CONCEPT QUESTION 1994: L. PETERSON/AP BIOLOGY Discuss how cellular structures, including the plasma membrane, specialized endoplasmic reticulum, cytoskeletal elements, and mitochondria, function together in the contraction of skeletal muscle cells.
To earn credit a student needed to demonstrate an understanding of basic cell anatomy and physiology as they relate specifically to the structure and function to muscle contraction. Standards were established to follow the cellular activities pertinent to muscle contraction from the neuromuscular junction, through contraction, and returning to the non-contractive state. Points were also awarded if the student included information from the neuromuscular junction, demonstrated an exceptional understanding of chronological information from the neuromuscular junction, demonstrated an exceptional understanding of chronological or spatial relationships, or included an elaboration of special features specific to the process of muscle contraction. (2 pts) Neuromuscular junction Action potential of neuron > neurotransmitter Concept of neurotransmitter (1 pt) Idea of a sarcomere as a functional unit (1 pt) Actin and Myosin in a sarcomere (well labeled diagram w/text) (2 pts) Plasma membrane / sarcolemma (no point for name alone) Receptor sites for neurotransmitters Change in permeability / Na+ K+ Action potential distributed / depolarization T-tubules (continuous with specialized E.R.) (2 pts) Specialized E.R. Sarcoplasmic reticulum (no point for name alone) T-tubule (only if not given above) Ca++ release / Calcium is involved with muscle contraction Change in permeability release of Ca++ Ca++ recaptured into S.R. contraction ends / active transport (5 pts) Cytoskeletal Elements Actin and myosin (linked to muscle function) microfilaments / myofibrils / myofibrils Actin thin fiber (protein structure) Troponin (Ca++ interaction exposes active sites) Tropomyosin (is therefore unblocked) Myosin thick fiber (protein structure) 'clubs' bridges paddles for interaction with actin / ATP binding site ATPase site / hydrolysis of ATP Sliding Filament Concept Z line as a protein which separates sarcomeres (needs strong linkage) ATP functions to release mysoin heads from actin sites (2 pts) Mitochondria ATP production cellular respiration Number of mitochondria is higher in muscle cells due to... Proximity within muscle fiber Chemiosmosis elegant elaboration of ATP production (2 pts) Other Rarely Mentioned: Fast twitch / slow twitch (1 pt) Elaboration (1 pt) (FT) glycogen and anaerobic (ST) oxidation of glycogen via TCA and thus aerobic All or nothing response Switches to anaerobic respiration after oxygen consumed / Myoglobin Muscles can only contract Rigor mortis (showing that ATP functions in release rather than contractive phase) Muscle cell is a muscle fiber or muscle cell is multinucleate Glycogen storage (mitochondria functions) Creatine phosphate - PO4 replacement (1 pt) Synoptic synchronization - exceptional chronology or spatial relationships