Chapter 7 Voc Word List (Include People)

Biology Chapter 7 Notes

Chapter 7 Voc word List (include people):

People: Robert Hooke, Anton van Leeuwenhoek, Mathias Schleiden, Theodor Schwann

Voc. Words: Compound Light Microscope, Scanning Electron Microscope, Transmission Electron Microscope, Scanning Tunneling Microscope, Prokaryotes, Eukaryotes, Plasma membrane, Selective permeable, permeable, impermeable, phospholipid, Fluid mosaic model, cholesterol, transport proteins, cellulose, chromatin, translated RNA, Nucleolus, Ribosomes, nuclear envelope, nuclear pores, vesicles, thylakoid membranes, grana, stroma, plastids, microtubules, microfilaments, centrioles, cilia, and flagella

Section 7.1: The Discovery of Cells

Cell Theory History/Microscopes

·  Before microscopes people believed that diseases came from curses and supernatural spirits.

·  When microscopes were invented scientists found cells and microorganisms

Simple Light Microscope-one lens microscope

·  Robert Hooke developed a gold-embossed leather case in 1665 for a simple compound microscope

o  English scientist

o  He looked at cork cells (dead oak tree bark) and observed and drew the structures he saw

o  He called the structures- cells

·  Anton van Leeuwenhoek designed and used simple light microscope in the late 1600’s –early 1700’s

o  Dutch scientist

o  By 1700 he developed 240 single-lens versions

o  He was the first to discover and describe red blood cells and bacteria and is often credited as the invention of a microscope-invented many years before his birth

·  Mathias Schleiden was a German scientist that studied a variety of plants under the microscope in the 1830’s and determined that all plants are made of cells

·  Theodor Schwann was another German scientist that studied a variety of animal cells and determined all animals are made of cells

Microscopes were developed over the next 200 years with series of lenses to magnify objects

1  Compound Light Microscope- Uses light and more than one lens to look at living cells (Can magnify up to 1500 times)

2  Scanning Electron Microscope- (SEM) sweeps a beam of electrons over the surface of the specimen causing electrons to be emitted from the specimen (3-D realistic pictures with magnification up to 20,000 times)

3  Transmission Electron Microscope-(TEM) aims a beam of electrons through a specimen

·  Invented and developed in the 1930’s-1940’s

·  Makes 2-D images

·  Denser portions are darker

·  Used to study details of cells

·  Magnification up to hundreds of thousands times

4  Scanning Tunneling Microscope-(STM) invented in the 1980’s and revolutionized microscopy because scientists were able to see atoms on the surface of an object

·  A very fine metal probe is place near the object.

·  Electrons flow between the tip of the probe and the atoms on the surface of the specimen

·  Can see objects such as DNA molecules

·  A computer makes the 3-D image

·  Magnification can reach 100 million times

Cell Theory

1  All organisms are composed of one or more cells

2  The cell is the basic unit of structure and organization of organisms

3  All cells come from preexisting cells

Two basic types of cells

o  All cells contain specialized parts known as organelles

Ø  Many organelles are protected with membranes

Ø  Each organelle as a specific function in the cell

1  Prokaryotes

a.  These cells do not contain membrane bound organelles

b.  Their nucleus is incomplete

c.  Parts include: cell wall, one strand of DNA, plasma membrane, cytoplasm, ribosomes

d.  These cells are 0.001 mm to 0.1 mm in size

e.  Usually unicellular bacteria

2  Eukaryotes

a.  These cells do contain membrane bound organelles

b.  Most organisms with this type of cell are multicellular but a few like the amoeba and some algae are unicellular

c.  Parts include: Plasma membrane, cytoplasm, complete nucleus with chromosomes, nucleolus, and organelles

d.  These cells are 0.01 mm to 0.1 mm in size

Section 7.2 -The Plasma Membrane

Plasma membrane-Function is to be a flexible boundary between the cell and its environment

Ø  Cells need nutrients such as glucose, amino acids, and lipids

Ø  This structure allows the proper balance of all things needed into the cells

Ø  Selective permeable-the plasma membrane allows certain molecules in and keeps others out

o  Permeable-material can easily flow through

o  Impermeable-material can not easily flow through

Structure of the Plasma Membrane

a.  Remember that lipids are large molecules that are composed of glycerol and three fatty acids. If a phosphate group releases a fatty acid, a phospholipid is formed.

o  Phospholipid molecule (see page 177) has a Polar head (includes phosphate group) and Nonpolar tails (two fatty acids)

b.  The Plasma Membrane is composed of a Phospholipid bilayer (two layers of phospholipids)

o  Water is a key component to living organisms, both inside and outside of the cell

o  The polar phosphate group allows the cell membrane to interact with the watery environment since water is also polar.

o  The two layers act as a barrier creating a water soluble layer at the outer surfaces and a water-insoluble layer in the middle

·  Water soluble molecules will not move easily through the membrane because the insoluble layer is blocking it

c.  The Plasma membrane is called the fluid mosaic model because the phospholipids move within the membrane as water molecules move with the ocean currents

d.  Cholesterol is also found in the Plasma membrane and its function is to stabilize the phospholipids by preventing the fatty acid tails from sticking together

e.  Transport proteins are used to move needed substances or waste material through the plasma membrane

o  Proteins are found within the lipid membrane

o  Transport proteins are needed to help form the selectively permeable

o  membrane that regulates which molecules enter and which exit the cell

Section 7.3- Eukaryotic Cell Structures

Two types of eukaryotic cells: Plant and Animal

Structures of cells

a.  Cell wall-fairly rigid structure found outside the plasma membrane

·  Provides added support and protection to the cell

·  Composed of a carbohydrate called cellulose-tough mesh of fibers (very porous and allows molecules in the cell)

·  Found in plant cells and prokaryotic cells

b.  Nucleus-contains the directions to make proteins (True nucleus only in eukaryotic cells)

·  Chromatin are strands of genetic material that are found in the nucleus and contains the master set of directions to make proteins-only found in eukaryotic cells

Ø  When a cell divides, the chromatin condenses to form chromosomes

·  Nucleolus are found in the nucleus and make the ribosomes

·  Ribosomes are the sites where the cell produces proteins according to the DNA

Ø  Unlike other organelles ribosomes are not bound by a membrane

Ø  Some are free in the cytoplasm while others attach to the Endoplasmic reticulum

Ø  Ribosomes and translated RNA must leave the nucleus and enter the cytoplasm to produce proteins

ü  Translated RNA are the blueprints containing DNA

c.  Cytoplasm is the clear, gelatinous fluid inside a cell

·  The ribosomes and translated RNA reach the cytoplasm through the nuclear envelope-a structure that separates the nucleus from the cytoplasm (double membrane composed of two layers of phospholipid bilayers containing small nuclear pores for substances to pass through)

·  Cytoplasm suspends the cell’s organelles

d.  Endoplasmic reticulum (ER)(Only found in eukaryotic cells) is the site where cellular chemical reactions occur

·  Arranged on a series of folded membranes in cytoplasm-like an accordion

·  ER with ribosomes attached are called rough endoplasmic reticulum

Ø  Where protein synthesis occurs

ü  Each type of protein made has a specific job

·  ER without ribosomes are called smooth endoplasmic reticulum

·  Free ribosomes make proteins specialized to perform tasks within the cytoplasm

·  After proteins are made, they are transferred to the Golgi apparatus

e.  Golgi apparatus (Only found in eukaryotic cells) is a flattened stack of tubular membranes that modify the proteins

·  Sorts proteins into packages and packs them into membrane-bound structures called vesicles that send the proteins packages to the proper destinations (like the post office sorts the mail)

f.  Vacuoles (Only found in eukaryotic cells) are membrane bound compartments that temporary store materials.

·  Some store food, while others store waste, enzymes, and other materials

g.  Lysosomes (Only found in some eukaryotic cells) are organelles that contain digestive enzymes

·  They digest excess and worn organelles, food particles, and engulf viruses or bacteria

·  The membrane surrounding a lysosome prevents the digestive enzymes inside from digesting the cell

·  Lysosomes can fuse to vacuoles and allow the enzymes to go into the vacuole and eat the contents

h.  Chloroplast (found in green plant cells and some protists) are like the nucleus, has a double membrane

·  The inner membrane system is called thylakoid membranes

Ø  Function is to catch the energy from the sun

Ø  Arranged in stacks of membranous sacs called grana, which resemble stacks of coins

Ø  The fluid that surrounds the stacks of grana are stroma

·  The chloroplast belongs to a group of plant organelles called plastids which are used for storage

Ø  Plastids are named according to its color

ü  Chloroplast with green pigment is called chlorophyll

ü  Chlorophyll traps the light energy and gives leaves and stems their green color

i.  Mitochondria-(Only found in eukaryotic cells) power house membrane-bound organelle found in all eukaryotic cells.

·  Sugar molecule bonds are broken down here providing energy to the cells

·  Has an outer membrane and a highly folded inner membrane

·  Energy-storing molecules are formed in the inner folds

·  Mitochondria vary in number depending on the organism

j.  Cytoskeleton (Only found in eukaryotic cells) forms the framework of the cell (like the skeleton inside us)

·  A network of tiny rods and filaments

Ø  Microtubules-thin cylinder rods made of proteins

Ø  Microfilaments-are smaller, solid protein filaments

Ø  They work together to give the cell its shape

k.  Centrioles-organelles found in the cells of animals and most protists

·  They occur in pairs and are made up of microtubules-play a role in cell division

l.  Cilia and flagella-Found on some cell surfaces are used for locomotion

·  Cilia are numerous short hair-like projections

·  Flagella are longer projections that have a whip-like motion (one or two usually)

Ø  Allows locomotion of unicellular organisms

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