Unit 1 Cells and Proteins Advanced Higher Biology Miss Aitken

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Unit 1 Cells and Proteins Advanced Higher Biology Miss Aitken Hydrophillic Signals Unit 1 Cells and Proteins Advanced Higher Biology Miss Aitken

Signal Transduction Hydrophillic signalling molecules cannot pass through the cell membrane as they are not lipid soluble. Examples of hydrophillic signalling molecules are: Peptide hormones Neurotransmitters

Signal Transduction Since hydrophillic signalling molecules cannot pass through the cell membrane, they must join to a receptor on the outside of the cell membrane. When a signalling molecule binds to the receptor on the cell membrane, a conformational change happens. The signal molecule does not go into the cell, but the signal is transduced – this means it is passed across the membrane and a response happens.

Signal Transduction Signal transduction often involves: Cascades activated by G-proteins Phosphorylation by kinase enzymes Examples of peptide hormones are: Insulin Glucagon Anti-diuretic hormone (ADH) Each peptide hormone has a specific receptor on the target cell surface, making them highly specific.

Insulin and the Recruitment of GLUT4 Glucose levels within the blood must be kept within 3.9 – 6.1mmol per litre. The peptide hormones insulin and glucagon control blood glucose level. If the blood glucose level rises, usually after a meal, the pancreas detects an increase in blood glucose. This causes insulin to be released

Insulin and the Recruitment of GLUT4 The insulin receptor is a kinase-linked receptor on the membrane of fat and muscle cells. If a hydrophillic signal binds to the insulin receptor, a signal is transduced and a series of phosphorylation events trigger the recruitment of GLUT4 glucose transporters to the cell membrane. Glucose is allowed to enter the cell, lowering it’s concentration in the blood. The glucose in the cell is metabolised.

Diabetes Diabetes mellitus is caused by a deficiency in the effect of insulin and results in the loss of control of blood glucose level. Two types: Failure to produce insulin (type 1) Loss of receptor function (type 2)

Diabetes Type 1 diabetes is treated with injections of insulin – it cannot be reversed. It is often genetic. Type 2 diabetes is reversible, as cells are no longer sensitive to insulin, normally due to obesity. Exercise and losing weight can reduce the impact of type 2 diabetes as it triggers recruitment of GLUT4 through other metabolic pathways. Exercise improves the uptake of glucose to fat and muscle cells.

ADH and the Recruitment of AQP2

Definitions for this Key Area Why do hydrophillic signalling molecules not enter the cell? What is signal transduction? Name two types of molecules often involved in signal transduction Explain the following signal transduction pathways: How neurotransmitters provide a signal How insulin recruits GLUT4 transporters How ADH recruits AQP2 Explain how diabetes type 1 and type 2 occur PPQs:- P27-28, P31, P64-66, P70, P102