Vacuoles
The vacuole is the cell structure that contains the most water in an onion cell. It is a large compartment that stores water, nutrients, and waste products, helping to maintain the turgidity and structural integrity of the cell.
The vacuoles in a cell hold water for the cell
The vacuole is a cellular organelle that can contain fluid or be empty depending on the cell's needs. It is a storage structure in plant and fungal cells that can hold water, nutrients, or waste products.
The vacuole stores water and nutrients in a cell. It helps maintain cell structure and provides support.
Water, carbon dioxide and oxygen can enter a cell through the plasma membrane.
A dam is a structure built across the water to hold water back.
It hold the structure of the cell together. It also regulate what enters and exits the cell.
Water is stored in the vacuole of a plant cell.
Hyaluronic acid can hold up to 1,000 times its weight in water within its molecular structure.
Hyaluronic acid can hold up to 1,000 times its weight in water within its molecular structure.
The vacuole is the cell structure that contains the most water in an onion cell. It is a large compartment that stores water, nutrients, and waste products, helping to maintain the turgidity and structural integrity of the cell.
The vacuoles in a cell hold water for the cell
waste, nutrient, water
the cell to cell structures that hold the cells of the stratum spinosum together when they shrink are called desmosomes.
The vacuole is a cellular organelle that can contain fluid or be empty depending on the cell's needs. It is a storage structure in plant and fungal cells that can hold water, nutrients, or waste products.
Water is attracted to the cell membrane due to the presence of hydrophilic (water-attracting) molecules in the membrane. This attraction helps maintain the structure of the cell membrane and allows for the passage of water and other molecules in and out of the cell, which is essential for various cellular functions such as nutrient uptake and waste removal.
The semi-permeability of the cell membrane regulate water movement by osmosis.