unit overview – pages 138-139 the life of a cell a view of the cell the discovery of cells
TRANSCRIPT
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The Life of a Cell
A View of the Cell
The Discovery of Cells
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A View of a Cell
• Cells : the basic building blocks of all living things.
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• The first person to record looking at water under a microscope was Anton van Leeuwenhoek.
• The microscope van Leeuwenhoek used is considered a simple light microscope because it contained one lens and used natural light to view objects.
Development of Light MicroscopesDevelopment of Light Microscopes
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•Compound light microscopes: use a series of lenses to magnify objects in steps.
These microscopes can magnify objects up to 1,500 times.
Development of Light MicroscopesDevelopment of Light Microscopes
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• Robert Hooke was an English scientist who lived at the same time as van Leeuwenhock.
The Cell TheoryThe Cell Theory
• Hooke used a compound light microscope to study cork, the dead cells of oak bark.
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The Cell Theory• Matthais Schleiden (1838)
–Observed plants- and concluded that all plants are made of cells.
• Theodor Schwann(1939)
–Observed animals and concluded that all animals are made of cells.
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The Cell Theory
• Rudolf Virchow - 1852– Concluded that the nucleus was responsible for
cell division
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**The cell theory is made up of three main ideas:
All cells come from preexisting cells.
The cell is the basic unit of organization of organisms.
All organisms are composed of one or more cells.
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• The electron microscope was invented in the 1940s.
• This microscope uses a beam of electrons to magnify structures up to 500,000 times their actual size.
Development of Electron MicroscopesDevelopment of Electron Microscopes
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There are two basic types of electron microscopes.
The transmission electron microscope allows scientists to study the structures contained within a cell.
The scanning electron microscope scans the surface of cells to learn their three dimensional shape.
Development of Electron MicroscopesDevelopment of Electron Microscopes
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1. Prokaryotic cells : Cells that do not contain internal membrane-bound structures
• The cells of most unicellular organisms such as bacteria do not have membrane bound structures and are therefore called prokaryotes.
**Two Basic Cell Types**Two Basic Cell Types
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• Most of the multi-cellular plants and animals
2. Eukaryotic cells:
•Cells containing membrane-bound structures
7.17.1
**Two Basic Cell Types**Two Basic Cell Types
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• Organelles: the membrane-bound structures within eukaryotic cells
• Each organelle has a specific function that contributes to cell survival.
Two Basic Cell TypesTwo Basic Cell Types
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Prokaryotic Eukaryotic
3 Facts 3 Facts
2 Similarities
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1.What is happening to the starch and the sugar?2. What does this tell you about the membrane covering the
test tube?
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The Life of a Cell
A View of the Cell
The Plasma Membrane
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All living cells must maintain a balance regardless of internal and external conditions. Survival depends on the cell’s ability to maintain the proper conditions within itself.
What is this called????
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Why cells must control materials • What helps cells control
homeostasis?
• Plasma membrane :the boundary between the cell and its environment.
• Selective permeability : a process used to maintain homeostasis allowing some molecules into the cell while keeping others out.
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It is the plasma membrane’s job to:
• allow waste and other products to leave the cell.
• remove excess amounts of these nutrients when levels get so high that they are harmful.
• allow a steady supply of glucose, amino acids, and lipids to come into the cell no matter what the external conditions are.
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Water
Plasma Membrane
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Structure of the Plasma Membrane
The plasma membrane is composed of two layers of phospholipids back-to-back.
•Phospholipids : lipids with a phosphate attached to them.
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The lipids in a plasma membrane have a glycerol backbone, two fatty acid chains, and a phosphate group.
Glycerol Backbone
Two Fatty Acid Chains
Phosphate Group
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Makeup of the phospholipid bilayer• The phosphate
heads are polar and hydrophilic. They face out.
• The fatty acid tails are nonpolar and hydrophobic. They face inside
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Makeup of the phospholipid bilayer
• Fluid mosaic model : the phospholipids move within the membrane (waves), as well as, the proteins in the membrane (boats).
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Components of the plasma membrane:
Cholesterol prevents the fatty acid chains of the phospholipids from sticking together.
CholesterolMolecule
**Think spaghetti and butter**
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Components of the plasma membrane:
• Transport proteins: move needed substances or waste materials through the plasma membrane.
• Other proteins and carbohydrates stick out of the cell’s surface to identify chemical signals.
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The Life of a Cell
A View of the Cell
The Eukaryotic Cell
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The plasma membrane acts as a selectively permeable membrane.
Cellular Boundaries
•Cell wall : rigid structure located outside the plasma membrane that provides additional support and protection.
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Nucleus and cell control
•Chromatin : are strands of
genetic material
•Nucleolus: helps with ribosome
production
Nuclear Envelope
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Inside the Eukaryotic Cell
•Cytoplasm: the gelatin-like material inside every cell; it constantly flows inside the cell
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Assembly, Transport, and Storage
•Endoplasmic reticulum (ER) : the site of cellular chemical reactions; products are transported through tubules that make up the ER
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Assembly, Transport, and Storage
Endoplasmic Reticulum (ER)
•Ribosomes : the smallest organelles that are not
membrane bound and make proteins
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Assembly, Transport, and Storage
•Golgi Apparatus stacked, flattened
membranes used to sort cellular substances and
package them into membrane bound structures called
vesicles
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**Assembly, Transport, and Storage
• What is the advantage of highly folded membranes in cells?– Think accordion –
• A large amount of work can be done in a small space
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Vacuoles and storage •Vacuoles : spaces used for temporary storage of materials.
**Notice the difference between vacuoles in plant and animal cells.
VacuoleAnimalCell
PlantCell
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Lysosomes and recycling
•Lysosomes : organelles that contain digestive enzymes.
•digest excess or worn out organelles, food particles, and engulfed viruses or bacteria.
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Energy Transformers:
•Chloroplasts : cell organelles that capture light energy and produce food to store for a later time.
Chloroplasts and energy
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•The chloroplasts belongs to a group of plant organelles called plastids, which are used for storage.
•Chloroplasts contain green pigment called chlorophyll. Chlorophyll traps light energy and gives leaves and stems their green color.
Chloroplasts and energy
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•Mitochondria : membrane-bound organelles in plant and animal cells that transform energy for the cell.
Mitochondria and energy
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•Cytoskeleton : support structure composed of microtubules and microfilaments.
Structures for Support and Locomotion
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Some cell surfaces have cilia and flagella, which are structures that aid in locomotion or feeding. Cilia and flagella can be distinguished by their structure and by the nature of their action.
Cilia and flagella
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•Cilia : short, numerous, hair-like projections that move in a wavelike motion.
Cilia and flagella: used for locomotion
Cilia
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•Flagella : long projections that move in a whip-like motion.
•Flagella and cilia are the major means of locomotion in unicellular organisms.
Cilia and flagella
Flagella