topic 6 - organisms respond to changes in their internal and external environments 2.0 Flashcards
describe the structure of skeletal muscles
-skeletal muscles are made up of large bundles of muscle fibres called microfibrils
-the cell membrane of the muscle fibres is called the sarcolemma
-bits of the sarcolemma fold inwards across the muscle fibre called transverse tubules. they help to spread the electrical impulse throughout the sarcoplasm so they reach all parts of the muscle fibre
-the sarcoplasm contains a network of membranes called the sarcoplasmic reticulum which stores and releases calcium ions for muscle contraction
-muscle fibres have lots of mitochondria
describe myofibrils
-myofibrils contain bundles of thick and thin myofilaments
-the thick myofilaments are made of the protein myosin
-the thin myofilaments are made of the protein actin
describe the microscopic structure of skeletal muscles
-dark bands contain thick myosin filaments and some overlapping thin actin filaments called A bands
-light bands just contain thin actin filaments called I bands
-the M line is the middle of the myosin filaments
-around the M line is the h zone which just contains myosin filaments
explain the sliding filament theory of muscle contraction
-myosin and actin filaments slide over one another to make the sarcomeres contract
-the simultaneous contraction of lots of sarcomeres means the myofibrils and muscle fibres contract
-A bands stay the same length
-I band get shorter
-H zone will get shorter
describe muscular contraction
-an action potential arrives from a motor neuron it depolarises the sarcolemma
-this causes the sarcoplasmic reticulum to release the stored calcium ions
-the calcium ion binds to a protein attached to tropomyosin causing the protein to change shape
-this pulls the tropomyosin out of the actin-myosin binding site on the actin flimanet
-this exposes the binding site so the myosin head binds to form an actin-myosin cross bridge
-calcium activates ATP hydrolase which hydrolases atp into adp and a phosphate
-the energy release from this causes the myosin head to bend so the actin filament is pulled along
-another atp molecule provides energy to break the bridge so the myosin head detached and then re attaches to a different binding site further along the actin filament
describe a resting muscle
-in a resting muscle the actin-myosin binding site is blocked by tropomyosin
-this means the myofilaments cannot slide pat each other because the myosin heads cannot bind to the actin-myosin binding site on the actin filaments
how does phosphocreatine provide energy for muscle contraction
-phosphocreatine provides a phosphate group to phosphorylate AdP into ATP
-Phosphocreatine is stored inside the cells and the ATP-Pcr system generates ATP very quickly
-however phosphocreatine runs out quickly so is used fro short bursts of vigorous exercise
describe slow twitch muscle fibres
-muscle fibres that contract slowly
-they are good for endurance activities
-they have a large myoglobin store which stores oxygen
-they have a rich supply of blood vessels to supply the muscles with oxygen for aerobic respiration
-they have numerous mitochondria
describe fast twitch muscle fibres
-muscle fibres that contract very quickly
-they are good for short bursts of speed and power
-they have thicker and more numerous myofilaments
-energy is released through anaerobic respiration using glycogen so not many mitochondria or blood vessels present
-it stores phosphocreatine
define homeostasis
homeostasis involves control systems that keep your internal environment roughly constant within restricted limits
explain the importance of maintaining a stable blood glucose concentration
-if blood glucose concentration is too high the water potential of the blood is reduced to the point where water molecules diffuse out the cell into the blood
-this causes the cells to shrivel up and die
-if blood glucose is too low the cells are unable to carry out respiration to provide energy as there isn’t a sufficient supply of glucose
describe how insulin lower blood glucose levels
-beta cells secrete insulin into the blood
-insulin binds to specific receptors on membranes of liver cells and muscle cells
-insulin activates channel proteins to open which increases the permeability of muscle-cell membranes to glucose so glucose diffuses into the cells
-insulin activates enzyme involved in glycogenesis which is the conversion of glucose to glycogen
-the cells are able to store the glycogen in their cytoplasm
describe how glucagon raises blood glucose levels
-alpha cells secrete glucagon into the blood
-the glucagon binds to specific receptors on the membranes of liver cells
-glucagon activates the enzymes in the liver cell involved in glycogenolysis which is the conversion of glycogen to glucose
-glucagon activates enzymes involving the formation of glucose from glycerol and amino acids
describe how adrenaline raises blood glucose levels
-it is secreted from adrenal gland when there is a low concentration of blood glucose in the blood
-adrenaline binds to receptors on the cell surface membrane of the liver cell
-it activates enzymes involved in conversion of glycogen to glucose
recall the second messenger model of adrenaline and glucagon action
-adrenaline and glucagon bind to specific receptors on cell membrane
-activate adenylate cyclase
-this converts ATP to cyclic AMP
-the cyclic AMP activates protein kinase A
-the protein kinase A activate an enzyme cascade to break down glycogen into glucose
