BLOOD GLUCOSE

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    Created by
    Sophie Walsh

    Cards (27)

    • what organ monitors and controls blood glucose conc?
      pancreas
    • What influences blood glucose lvls
      • diet
      • exercise
    • Explain how insulin lowers the concentration of blood glucose.
      • pancreas stimulates beta cells in islets of langahan to secrete insulin
      • insulin binds to receptors on liver & muscle cells
      • causes more transport proteins to become active
      • inc permeability of membrane so glucose diffuses out of bloodstream and into cells
      • stimulates enzymes to convert glucose to glycogen (glycogenesis)
      • inc rate of respiration and stimulates lipids formation
    • what hormone lowers conc of blood glucose?
      insulin
    • what hormone inc conc of blood glucose
      glucagon and adrenaline
    • what gland secretes adrenaline
      adrenal gland
    • explain how glucagon inc blood glucose levels
      • pancreas stimulates alpha cells in islets of llangerhan to secrete glucagon
      • glucagon binds to receptors on liver cells
      • stimulates breakdown of glycogen to glucose (glycogenolysis)
      • decreases rate of respiration
    • Explain how the formation of glycogen in liver cells leads to a lowering of blood glucose concentration.
      • formation of glycogen lowers the concentration of glucose in liver cells below that in the blood. 
      • glucose enters cells via facilitated diffusion
    • People with undiagnosed diabetes were not receiving treatments, such as insulin injections. Suggest one reason for why death rates for undiagnosed where higher than diagnosed diabetics.
      1. diabetic coma/ hypoglycaemia= blood glucose lvls dropped too low
      2. heart attack= faster atheroma formation
      3. kidney failure= damage to blood vessels
    • Describe the role of glucagon in gluconeogenesis.
      Do not include in your answer details on the second messenger model of glucagon action.
      • attaches to receptors
      • stimulates conversion of fatty acids into glucose
    • GLUCONEOGENESIS= Conversion of fatty acids to glucagon activated by glucagon
      (inc blood glucose conc)
    • Explain how increasing a cell’s sensitivity to insulin will lower the blood glucose concentration.
      more insulin can bind to receptors
      activates enzymes which convert glucose to glycogen
    •  Explain how inhibiting adenylate cyclase may help to lower the blood glucose concentration.
      • no ATP is converted to cAMP
      • no cAMP means no protein kinase A can be produced
      • No glycogen converted to glucose
    • HOMEOSTASIS
      maintaining constant internal environment
    • Describe the role of the hormone glucagon in the control of blood sugar concentration
      • inc blood glucose conc
      • binds to specific receptor on liver cell
      • stimulates enzymes to convert glycogen to glucose
      • decreases rate of respiration
      • glucose diffuses out of cells via facilitated diffusion
    • GLYCOGENOLYSIS= Glycogen into glucose
    • GLYCOGENESIS= Glucose into glucagon
    •  Describe how bacteria can be genetically modified to produce human insulin.
      Use m-RNA + reverse transcriptase to produce gene / (c)-DNA;2. Restriction enzyme to cut open plasmid;3. Add sticky ends (to insulin gene and to plasmid);
    • NEG FEEDBACK= mechanisms which act to reverse a change
    • positive feedback mechanisms = amplify a detected change, moving conditions away from the normal level. They are used to accelerate a biological pathway
    • why is positive feedback not involved in homeostasis
      doesn't keep internal conditions in normal range
    • Neonatal diabetes is a disease that affects newly born children. The disease is caused by a change in the amino acid sequence of insulin.
      This change prevents insulin binding to its receptor. Explain why this change prevents insulin binding to its receptor.
      • Changes tertiary structure;
      • No longer complementary to receptor
    • DIABETES=condition that results from the inability to control blood glucose levels.
    • TYPE 1 DIABETES
      • immune system destroys the beta cells of the islets of Langerhans so that they can no longer produce insulin.
      • Results in sustained hyperglycaemia (high blood glucose) after a meal.
      • Some glucose is excreted in the urine as the kidneys cannot reabsorb all of the glucose.
      • Treated with insulin injections or an insulin pump.
      • Have to carefully control diet- after eating insulin levels stay high
      • caused by genetic predisposition
    • TYPE 2 DIABETES
      • Body cells stop responding properly to insulin because their insulin receptors stop working and their cells stop absorbing glucose.
      • OR B cells don't produce enough insulin
      • Treated with a managed diet and regular exercise.
      • linked w/ obesity
    • explain why glucose is found in the urine of a person with untreated diabetes.
      • high conc of glucose in blood
      • not all of the glucose can be reabsorbed at PCT
      • As all carrier proteins are in use (saturated)
    • desc secondary messenger system
      • adrenaline binds to receptors which activates enzyme adenyl cyclase
      • catalyses conversion of ATP to secondary messenger cAMP
      • cAMP binds to protein kinase A
      • protein kinase A is phosphorylsed
      • stimulates glycogenolysis (glycogen to glucose)