They split in two after they are too large.
Peroxisomes protect the cell from peroxide(type of toxic waste) by turning it into oxygen and food! I hope this helped, I'm just a grade 8 working on a cell project looking for some answers and thought i'd try and help you out:)
The structures responsible for collecting and removing waste from a cell are lysosomes and peroxisomes. Lysosomes contain enzymes that break down cellular waste, while peroxisomes contain enzymes that break down toxic substances and help detoxify the cell. These organelles play a crucial role in maintaining cellular health and function.
No, the Golgi complex does not directly make peroxisomes or lysosomes. Peroxisomes are derived from the endoplasmic reticulum, while lysosomes are formed from the Golgi complex. Both organelles play distinct roles in the cell's metabolism and degradation processes.
Peroxisomes were discovered by a Belgian cytologist named Christian de Duve in the 1960s. He was awarded the Nobel Prize in Physiology or Medicine in 1974 for his discoveries regarding the structure and function of organelles within cells, including peroxisomes.
smooth endoplasmic reticulum
Peroxisomes contain enzymes which metabolize hydrogen peroxide within the cell, hence the name.
Peroxisomes
A cell with abundant peroxisomes would most likely be involved in detoxification activities. Peroxisomes are also known as microbodies that are present in most eukaryotic cells.
peroxisomes. peroxisomes are organelles that collect the toxic peroxides that are the unavoidable by-products of chemical reactions within the cell.
There are two parts of a cell that contain chemicals: lysosomes and peroxisomes.
Peroxisomes protect the cell from peroxide(type of toxic waste) by turning it into oxygen and food! I hope this helped, I'm just a grade 8 working on a cell project looking for some answers and thought i'd try and help you out:)
Lysosomes! Peroxisomes!
detoxification activities
Peroxisomes' cell membrane have enzymes that do get rid of harmful, toxic materials within the cell. Additionally, peroxisomes help to break down fatty acid chains and alcohol. They are similar to lysosomes in ways, except the enzymes found in peroxisomes work in oxygen-rich areas, whereas lysosomes work in areas with less oxygen. Interestingly, peroxisomes also produce toxic material--hydrogen peroxide. However, they are well-evolved enough to quickly breakdown the hydrogen peroxide into oxygen and water, which is harmless to the cell.
H2O2, or hydrogen peroxide, is produced by specialized cells called peroxisomes within the cell. Peroxisomes contain enzymes that generate H2O2 as a byproduct of various metabolic processes, including the breakdown of fatty acids.
The structures responsible for collecting and removing waste from a cell are lysosomes and peroxisomes. Lysosomes contain enzymes that break down cellular waste, while peroxisomes contain enzymes that break down toxic substances and help detoxify the cell. These organelles play a crucial role in maintaining cellular health and function.
Without peroxisomes, cells would struggle to break down fatty acids and detoxify harmful substances like hydrogen peroxide. This could lead to an accumulation of toxic byproducts, damage to cell structures, and impaired metabolic processes. Overall, the absence of peroxisomes would significantly impact cellular function and compromise overall health.