. The rough ER is involved in the synthesis of proteins, while the smooth ER is responsible for lipid synthesis. Once synthesized, these macromolecules are transported to the Golgi apparatus, where they undergo further modifications and are sorted for distribution to their final destinations. This coordinated action ensures that proteins and lipids are properly processed and delivered to maintain cellular function.
Lipids are important to the human body since they helps produce hormones, and builds cell membranes and other needed tissue. Lipids, both lipoproteins and triglycerides, are made and stored in the body and are used as energy sources. Lipids also play a major role in cardiovascular health answer by karen
Yes, mitochondria work closely with the endoplasmic reticulum (ER) in a process known as mitochondrial-ER communication. This communication helps regulate calcium levels, lipid synthesis, and protein transport in cells. The ER provides lipids and proteins that are essential for mitochondrial function.
The ribosome and the nucleus
unless it is a dehydration head ache, then no. if you are dehydrated then yes it would work
There are two types of ERs--smooth and rough. The smooth ER has a lot of functions, but the major one is the production of lipids. The rough ER's major function is the synthesis of proteins from ribosomes that are studded around it :)
An organelle is made up of various macromolecules such as proteins, lipids, and nucleic acids. These macromolecules work together to carry out specific functions within the cell, such as energy production, protein synthesis, or waste removal. Each organelle has a unique structure and composition tailored to its specific role in the cell.