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It has more roles than you know By the of this presentation you should:  Describe the chemical composition of the plasma membrane and relate it to its.

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Presentation on theme: "It has more roles than you know By the of this presentation you should:  Describe the chemical composition of the plasma membrane and relate it to its."— Presentation transcript:

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2 It has more roles than you know

3 By the of this presentation you should:  Describe the chemical composition of the plasma membrane and relate it to its function.

4 By the of this presentation you should:  Describe the chemical composition of the plasma membrane and relate it to its function.  Compare the structure and function of tight junctions, desmosomes and gap junctions

5 By the of this presentation you should:  Describe the chemical composition of the plasma membrane and relate it to its function.  Compare the structure and function of tight junctions, desmosomes and gap junctions  Describe the types of membrane proteins and how they relate to membrane function

6 The plasma membrane defines the extent of a cell.

7 It separates the inside (intracellular fluid ) from the outside (extracellular)

8 The plasma membrane is composed of proteins and phospholipids.

9 The Fluid Mosaic Model states that the proteins float in a lipid bilayer.

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11 The phospholipid molecule is bipolar with a hydrophobic, nonpolar portions & a hydrophilic, polar portion

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16 These are lipids with attached sugar groups. These are located on the outer membrane

17 They have multiple roles but can serve in cell attachment and recognition.

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19 Make up about 50% of the membrane's mass There are two types:  Integral Proteins

20 Make up about 50% of the membrane's mass There are two types:  Integral Proteins &  Peripheral Proteins

21 Integral proteins are firmly inserted into the lipid bilayer.

22 All contain hydrophobic and hydrophilic regions.

23 Integral proteins are firmly inserted into the lipid bilayer. All contain hydrophobic and hydrophilic regions. Most integral proteins are involved with transport.

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25 Peripheral proteins are loosely attached to integral proteins and are easily detached.

26 They serve as:  Enzymes  Motor functions (movement)  Link cells together (junctions)

27 Many are glycoproteins, proteins with branching sugar groups.

28 The Glycocalyx is the fuzzy carbohydrate coat that covers the cell surface. These serve an important role in cell recognition.

29 Copyright © 2010 Pearson Education, Inc. A protein (left) that spans the membrane may provide a hydrophilic channel across the membrane that is selective for a particular solute. Some transport proteins (right) hydrolyze ATP as an energy source to actively pump substances across the membrane. (a) Transport

30 Copyright © 2010 Pearson Education, Inc. A membrane protein exposed to the outside of the cell may have a binding site with a specific shape that fits the shape of a chemical messenger, such as a hormone. The external signal may cause a change in shape in the protein that initiates a chain of chemical reactions in the cell. (b) Receptors for signal transduction Signal Receptor

31 Copyright © 2010 Pearson Education, Inc. Elements of the cytoskeleton (cell’s internal supports) and the extracellular matrix (fibers and other substances outside the cell) may be anchored to membrane proteins, which help maintain cell shape and fix the location of certain membrane proteins. Others play a role in cell movement or bind adjacent cells together. (c) Attachment to the cytoskeleton and extracellular matrix (ECM)

32 Copyright © 2010 Pearson Education, Inc. A protein built into the membrane may be an enzyme with its active site exposed to substances in the adjacent solution. In some cases, several enzymes in a membrane act as a team that catalyzes sequential steps of a metabolic pathway as indicated (left to right) here. (d) Enzymatic activity Enzymes

33 Copyright © 2010 Pearson Education, Inc. Membrane proteins of adjacent cells may be hooked together in various kinds of intercellular junctions. Some membrane proteins (CAMs) of this group provide temporary binding sites that guide cell migration and other cell-to-cell interactions. CAMs (e) Intercellular joining

34 Copyright © 2010 Pearson Education, Inc. Some glycoproteins (proteins bonded to short chains of sugars) serve as identification tags that are specifically recognized by other cells. (f) Cell-cell recognition Glycoprotein

35 Three factors act to bind cells together:  Glycoproteins which act like an adhesive

36 Three factors act to bind cells together:  Glycoproteins which act like an adhesive  The contours of the adjacent membranes fit together like a puzzle

37 Three factors act to bind cells together:  Glycoproteins which act like an adhesive  The contours of the adjacent membranes fit together like a puzzle  Special membrane junctions are formed

38 There are three types of membrane junctions. Each one has a specific purpose. They are: 1. Tight Junctions: These form an impermeable junction that encircles the cell. They are made of two classes of integral proteins occludins and claudins.

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40 There are three types of membrane junctions. Each one has a specific purpose. They are: 2. Desmosomes: are anchoring junctions. They are scattered along the cell membrane like rivets. They have a plaque on the cyctoplasmic face and proteins called cadherins which link the two plaques together.

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42 There are three types of membrane junctions. Each one has a specific purpose. They are: 3. Gap Junctions: These are communicating junctions between cells. The membranes are connected by hollow cylinders call connexons. These are usually found in excitable tissues.

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44 What are Glycoproteins?

45 What are the three types of cell junctions?

46 Where do you find:  Cadherins & occludins?

47 Where do you find:  Cadherins & occludins?  Connexons 

48 Where do you find:  Claudins & occludins?  Connexons  Cadherins


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