Chapter 5: Membrane Structure And Transport PDF
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Summary
This chapter introduces biological membranes, their composition (phospholipids, proteins, carbohydrates), and the fluid mosaic model. It examines factors like lipid tail length, presence of double bonds, and cholesterol content that impact membrane fluidity. The role of membrane proteins and their association with the membrane is also highlighted.
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Membrane Structure And Transport Biological membranes : - > - Biological membranes, orcellmembranes aremainly made of Phospholipidbilayer > Phospholipids Waterrepelling (hydrophobic) Parts havebothWaterLoving (hydrophilic) and...
Membrane Structure And Transport Biological membranes : - > - Biological membranes, orcellmembranes aremainly made of Phospholipidbilayer > Phospholipids Waterrepelling (hydrophobic) Parts havebothWaterLoving (hydrophilic) and r - > - The hydrophilicpartsfaces inwardand hydrophobic partsfaces outward > membranes also - containproteins and carbohydrates,each amounts ofthem canvary Lipids(phospholipids) · Phospholipids- > key components ofcell membranes and containPhosphategroup · unlikefats, which3 fatty acids attackedto glycerol, Phospholipids haveafatty & acids andPolarPhosphategroupinsteadofthirdfatty acido Phospholipids are comphipathic - : · Hydrophilic heads- > Phosphate group that attract water eyces+3fatty acidTrelyceride(fat) on · Hydrophobic heads->fatty acidchains that repellated · Incell membrane Phospholipids arrangethemselves so thatthe hidophilicheads face outwardtowardwater · Whilehydrophobictails face inwardaway fromwaterforming phospholipid bilayermainstructure ofcellmembranes Fluid - mosaic model - The membrane is describedas a mosaic composed of Lipids, proteins, and carbohydrate molecules · - Itdisplays fluid-likeproperties, allowing Lipids and proteins to move relativeto one anotherwithinthe membrane· - The membrane is fluid in nature, with it's components, including Phospholipids andProteins , constantly inmotion - These molecules primarily more Laterally withina Leaflet : - iedto structures oneitherside ofthe membrane making themrelatively stationary However, some proteins are an Phospholipids can undergo flip-flop movement(transverse diffusion) between Leaflets, butthis process is showerandrequires - energy Proteins bound to membranes trans -while Phosphocipias bilaterservesas thefundamental structure of the cellularmembrane, the proteincomponents is responsibleformost of it's otherfunctions· ways proteins can associatewith membrane: - Integralmembrane Proteins(intrinsicmembrane Proteins) - : >TransmembraneProteins- more regionsthat are physically > Proteins have for embeaded withinthe hydrophobicarea of Phospholipia bilayers > Proteins are covalently attached to Lipidmolecule that is linkedto aminoaciasidechainwithinProtein > Lipidanchors- - Peripheralmembrane Proteins(extrinsicmembrane Proteins) :- - They arenon-covalently attackedwithregions of integral membraneproteins that extendfromthemembrane, orthey bindto the polanheadgroups of Phospholipids. Membranes are semi-fluid · · Biomembranes display fluidity fluidity- > individualmolecule stays closely associated Whilestillbeing able to morefreely withinthemembraneo · me Biomembranes are semifluid- as most Lipids can rotatefreely around theirlong axes and more laterally within the membrane Leaf let, allowing for20 motion · Rotationaland loteral movement helps keepthefatty acidtails withinhydrophobic interiorand doesn't require energy , · At37, Lipid molecules canexchangepositions withtheirneighbors approximatelydo milliontimes Perseconds In contrast to these rotational and lateral movements, the"flip-flop" of Lipids from1 Leafletto the opposite Leaflet · doesn't happenspontaneously · This process requires theenzymeflippage, it utilizes energyfromATP hydrolysis to transport Lipidfrom1 Leaflet to another Plasma membrane fluidity Plasmamembranes - Possess a fluid nature, characterized by movement ofmoleculeslike Phospholipids&proteins - Increasedfluidity allows forgreater movement of Plasma membrane molecules, whilereducedfluidityresults in a Si more rigid membrane. - In a more fluidPlasma membrane, the attractions betweenmolecules areweakercomparedto those in rigid membrane· - Aligiastructurewill havea highermelting temperatures Factors affecting fluidity Phospholipids significantly influencethe >The biochemical propertiesof - fluidity of Phospholipid bilayed Lengthoffatty acttrils : - shorten Longer Thesetails can > - rangefrom14 to 24 carbonatoms· >shorteracytails are less - likely to interact withanotheracyLtails resultinginincreasedfluidity of the membrane· fluid rigid Precenseofdouble bonds in acystails (unsaturated) : fluid Viscons >The - presenceofa doublebond introduces a kink infatty act tail. A g8888888 Which it blocks interactions between neighboringtails and enhances > - 88808320000830320 000 0 00 0 00 00 B unsaturated histkarbon saturated hydrocarbons the fluidityofthe bilayer tails With kinks Presence ofCholestrol: - It's a short > - and neid molecule produced by animal cells & affects > cholestplass fle in stabilizing membranes, with it's - varying based ontemperature. > - temperatures, cholestrol reduces thefluidityofthe membrane· At higher >A - lowertemperatures, it increasesfluidity and help preventthemembranefromfreezing. · Experiment on lateral transport frye and exidinperformedan experiment to Coniformthe Lateral movement of membrane Proteins· · They fused mouseand humanCeLLs andtreatedthemof temperatures of o'c and 37 Co % · The mousemembrane ProteinH-2was fluorescently Labeledo ° · Ato C, the Label remainedon the mouse side: · At37, the Labelspread across the entire cello Not all Integral membrane proteins can move The movementof membrane Proteins canbe limiteddepending on - Cell type,With10-70% Potentially Limited in theirmobility. attachment - Integralmembraneproteins may beanchored to components ofcytoskeleton, which blockstheirLateralmovement - MembraneProteins can be connected to external molecules,suchas networkof proteins that constitutes the extracellularmotixo