Hint: go back to your “Diffusion” notes. Warm-Up (3/3) Name Date Period If high concentrations of glucose build up outside a cell, how does a cell absorb some of the glucose? Hint: go back to your “Diffusion” notes.

2C.1a: Negative feedback mechanisms maintain dynamic homeostasis for a particular condition (variable) by regulating physiological processes, returning the changing condition back to its target set point. Illustrative example: temperature regulation in animals 2C.1b: Positive feedback mechanisms amplify responses and processes in biological organisms. The variable initiating the response is moved farther away from the initial set point. Amplification occurs when the stimulus is further activated which, in turn, initiates an additional response that produces systemic change. Illustrative example: lactation in mammals 2C.1c: Alterations in the mechanisms of feedback often results in deleterious consequences. Illustrative example: dehydration in response to decreased antidiuretic hormone (ADH) 2C.2a: Organisms response to changes in their environment through behavioral and physiological mechanisms. Illustrative example: shivering and sweating in humans

Levels of bodily function B Negative Feedback Homeostasis is the balance of levels of two things. Negative feedback regulates to return systems to homeostasis. Levels of bodily function B Levels of hormone A

Negative Feedback Homeostasis is the balance of levels of two things. For example, temperature regulation Negative feedback regulates to return systems to homeostasis. Hippocampus hormones 98.6°F Temperature

Negative Feedback Homeostasis is the balance of levels of two things. For example, temperature regulation if temperature drops, hormones released Negative feedback regulates to return systems to homeostasis. Hippocampus hormones 92.3°F Temperature Temperature Re-regulated

Negative Feedback Homeostasis is the balance of levels of two things. For example, temperature regulation if temperature drops, hormones released, temperature returns to normal. Negative feedback regulates to return systems to homeostasis. Hippocampus hormones 98.6°F Temperature

Negative Feedback Homeostasis is the balance of levels of two things. For example, temperature regulation if temperature drops, hormones released Negative feedback regulates to return systems to homeostasis. Hippocampus hormones 92.3°F Temperature Shivering

Negative Feedback Homeostasis is the balance of levels of two things. For example, temperature regulation if temperature raises, hormones released Negative feedback regulates to return systems to homeostasis. 101.2°F Temperature Hippocampus hormones Sweating

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation Negative feedback regulates to return systems to homeostasis. Antidiuretic hormone (ADH) from kidneys Normal water balance

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation if cells become dehydrated, ADH released Negative feedback regulates to return systems to homeostasis. Antidiuretic hormone (ADH) from kidneys Dehydrated cells Kidneys release water (urine more concentrated)

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation if cells become dehydrated, ADH released, water balance restored. Negative feedback regulates to return systems to homeostasis. Antidiuretic hormone (ADH) from kidneys Normal water balance

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation if cells become overhydrated, less ADH released Negative feedback regulates to return systems to homeostasis. Over-hydrated cells Antidiuretic hormone (ADH) from kidneys

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation if cells become overhydrated, less ADH released Negative feedback regulates to return systems to homeostasis. Over-hydrated cells Antidiuretic hormone (ADH) from kidneys Kidneys absorb water (urine more diluted)

Antidiuretic hormone (ADH) from kidneys Negative Feedback Homeostasis is the balance of levels of two things. For example, hydration regulation if cells become overhydrated, less ADH released, water balance restored. Negative feedback regulates to return systems to homeostasis. Antidiuretic hormone (ADH) from kidneys Normal water balance

Critical Thinking Question #1 Insulin is a hormone ligand which binds to the insulin receptor and stimulates the absorption of glucose from the bloodstream into cells. When blood glucose levels are high, the pancreas increases insulin levels; when blood glucose levels are low, the pancreas releases less insulin. A graph is plotted below showing the levels of glucose and insulin in a single person over a period of 24 hours. Explain why the graph shows relatively low concentrations of insulin at 12 hours but relatively high concentrations of glucose, and predict what the glucose curve would look like if the pancreas failed to produce insulin.

2C.1a: Negative feedback mechanisms maintain dynamic homeostasis for a particular condition (variable) by regulating physiological processes, returning the changing condition back to its target set point. Illustrative example: temperature regulation in animals 2C.1b: Positive feedback mechanisms amplify responses and processes in biological organisms. The variable initiating the response is moved farther away from the initial set point. Amplification occurs when the stimulus is further activated which, in turn, initiates an additional response that produces systemic change. Illustrative example: lactation in mammals 2C.1c: Alterations in the mechanisms of feedback often results in deleterious consequences. Illustrative example: dehydration in response to decreased antidiuretic hormone (ADH) 2C.2a: Organisms response to changes in their environment through behavioral and physiological mechanisms. Illustrative example: shivering and sweating in humans

Levels of bodily function B Negative Feedback Positive feedback further moves the system away from homeostasis. Levels of bodily function B Levels of hormone A

Levels of bodily function B Negative Feedback Positive feedback further moves the system away from homeostasis. Hypothetical example: Bodily function B drops, Levels of hormone A Levels of bodily function B

Levels of bodily function B Negative Feedback Positive feedback further moves the system away from homeostasis. Hypothetical example: Bodily function B drops, Hormone A promotes activated, Levels of hormone A Levels of bodily function B

Levels of bodily function B Negative Feedback Positive feedback further moves the system away from homeostasis. Hypothetical example: Bodily function B drops, Hormone A promotes activated, bodily function B drops further. Levels of hormone A Levels of bodily function B

Levels of bodily function B Negative Feedback Positive feedback further moves the system away from homeostasis. Hypothetical example: Bodily function B drops, Hormone A promotes activated, bodily function B drops further, bodily function B drops further. Levels of hormone A Levels of bodily function B

Negative Feedback Positive feedback further moves the system away from homeostasis. Actual example: Lactation Milk gets suckled, Hormone released to produce milk, More milk get suckled, More milk produced. Milk Hormone Milk production

Critical Thinking Question #2 The sjf1 gene encodes a transcription factor which activates several genes, including its own gene. Explain how a signal transduction pathway which leads to activation of the sjf1 gene will be amplified through positive feedback.

Closure On the piece of white paper from the back, answer the following question: Name Date Period Explain how chronic (long-term) exposure to high glucose levels leads to insensitivity to insulin signaling, a condition known as diabetes mellitus. Scale 1 – 10