Examlex

Solved

Water Movement Is Important in Urine Formation in the Kidneys

question 66

Multiple Choice

Water movement is important in urine formation in the kidneys. Urine is formed when the blood is filtered by the kidneys into kidney tubules. Three figures are presented here that relate to how the kidney tubules respond to the administration of the hormone vasopressin. The direction that water flows in these figures is from the kidney tubules back into the blood.
Water movement is important in urine formation in the kidneys. Urine is formed when the blood is filtered by the kidneys into kidney tubules. Three figures are presented here that relate to how the kidney tubules respond to the administration of the hormone vasopressin. The direction that water flows in these figures is from the kidney tubules back into the blood. Figure A. Changes in permeability of tubules in the kidney in response to the hormone vasopressin (AVP) , which aids in osmoregulation. Figure B. Density of aquaporins in kidney tubule cells before, during, and after administration of vasopressin. Figure C. Permeability of tissues to water before, during, and after administration of vasopressin. -Using the data from the graphs and what you know about membranes and metabolic pathways, predict which of the following is the likely reason why actions of aquaporins in a membrane can change so rapidly. A) The number of aquaporins in the membrane is constant, but the pores have to be activated. B) Aquaporins are inserted into the membrane as needed. C) Aquaporins are only in cells that need to be permeable to water. D) Aquaporins use ATP to pump water across the membrane, and their action is limited by the metabolic pathways that produce ATP. Figure A. Changes in permeability of tubules in the kidney in response to the hormone vasopressin (AVP) , which aids in osmoregulation.
Water movement is important in urine formation in the kidneys. Urine is formed when the blood is filtered by the kidneys into kidney tubules. Three figures are presented here that relate to how the kidney tubules respond to the administration of the hormone vasopressin. The direction that water flows in these figures is from the kidney tubules back into the blood. Figure A. Changes in permeability of tubules in the kidney in response to the hormone vasopressin (AVP) , which aids in osmoregulation. Figure B. Density of aquaporins in kidney tubule cells before, during, and after administration of vasopressin. Figure C. Permeability of tissues to water before, during, and after administration of vasopressin. -Using the data from the graphs and what you know about membranes and metabolic pathways, predict which of the following is the likely reason why actions of aquaporins in a membrane can change so rapidly. A) The number of aquaporins in the membrane is constant, but the pores have to be activated. B) Aquaporins are inserted into the membrane as needed. C) Aquaporins are only in cells that need to be permeable to water. D) Aquaporins use ATP to pump water across the membrane, and their action is limited by the metabolic pathways that produce ATP. Figure B. Density of aquaporins in kidney tubule cells before, during, and after administration of vasopressin.
Water movement is important in urine formation in the kidneys. Urine is formed when the blood is filtered by the kidneys into kidney tubules. Three figures are presented here that relate to how the kidney tubules respond to the administration of the hormone vasopressin. The direction that water flows in these figures is from the kidney tubules back into the blood. Figure A. Changes in permeability of tubules in the kidney in response to the hormone vasopressin (AVP) , which aids in osmoregulation. Figure B. Density of aquaporins in kidney tubule cells before, during, and after administration of vasopressin. Figure C. Permeability of tissues to water before, during, and after administration of vasopressin. -Using the data from the graphs and what you know about membranes and metabolic pathways, predict which of the following is the likely reason why actions of aquaporins in a membrane can change so rapidly. A) The number of aquaporins in the membrane is constant, but the pores have to be activated. B) Aquaporins are inserted into the membrane as needed. C) Aquaporins are only in cells that need to be permeable to water. D) Aquaporins use ATP to pump water across the membrane, and their action is limited by the metabolic pathways that produce ATP. Figure C. Permeability of tissues to water before, during, and after administration of vasopressin.
-Using the data from the graphs and what you know about membranes and metabolic pathways, predict which of the following is the likely reason why actions of aquaporins in a membrane can change so rapidly.

Definitions:

Capital Markets

Financial markets in which long-term debt or equity-backed securities are bought and sold, serving as a platform for raising capital.

Long-Term Bonds

Bonds that are due for payment or redemption at a date more than ten years in the future, often offering a higher yield due to the increased risk.

Stocks

Shares of ownership in a company, giving shareholders a claim on the company’s earnings and assets.

Sarbanes-Oxley Act

A law passed by U.S. Congress in 2002 aimed at protecting investors from fraudulent financial reporting by corporations.

Related Questions

Q5: Which of the following statements regarding glycolysis

Q11: The discovery of _ explains embryonic pattern

Q17: Which of the following direct energy transfers

Q19: Which part of this diagram of a

Q21: Flowers bear seeds that develop from ovules

Q52: Which of the following would be correctly

Q54: Resolution is the<br>A)ability of an optical instrument

Q56: The density of the aquaporins in the

Q61: How many layers of vascular cambium will

Q70: Based on your understanding of enzyme structure,