In a eukaryote cell the double walled nuclear membrane must be broken, or pierced to release the DNA into the cytoplasm and then the phospholipid bilayer would have to be breached next to release the DNA from this type cell
A prokaryote cell would need both its cell wall and its plasma membrane breached to release the DNA from the cell.
In order to extract energy from glucose, it must be combined with oxygen through a process called cellular respiration. This process breaks down glucose molecules into smaller units, releasing energy that can be used by the cell.
The organelle that breaks down waste produced by a cell is the lysosome. Lysosomes contain enzymes that help break down unwanted molecules, old organelles, and foreign substances in the cell. This process is essential for cellular waste management and recycling.
Yes. In order for the body to use food, the food must be broken down into it's most basic elements. Complex carbohydrates are broken into simple carbohydrates, proteins are broken down into amino acids and fats are broken down into fatty acids. Some of this break down takes place because of the acids in your stomach, but enzymes in the stomach and mouth are required to further dismantle food into usable nutreints.
Oxygen and glucose must pass into a cell in order for it to get energy by cellular respiration. Oxygen is required for the final electron acceptor in the electron transport chain, while glucose is broken down in glycolysis to produce ATP.
Energy sources (long term energy storages) are broken down! Typically when learning about cellular respiration, glucose is used as an example because it is the most convenient source for cellular respiration. However, other sources such as proteins and fats (they insert themselves into glycolysis or the transition step or the Krebs cycle when able) are also broken down. Before they can be broken down, both of these molecules must be broken into their monomers (amino acids for proteins) or smaller molecules (glycerol and fatty acids for fats) and modified. Even if glucose is used as the energy source, polysaccharides like starch in plants and glycogen in humans must be broken down into smaller subunits until it gets to its monomer - glucose. Oxygen could also be considered to be broken down. Molecular oxygen (O2) is split after receiving the low-energy electrons from the electron transport chain to produce 2 water molecules. Short term energy sources like ATP and NADH are also broken down, but the profit of ATP and NADH from cellular respiration greatly outweigh the losses.
Cell phone batteries can be recycled. Take them to a recyclers where they are broken down into their natural components.
lysosomes
In order to extract energy from glucose, it must be combined with oxygen through a process called cellular respiration. This process breaks down glucose molecules into smaller units, releasing energy that can be used by the cell.
Starch must be broken down into glucose in order to be absorbed by the body. This process occurs in the small intestine with the help of enzymes such as amylase. Glucose is then absorbed into the bloodstream and used as a source of energy by the body.
It is broken down using enzymes, such as amylase, into glucose which then can be used in cell respiration.
Fat reserves in the body can be mobilized and broken down to release energy.
they must be broken down and it should absorb into the blood
The organelle that breaks down waste produced by a cell is the lysosome. Lysosomes contain enzymes that help break down unwanted molecules, old organelles, and foreign substances in the cell. This process is essential for cellular waste management and recycling.
The chemical bonds among the reactant atoms or molecules must be broken down.
Hydrogen Bonds.
The main difference is the cell wall composition. Bacteria and animals don't have cell walls, making it easier to extract DNA. In plants, the cell wall must be broken down first before DNA extraction can occur. Additionally, different methods and reagents may be required for extracting DNA from bacteria, animals, and plants.
the host cell must provide protection that is shelter to the mitochondria form external harsh environmental conditions and must provide it the external precursors required to start the synthesis of its own ATP that is pyruvate in case of many eukaryotic cells.