synthesizing antibodies that mark these organism to be destroyed
producing antibodies that can bind to the chemical, neutralizing its effects and marking the organism for destruction by other immune cells. This process helps to eliminate the invading organism from the body and prevent further infection.
The outside of an organism has a surface area.
All germs have chemicals such as lipopolysaccharides, peptidoglycan, and glycoproteins on their surface that help them interact with their environment and host cells. These surface chemicals play a role in adhesion, colonization, and pathogenicity of the germs.
The Golgi appartus stores, packages, and transports chemicals within a cell.
When the organism is buried in sediment and then dissolved by underground water
A water strider is an example of an organism that benefits from reducing surface tension. Its long legs and hydrophobic coating help it stay on the surface of the water by reducing surface tension, allowing it to move easily across the water's surface.
By presenting small pieces of the organism on their surface
By presenting small pieces of the organism on their surface.
If the surface area of the organism is small, then there is no problem with getting all the oxygen needed. If the surface area of the organism is large, therefore a special respiratory surface is needed. An example is lungs, gills. The ratio of surface area to volume in a small organism is greater than the ratio in a large organism.
The outside of an organism has a surface area.
The largest organism.
All germs have chemicals such as lipopolysaccharides, peptidoglycan, and glycoproteins on their surface that help them interact with their environment and host cells. These surface chemicals play a role in adhesion, colonization, and pathogenicity of the germs.
The medical term for an organism that lives on the outer surface of the host is "ectoparasite." Examples include lice and ticks.
The Golgi appartus stores, packages, and transports chemicals within a cell.
Chemicals can cause weathering of the Earth's surface through processes like oxidation, dissolution, and hydrolysis. These reactions can break down rocks and minerals, leading to their disintegration and eventual decay. The presence of water and oxygen can accelerate chemical weathering processes.
earthworms.
When the organism is buried in sediment and then dissolved by underground water
Because the pollutions and the chemicals are so thick in the ozone layer, it is too dangerous for us to breath and if those chemicals and pollutant gases where to get to our surface, we'd get sick and/or die.