Presentation is loading. Please wait.

Presentation is loading. Please wait.

Plasma membrane FluidityMosaic Hydrophobic interactions (weak) Lateral movements of PL (not fixed) Asymmetrical protein embedding Many functions of proteins.

Published byThomasina Manning Modified over 9 years ago

Similar presentations

Presentation on theme: "Plasma membrane FluidityMosaic Hydrophobic interactions (weak) Lateral movements of PL (not fixed) Asymmetrical protein embedding Many functions of proteins."— Presentation transcript:

1 Plasma membrane FluidityMosaic Hydrophobic interactions (weak) Lateral movements of PL (not fixed) Asymmetrical protein embedding Many functions of proteins Factors Affecting Fluidity Of Membrane 1)Temperature  temp   kinetic energy   lateral motion   fluidity Low temp – gel phase (phase transition) High temp – fluid phase 2)Length of FA  length   hydrophobic interX n   heat energy   melt g pt > Solid / gel like at room temperature 3)Degree of FA saturation  saturation   kinks   packing   fluidity 4)Amt of cholesterol mol (intracellular membranes= rare)  stability Chol intercalated/wedged in PM, enhancing mechanical stability Regulates Fluidity (Dual effects on the fluidity – temp buffer) High temp = interfere w PL’s motions, so  fluidity Low temp =  packing of PL =  fluidity Affects permeability  permeability by filling in spaces, so plugging transient gaps Prevent small polar mol & ions from going thru *** Transport across Membranes ***  cell =  s +  p The net movement of freely moving water mol from a region of LESS NEGATIVE water potential to a region of MORE NEGATIVE water potential through a selectively permeable membrane 0-20-40 Water potential  [solute] HypotonicIsotonicHypertonic Less Neg  Equal  More Neg  - H 2 0  > - - H 2 0 enters - lysis - H 2 0  = - No net change in cell volume - H 2 0  < - - H 2 0 leaves - shrivelled - H 2 0  > - - H 2 0 enters - Turgid - H 2 0  = - No net change in cell volume - H 2 0  < - - H 2 0 leaves - Flaccid / plasmolysed Cell Wall Maintains shape 10nm amphipathic hydrophillichydrophobic Intrinsic/Integral largely hydrophobic Deeply embedded Weak hydropho interX n protein can move (fluidity) Detergents & solvents Peripheral hydrophillic loosely bound cytoskele of cell ECM’s fibres pH / ionic changes Stabilize PM & shape anchoragerecognitionenzymaticreceptor joining Cell identity 3 f(x) sequentialChem signals communication 1 protein may more than 1 function  p = pressure the wall is exerting on the cell’s content, pushes water out, so its (+)  s : affected by [solute]

2 Hydrophobic O 2, CO 2 N 2 Benzene, H 2 O Small Uncharged Polar Urea, glycerol, H 2 O Charged Polar H + Na + HCO 3 - K + CA 2+ Cl - Mg 2 + Large Uncharged Polar Glucose, Sucrose - Concentration gradient  concentration =  rate - DISTANCE over wh diffusion occurs ↓ distance =  rate - AREA across wh diffusion occurs  area =  rate - STRUCTURE through wh diffusion occurs  # of pores/ channels / carriers =  rate - SIZE and TYPE of diffusing molecule ↓ size =  rate - Temperature  Temperature =  KE =  rate Factors affecting diffusion rate Bulk transport Facilitated diffusion Diffusion/ osmosis Active Gated Channel Passive Uniport Symport Antiport Specific binding sites Transport Proteins Help polar mol cross hydrophobic PM mol move down or against conc grad specificity makes PM specific in transport jobs Active Transport Ingestion of bact by wbcMucus secretionCa 2 + secretion KIV nervous system ‘nursing’ of human egg cells Cholesterol uptake KIV cell signaling & homeostasis Na +/ K + pump Proton Pump Glu pump Conformation change

3 http://www.youtube.com/watch?v=vh5dhjXz bXchttp://www.youtube.com/watch?v=vh5dhjXz bXc http://www.youtube.com/watch?v=ldRZcmp pQM8&feature=PlayList&p=5873AAE7F87 87C04&playnext=1&playnext_from=PL&ind ex=5http://www.youtube.com/watch?v=ldRZcmp pQM8&feature=PlayList&p=5873AAE7F87 87C04&playnext=1&playnext_from=PL&ind ex=5

Download ppt "Plasma membrane FluidityMosaic Hydrophobic interactions (weak) Lateral movements of PL (not fixed) Asymmetrical protein embedding Many functions of proteins."

Similar presentations

Membrane Transport I Passive transport

Membrane Transport I Passive transport
Part I- Fluid Mosaic Model. Phospholipid Bilayer Held together by the hydrophobic effect. Phospholipids and the bilayer they create are amphipathic- they.

Part I- Fluid Mosaic Model. Phospholipid Bilayer Held together by the hydrophobic effect. Phospholipids and the bilayer they create are amphipathic- they.
SURFACE TENSION. What’s going on at the surface of a liquid?

SURFACE TENSION. What’s going on at the surface of a liquid?
Cell Membrane and Transport

Cell Membrane and Transport
MOVEMENT ACROSS MEMBRANES

MOVEMENT ACROSS MEMBRANES
Chapter 8 RQ What is the term for how the cell membrane “chooses” what enters and leaves the cell? What kind of microscopes are used to study the cell.

Chapter 8 RQ What is the term for how the cell membrane “chooses” what enters and leaves the cell? What kind of microscopes are used to study the cell.
Chapter 7 part 5 Methods of Transport across membranes Diffusion Osmosis Facilitated diffusion Active transport.

Chapter 7 part 5 Methods of Transport across membranes Diffusion Osmosis Facilitated diffusion Active transport.
Cell Biology Lecture 4. Plasma Membrane Transport Permeable Slightly permeable Impermeable.

Cell Biology Lecture 4. Plasma Membrane Transport Permeable Slightly permeable Impermeable.
Membrane proteins ECB Fig. 11-4. Membrane proteins have a variety of functions.

Membrane proteins ECB Fig Membrane proteins have a variety of functions.
The Cell Membrane. Function  Regulates the movement of materials from one environment to the other.  Transports raw materials into the cell and waste.

The Cell Membrane. Function  Regulates the movement of materials from one environment to the other.  Transports raw materials into the cell and waste.
Membrane Structure & Function. Terms Selective Permeability Fluidity of membranes.

Membrane Structure & Function. Terms Selective Permeability Fluidity of membranes.
Transport Across the Cell Membrane maintains homeostasis of cell membrane is selectively permeable – some things can pass through but others can’t 3 types:

Transport Across the Cell Membrane maintains homeostasis of cell membrane is selectively permeable – some things can pass through but others can’t 3 types:
Membrane Transport Chapter 6.

Membrane Transport Chapter 6.
Ms. Napolitano & Mrs. Haas CP Biology

Ms. Napolitano & Mrs. Haas CP Biology
Chapter 7 Membrane Structure & Function. Slide 2 of 38 7.1 Plasma Membrane  Cell’s barrier to the external world  Selectively permeable  Allows only.

Chapter 7 Membrane Structure & Function. Slide 2 of Plasma Membrane  Cell’s barrier to the external world  Selectively permeable  Allows only.
Chapter 7 Membrane Structure & Function. Slide 2 of 38 7.1 Plasma Membrane  Plasma membrane is selectively permeable  Allows only certain molecules.

Chapter 7 Membrane Structure & Function. Slide 2 of Plasma Membrane  Plasma membrane is selectively permeable  Allows only certain molecules.
Chapter 7 – Membrane Structure and Function I.Cellular Membranes Are Fluid Mosaics of Lipids and Proteins A. The Fluid Quality of Membranes 1. membranes.

Chapter 7 – Membrane Structure and Function I.Cellular Membranes Are Fluid Mosaics of Lipids and Proteins A. The Fluid Quality of Membranes 1. membranes.
Membrane structure and function

Membrane structure and function
Cells and Their Environment

Cells and Their Environment
1 Membrane Structure and Function. 2 Plasma Membrane boundary Is the boundary that separates the living cell from its nonliving surroundings Selectively.

1 Membrane Structure and Function. 2 Plasma Membrane boundary Is the boundary that separates the living cell from its nonliving surroundings Selectively.

Similar presentations

Ads by Google