Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Cellular Discovery Timeline Cellular Discovery Timeline.

Published byErnest Harper Modified over 9 years ago

Similar presentations

Presentation on theme: "Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Cellular Discovery Timeline Cellular Discovery Timeline."— Presentation transcript:

1 Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Cellular Discovery Timeline Cellular Discovery Timeline

2 Surface Area to Volume Ratio Why are cells so small?? http://docs.google.com/viewer?a=v&q=cache:AYUlnn- 3cIwJ:colgurchemistry.com/Sc10/Sc10BIOLOGY/PDFS/Sc10BiologyAct10SurfaceAreaVolumePDF.pdf+cell+surface+area+activity&hl=en&gl=us&pid=bl&srcid=ADGEESiazsuguvEmmp1KXAJhcYFOzsFfua2 00s75SY7fYU5wnHpcPGBcRmzf_n9jS4yQEGo9GBk2YBo9LoJq_R0eiuWdLpdm7prBcGXNUv-6IqiZRsgcrHj029YpizX-PEpppWpnuyNR&sig=AHIEtbSM1_pw7JehC0bArlwBXc_4wXlJfQ Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory

3 Cell Types Prokaryotes Eukaryotes Bacteria Plant Animal Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory

4 Are much more diverse in both habitat and metabolism Are usually single-celled. Differentiation into different cell types almost never occurs. Have no separate nucleus. The cell is surrounded by a membrane, and cell wall but there are no internal membranes. (Few organelles) Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Prokaryotes

5 Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Eukaryotes Plant Cells Animal Cells Cell Wall Chloroplasts Large Vacuole More geometric shape Cells with a nucleus and membrane-bound organelles Centrioles Lysosomes More spherical shape

6

7 Ch.7 – Cellular Structure and Function 7.2 – The Plasma Membrane The Cell Membrane Cell Membranes are Selectively Permeable and are primarily made up of phospholipids Organelle/Membrane interactive animation

8 Ch.7 – Cellular Structure and Function 7.2 – The Plasma Membrane The Cell Membrane Other Parts Cholesterol Makes the lipid bi-layer less fluid Glycolipids & Glycoproteins Carbohydrates attached to proteins or lipids and used for cell recognition (Antigens) Proteins Used to transport molecules across the cell membrane (among other uses)

9 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Cellular Transport So, just how does stuff enter and exit cells? H 2 O, CO 2 and small ions freely cross the cell membrane following the natural laws of diffusion Molecules move from areas of high concentration to areas of low concentration This is called … moving with or down the concentration gradient Diffusion continues until Equilibrium is reached

10 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Water is special…. The diffusion of water, across a membrane, down the concentration gradient is called OSMOSIS A simple rule of osmosis is that SOLUTES SUCK Solutes, concentrated inside or outside of the cell, will draw the water in that direction

11 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport 10% 20% 10% 5% 10% Hypertonic Hypotonic Isotonic

12 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Hypertonic Hypotonic Isotonic What will happen to these cells?

13 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport The artificial cell is permeable to water and monosaccharides only 1.Draw this diagram 2.Draw a solid arrow to indicate which direction the solutes will move. 3.Is the solution Hyper-, Hypo-, or Isotonic Glucose H2OH2O Fructose 4. Draw a dashed arrow to show the movement of water 5. Will the artificial cell become more flaccid, turgid, or stay the same? Hypotonic Turgid

14 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Transport proteins allow Facilitated Diffusion to occur They create a tunnel that allows specific substances to cross the bilayer down the concentration gradient They are specific to one substance They are used for large molecules or to increase the diffusion rate of important substances (water & glucose)

15 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Passive TransportActive Transport Diffusion Osmosis Facilitated Diffusion Requires NO ENERGY Substances move WITH the concentration gradient Requires ENERGY Substances move AGAINST the concentration gradient Protein Pumps Endocytosis Exocytosis

16 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Protein Pumps Carrier Proteins that use ATP (energy) to move molecules into or out of the cell against the concentration gradient Example: Sodium/Potassium Pump Na/K pump animation IN OUT

17 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Endocytosis Cells take in molecules by forming vesicles at the cell membrane Phagocytosis Pinocytosis The cell “gulps” liquid material The cell engulfs solid material 2 Types

18 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Exocytosis Cells excrete molecules by fusing vesicles to the cell membrane Endo- / Exocytosis Animation

19 Ch.7 – Cellular Structure and Function 7.4 – Cellular Transport Identify the following: 1. Protein Pump 2. Diffusion 3. Facilitated diffusion

Download ppt "Ch.7 – Cellular Structure and Function 7.1 – Cell Discovery & Theory Cellular Discovery Timeline Cellular Discovery Timeline."

Similar presentations

Passive Transport Where are membranes found? Cell Organelles.

Passive Transport Where are membranes found? Cell Organelles.
Movement through the channel

Movement through the channel
Membrane and Transport Notes. Review: Prokaryotic vs. Eukaryotic.

Membrane and Transport Notes. Review: Prokaryotic vs. Eukaryotic.
Section Objectives Explain how the processes of diffusion, passive transport, and active transport occur and why they are important to cells. Predict.

Section Objectives Explain how the processes of diffusion, passive transport, and active transport occur and why they are important to cells. Predict.
The Cell and Its Environment

The Cell and Its Environment
Cellular Processes Unit 3. Cell Theory O Developed in the 1800s O All living things are made of one or more cells O Cells are the basic unit of structure.

Cellular Processes Unit 3. Cell Theory O Developed in the 1800s O All living things are made of one or more cells O Cells are the basic unit of structure.
4-1 Chapter 4: Membrane Structure and Function. 4-2 Plasma Membrane Structure and Function The plasma membrane separates the internal environment of the.

4-1 Chapter 4: Membrane Structure and Function. 4-2 Plasma Membrane Structure and Function The plasma membrane separates the internal environment of the.
The Plasma (Cell) Membrane The Fluid Mosaic Model.

The Plasma (Cell) Membrane The Fluid Mosaic Model.
CH. 5 MEMBRANE STRUCTURE AND FUNCTION

CH. 5 MEMBRANE STRUCTURE AND FUNCTION
Organelle Review Protein Synthesis and Secretion Ribosomes attach to the E.R. and make protein Protein is then sent to the Golgi Apparatus The G.A. packages.

Organelle Review Protein Synthesis and Secretion Ribosomes attach to the E.R. and make protein Protein is then sent to the Golgi Apparatus The G.A. packages.
Structure and Function

Structure and Function
The Cell Membrane BE ABLE TO: Identify the parts and its structure Importance in eukaryotic cells Describe its functions.

The Cell Membrane BE ABLE TO: Identify the parts and its structure Importance in eukaryotic cells Describe its functions.
Cells and Their Environment Chapter 4 Section 1. The Plasma Membrane The Plasma Membrane - Gateway to the Cell.

Cells and Their Environment Chapter 4 Section 1. The Plasma Membrane The Plasma Membrane - Gateway to the Cell.
Membrane Structure & Function AP Biology Chapter 7.

Membrane Structure & Function AP Biology Chapter 7.
Homeostasis and Cell Transport

Homeostasis and Cell Transport
Cell Membranes!  OOOOooooo….  Fluid Mosaic!. Membrane structure, I  Selective permeability  Amphipathic~ hydrophobic & hydrophilic regions  Singer-Nicolson:

Cell Membranes!  OOOOooooo….  Fluid Mosaic!. Membrane structure, I  Selective permeability  Amphipathic~ hydrophobic & hydrophilic regions  Singer-Nicolson:
CELLULAR ORGANIZATION. Organisms Are Made of Cells Some organisms are single-celled (unicellular) – Ex. Bacteria, Protists (euglena, paramecium, algae),

CELLULAR ORGANIZATION. Organisms Are Made of Cells Some organisms are single-celled (unicellular) – Ex. Bacteria, Protists (euglena, paramecium, algae),
Cell Transport Membranes Structure and Function. Membrane Structure Phospholipid Bi-layer Phospholipid Bi-layer Contains Different Types of Proteins Contains.

Cell Transport Membranes Structure and Function. Membrane Structure Phospholipid Bi-layer Phospholipid Bi-layer Contains Different Types of Proteins Contains.
Centrioles Pairs of microtubular structures Play a role in cell division.

Centrioles Pairs of microtubular structures Play a role in cell division.
Cell Structure and Function. The Cell Theory All living things are made of one or more cells All cells come from pre-existing cells Cells are the basic.

Cell Structure and Function. The Cell Theory All living things are made of one or more cells All cells come from pre-existing cells Cells are the basic.

Similar presentations

Ads by Google