Lecture 7- Plasma Membrane and Transport

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Biology- Semester 1 (Lecture 7- Plasma Membrane and Transport) Flashcards on Lecture 7- Plasma Membrane and Transport , created by emma_moran on 28/12/2013.
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Flashcards by emma_moran, updated more than 1 year ago
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Question Answer
What model best explains the plasma membrane? Fluid mosaic model
What is the phospholipid bilayer composed of? Phospholipids, cholesterol and glycolipids
Is cholesterol polar? Weakly amphipathic- OH group is polar and the rest is non polar
How does cholesterol attach to phospholipids? It forms a hydrogen bond with the polar heads of the phospholipids
Roles of membrane proteins Form the glycocalyx, required for the detection of 'self' in immunity, aids in cell-cell adhesion
What are the functions on the plasma membrane? Regulates what enters and exists the cell which controls pH and charge, cell recognition, cell signalling from hormones, enzymatic functions and aids in cell linking and cross talk
What determines the fluidity of the membrane? The double bonds within lipids
What effect does cholesterol have on the first few hydrocarbon groups of the phospholipids? It immobilises them which makes the bilayer less deformable and decreases its permeability to small water soluble molecules.
What is a feature of intracellular membranes? They contain less cholestrol
Why is it necessary for the membrane to be fluid? Allows interactions to occur within the plasma membrane and allows the movement of membrane components required for cell movement, growth, division, secretion and the formation of cellular junctions
What is the purpose of selective permeability of plasma membranes? It allows the cell to build concentration gradients, pH can be regulated and electrical gradients are built (inside of cell is more -ve) creating membranes potentials
What molecules are permeable to the lipid bilayer? Non-polar molecules such as oxygen, carbon dioxide and hormones
What molecules are impermeable to the lipid bilayer? Ions such as NA+ and large molecules such as glucose
Which types of transport across the plasma membrane are passive? Diffusion, osmosis and facilitated diffusion
Which types of transport across the plasma membrane are active? Primary active transport and secondary active transport
Which types of transport across the plasma membrane are vesicular? Endocytosis, phagocytosis, pinocytosis, trancytosis
What is diffusion? The movement of substances down their own concentration gradient either through the lipid bilayer or through membrane channels.
What is facilitated diffusion? The movement of substances down their own concentration gradient via channel or carrier proteins.
What is osmosis? The diffusion of water through a semi-permeable membrane
What are the transmembrane proteins channels that osmosis occurs through called? Aquaporins
What are the two types of pressures present in osmosis called? Hydrostatic pressure and osmotic pressure
What happens to red blood cells if they are placed in a hypertonic solution? They will shrivel because more water will leave the red blood cells than enter via osmosis
What happens if red blood cells are placed in a isotonic solution? They will remain the same because the same amount of water will be entering and leaving the cells via osmosis
What happens if red blood cells are placed in a hypotonic solution The red blood cells will burst because more water will enter the cells than leave via osmosis
How can you relive cerebral edema (water on the brain)? Infusion of hypertonic solution
What is primary active transport? Movement of a substance against its concentration gradient. ATP is required to change the shape of the carrier protein, pumping the substance across
What is secondary active transport (co-transport)? Energy stored in a Na+ or H+ gradient is used to drive other substances across
Who is given the drug digitalis? Patients with heart failure
How does digitalis work? It slows the sodium potassium pump, allowing Na+ accumulation. This slows the Ca2+/Na+ antiporters causing Ca2+ levels to increase in the heart. This increases the strength of heart contractions.
What is vesicular transport used for? Endocytosis (bringing substances into the cell) and Exocytosis (expelling from the cell).
What are the three types of endocytosis? Phagocytosis, receptor mediated endocytosis and pinocytosis
In which cells is exocytosis important? Nerve cells (neurotransmitters) and secretory cells (digestive enzymes and hormones)
What is trancytosis? A combination of endocytosis and exocytosis. It is common in endothelial cells.
What are tight junctions? Formed by the fusion of integral proteins of adjacent cells and prevent anything passing through the extracellular space between them
What are adherens junctions? Plaque which attaches to membrane proteins and microfilaments of the cytoskeleton . Often form adhesion belts. Resists separation in contractile activities such as peristalsis
What are desmosomes and hemidesmosomes? They are anchoring junctions held together by linker protein filaments called cadherins or integrins extending from plaques. They distribute tension and prevent tearing.
Where are desmosomes and hemidesmosomes usually found? Skin and heart muscle
What are gap junctions? The adjacent cells are connected by hollow cylinders called connexons made of transmembrane proteins
Where are gap junctions found? In electrically excitable tissues for synchronisation such as heart and smooth muscle
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