Homeostasis Revision lesson 1

What is it? Homeostasis is the maintenance of a constant internal environment – keeping everything at the right levels. Homeostasis is the maintenance of a constant internal environment – keeping everything at the right levels. We have various automatic control systems in the body to keep range of factors at steady levels, which are required for cells to function properly (e.g. temperature and water). We have various automatic control systems in the body to keep range of factors at steady levels, which are required for cells to function properly (e.g. temperature and water).

Strenuous exercise and survival in hot or cold climates affect homeostasis (temperature, blood oxygen levels, hydration and salt levels). Strenuous exercise and survival in hot or cold climates affect homeostasis (temperature, blood oxygen levels, hydration and salt levels). Artificial systems, such as the temperature control system in an incubator, are similar to body control systems. Artificial systems, such as the temperature control system in an incubator, are similar to body control systems.

These systems have: These systems have: receptors to detect stimuli receptors to detect stimuli processing centres to receive information and coordinate responses processing centres to receive information and coordinate responses effectors which produce the response automatically effectors which produce the response automatically These systems perform negative feedback These systems perform negative feedback Stimulus Receptor Processing centre Stimulus Receptor Processing centre Effector Response

Negative feedback negative feedback between the effector and the receptor of a control system reverses any changes to the system’s steady state. negative feedback between the effector and the receptor of a control system reverses any changes to the system’s steady state. Some effectors work antagonistically, which allows a more sensitive response. Some effectors work antagonistically, which allows a more sensitive response.

Why is homeostasis important for a cell? Cells need to keep the balance of substances correct in order to function properly. Cells need to keep the balance of substances correct in order to function properly. Diffusion is the passive overall movement of molecules from a region of their high concentration to a region of their low concentration. Diffusion is the passive overall movement of molecules from a region of their high concentration to a region of their low concentration.

Osmosis (a specific case of diffusion) is the overall movement of water from a dilute to a more concentrated solution through a partially permeable membrane. Osmosis (a specific case of diffusion) is the overall movement of water from a dilute to a more concentrated solution through a partially permeable membrane. Some chemicals, such as oxygen, carbon dioxide and dissolved food can move in and out of cells by diffusion. Some chemicals, such as oxygen, carbon dioxide and dissolved food can move in and out of cells by diffusion.

Some chemicals (e.g. glucose) are also moved by active transport, where energy is needed to move the chemical across a membrane against a concentration gradient. Some chemicals (e.g. glucose) are also moved by active transport, where energy is needed to move the chemical across a membrane against a concentration gradient. If excess water moves into animal cells by osmosis the cell membrane may rupture and if too much water moves out of cells they are unable to function correctly; If excess water moves into animal cells by osmosis the cell membrane may rupture and if too much water moves out of cells they are unable to function correctly;

Enzymes Enzymes are proteins that speed up chemical reactions in cells. Enzymes are proteins that speed up chemical reactions in cells. Enzymes work best at an optimum temperature Enzymes work best at an optimum temperature At low temperatures, small increases in temperature increase the frequency and energy of collisions between an enzyme other molecules, so the rate of reaction increases. At low temperatures, small increases in temperature increase the frequency and energy of collisions between an enzyme other molecules, so the rate of reaction increases. At higher temperatures enzymes stop working (denature) At higher temperatures enzymes stop working (denature)

Lock and key model Only molecules with the correct shape can fit into the enzyme. This is known as the ‘lock and key’ model Only molecules with the correct shape can fit into the enzyme. This is known as the ‘lock and key’ model there is a small part called the active site where certain molecules bind to the enzyme and the reaction occurs. there is a small part called the active site where certain molecules bind to the enzyme and the reaction occurs. the shape of the active site can be changed by heating above a certain temperature and altering the pH, so that the molecules can no longer fit and the reaction cannot happen. the shape of the active site can be changed by heating above a certain temperature and altering the pH, so that the molecules can no longer fit and the reaction cannot happen.