2022-05-14T16:18:00+03:00[Europe/Moscow] en true <p>definition of osmoregulation</p>, <p>osmoregulation is a key part of</p>, <p>process of osmoregulation (1)</p>, <p>definition and location of osmoreceptors </p>, <p>process of osmoregulation (2)</p>, <p>process of osmoregulation (3)</p>, <p>process of osmoregulation (4)</p>, <p>function of Antidiuretic hormone ADH</p>, <p>effect of ADH on the Kidneys (1)</p>, <p>which area of the nephron does ADH affect</p>, <p>effect of ADH on the Kidneys (2)</p>, <p>process of number of aquaporin increase (1)</p>, <p>what is an aquaporin</p>, <p>effect of ADH on the Kidneys (2)</p>, <p>effect of ADH on the Kidneys (3)</p>, <p>effect of ADH on the Kidneys (3)</p>, <p>effect of ADH on the Kidneys (4)</p>, <p>effect of ADH on the Kidneys (5)</p>, <p>if there is an increase in the water potential of the body what happens</p> flashcards

A2 Osmoregulation

CIE Syllabus

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  • definition of osmoregulation

    the control of the water potential of the body fluids

  • osmoregulation is a key part of

    homeostasis

  • process of osmoregulation (1)

    specialised sensory neurones ,(osmoreceptors) monitor the water potential of the blood

  • definition and location of osmoreceptors

    specialised sensory neurones located in the hypothalamus part of the brain

  • process of osmoregulation (2)

    if osmoreceptors detect a decrease in the water potential of the blood nerve impulses are sent along these sensory neurones to the posterior pituitary gland

  • process of osmoregulation (3)

    nerve impulses stimulate the posterior pituitary gland to release antidiuretic hormone (ADH)

  • process of osmoregulation (4)

    ADH molecules enter the blood and travel eventually to the kidneys causing them to reabsorb more water reducing water loss by urine

  • function of Antidiuretic hormone ADH

    to stimulate the kidneys to reabsorb water in times of need

  • effect of ADH on the Kidneys (1)

    ADH causes the luminal membranes of the collecting ducts cells to become more permeable to water

  • which area of the nephron does ADH affect

    collecting ducts

  • effect of ADH on the Kidneys (2)

    ADH does this by causing and increase in the number of aquaporins in the luminal membranes of the collecting duct

  • process of number of aquaporin increase (1)

    collecting duct cells contain vesicles the membranes of which contain many aquaporins

  • what is an aquaporin

    water permeable channel protein

  • effect of ADH on the Kidneys (2)

    ADH molecules bind to receptor proteins activating a signalling cascade that leads to the phosphorylation of the aquaporin molecules

  • effect of ADH on the Kidneys (3)

    aquaporins are activated causing the vesicles to fuse with the luminal membranes of the collecting duct cells which increases the permeability of the membrane to water

  • effect of ADH on the Kidneys (3)

    as the filtrate in the nephron travels along the collecting duct, water molecules diffuse from the collecting duct of high water potential through the aquaporins and into the tissue fluid and blood plasma in the medulla of low water potential

  • effect of ADH on the Kidneys (4)

    as the filtrate in the collecting duct loses water it becomes more concentrated

  • effect of ADH on the Kidneys (5)

    resulting in a small volume of concentrated urine being produced

  • if there is an increase in the water potential of the body what happens

    no ADH produced

    NO stimulation of posterior pituitary gland

    aquaporins remain unphosphorylated

    aquaporins are removed from the luminar cell wall

    more dilute urine produced