Download BIOLOGY Cell Review Notes (source: SW Biology 11)

BIOLOGY Cell Review Notes
(source: SW Biology 11)
CELL STRUCTURE, FUNCTION & PROCESS
Both living and nonliving things are composed of molecules made from chemical elements
such as carbon, hydrogen, oxygen, and nitrogen. The organization of these molecules into
CELLS is one feature that distinguishes living things from all other matter.
The CELL IS THE SMALLEST UNIT OF MATTER THAT CAN CARRY ON ALL THE
PROCESSES OF LIFE. The physical and chemical natures of the structures of the cell are
directly related to their functions. This is a fundamental theme throughout the study of biology.
Introduction to the Cell
1. Every living thing-from the tiniest bacterium to the largest whale-are made of one or more
cells.
2. Before the seventeenth century, no one knew that cells existed.
3. Most cells are too small to be seen with the unaided eye.
4. Cells were not discovered until after the invention of the microscope in the early seventeenth
century.
5. One of the First Microscopes was made by the Dutch drapery store owner Anton von
Leewenhoek. With his hand-held microscope, Leewenhoek became the FIRST PERSON to
observe and describe microscopic organisms and living cells.
6. In 1665, the English Scientist Robert Hooke used a microscope to examine a thin slice of
cork and described it as consisting of "a great many little boxes". It was after his observation
that Hook called what he saw "Cells". They looked like "little boxes" and reminded him of
the small rooms in which monks lived, SO HE CALLED THEM "CELLS".
7. In 1838, German Botanist Matthias Schleiden studied a variety of plants and concluded that
ALL PLANTS "ARE COMPOSED OF CELLS".
8. The next year, German Zoologist Theodor Schwann reported that ANIMALS ARE
ALSO MADE OF CELLS and proposed a cellular basis for all life.
9. In 1855, German Physician Rudolf Virchow induced that "THE ANIMAL ARISES
ONLY FROM AN ANIMAL AND THE PLANT ONLY FROM A PLANT" OR " THAT
CELLS ONLY COME FROM OTHER CELLS".
The Cell Theory
1. Virchow ‘s statement contradicted the idea that life could arise from nonliving matter or the
"Theory of Spontaneous Generation".
2. The combined work of Schleiden, Schwann, and Virchow make up what is now known as the
modern CELL THEORY.
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3. The CELL THEORY consist of THREE Principles:
A. All living things are composed of one or more cells.
B. Cells are the basic units of structure and function in an organism.
C. Cells come only from reproduction of existing cells.
Cell Diversity
Not all cells are alike. Even cells within the same organism show enormous diversity in size,
shape, and internal organization. Your body contains at least 200 different cell types.
CELL SIZE
1. A few types of cells are large enough to be seen by the unaided eye. The female egg is the
largest cell in the body, and can be seen without the aid of a microscope.
2. Most cells are visible only with a microscope.
3. MOST CELLS ARE SMALL FOR TWO REASONS:
a. CELLS ARE LIMITED IN SIZE BY THE RATIO BETWEEN THEIR OUTER
SURFACE AREA AND THEIR VOLUME. A small cell has more surface area than a
large cell for a given volume of cytoplasm. This is important because the nutrients,
oxygen, and other materials a cell requires must enter through it surface. As a cell grows
larger at some point its surface area becomes too small to allow these materials to enter
the cell quickly enough to meet the cell's need.
b. THE CELL'S NUCLEUS (THE CONTROL CENTRE) CAN ONLY
CONTROL A CERTAIN AMOUNT OF LIVING, ACTIVE CYTOPLASM.
CELL SHAPE
1. Cells come in a variety of shapes.
2. Most cells have a specific shape.
3. THE SHAPE OF A CELL DEPENDS ON ITS FUNCTION.

 Cells of the nervous system that carry information from your toes to your brain are long
and threadlike. 
 Blood Cells are shaped like round disk that can squeeze through tiny blood vessels. 
INTERNAL ORGANIZATION
1. Cells contain a variety of internal structures called ORGANELLES.
2. An organelle is a cell component that PERFORMS SPECIFIC FUNCTIONS for the cell.
3. Just as the organs of a multicellular organism carry out the organism's life functions,
the organelles of a cell maintain the life of the cell.
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4. There are many different cells. However, there are certain features common to all, or most
cells.
5. The entire cell is surrounded by a thin membrane, called the CELL MEMBRANE.
6. Inside the cell are a variety of organelles, most of which are surrounded by their own
membrane.
7. A large organelle near the center of the cell is the NUCLEUS. It contains the cell's genetic
information and controls the activities of the cell.
THE CELL MEMBRANE
1. A cell cannot survive if it is totally isolated from its environment. The CELL MEMBRANE
is a complex barrier separating the cell from its external environment.
2. All cells, from all organisms, are surrounded by a cell membrane.
3. The cell membrane is a thin layer of LIPID (fat) and PROTEIN that separates the cell's
content from the world around it.
4. The cell membrane Functions like a GATE, Controlling what ENTERS and LEAVES the
Cell. This "SELECTIVELY PERMEABLE" membrane regulates what passes into and out of
the cell. Some substances easily cross the membrane, while others cannot cross at all.
5. There are many kinds of proteins in membranes; they help to move material into and out of
the cell.
6. The cell membrane is constantly being formed and broken down in living cells.
ORGANELLES
Organelles are structures that work like miniature organs. They carry out specific functions in the
cell. All organelles function in HOMEOSTASIS that means they maintain a constant internal
environment.
 CYTOPLASM: Jelly-like substance between the cell membrane and the nucleus. It contains
dissolved gases and nutrients and holds organelles. 

 NUCLEUS: Often the most prominent structure within a cell. The nucleus is the control
center of the cell. The nucleus contains DNA, the hereditary material of cells and
controls cellular activities 

 NUCLEOLUS: The nucleus contains at least one nucleolus which makes or synthesizes
ribosomes, which in turn, build proteins. When a cell prepares to reproduce, the nucleolus
disappears. 

 CHROMATIN: Thread-like mass that contains DNA strands (genetic info) found in nondividing cells. 

 CHROMOSOMES: Visible form of chromatin. During cell division, chromatin strands coil
and condenses into thick structures called chromosomes. The chromosomes in the nucleus
contain coded "blueprints" that control all cellular activity. 
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 ENDOPLASMIC RETICULUM (ER): The ER is a system of membranous tubules and sacs.
The ER functions primarily as an intracellular highway of membranes that connect the
nucleus to the cell membrane, a path along which molecules move from one part of the cell
to another. The amount of ER inside a cell fluctuates, depending on the cell's activity.
 Poisons, waste, and other toxic chemicals are made harmless. Can be ROUGH or SMOOTH. 
A. ROUGH-ER is studded with RIBOSOMES and processes PROTEINS to be
exported from the cell.
B. SMOOTH-ER is NOT covered with RIBOSOMES and processes LIPIDS (fats) and
CARBOHYDRATES (sugars).
 RIBOSOMES: Ribosomes are not surrounded by a membrane. They are the site of
PROTEIN SYNTHESIS in a cell. They are most numerous organelles in almost all cells.
Some are free in the cytoplasm; others line the membranes of ROUGH-ER. 

 GOLGI APPARATUS: A system of membranes made of flattened sac like structures called
cisternae. It works closely with the ER to modify and package proteins for export by the cell. 

 LYSOSOMES: Small spherical organelles or vesicles that are formed from pieces of the
golgi apparatus that break off. They enclose enzymes and. are the site of food digestion and
worn out cell components. They can also cause cell destruction. Lysosomes are common in
the cells of animals, fungi, and protists, but rare in plant cells. 

 MITOCHONDRIA: Rod-shaped organelles. Known as the "Powerhouse" of the cell because they
produce the cell’s energy by carrying out CELLULAR RESPIRATION 
C6H12O6 (sugar)+ O2  CO2 + H2O + energy
Mitochondria have their own DNA, and new mitochondria arise only when existing ones
grow and divide. Mitochondria are usually more numerous in cells that have a high energy
requirement - your muscle cells contain a large number of mitochondria.
 CILIA / FLAGELLA: Cilia and flagella are hair-like organelles that extend from the surface
of the cell, where they assist in movement. Cilia are short hair-like projections. Flagella are
long whip-like projections. Cilia are often numerous. Flagella are often singular. 

 Unicellular organisms such as Paramecium and Euglena use cilia and flagella to move
through water. 

 Sperm use flagella to swim to the egg. 
 In Humans, beating cilia line parts of the respiratory system, moving dust particles and
bacteria away from the lungs. 
PLANT CELLS have three additional structures not found in animals cells.
 CELL WALL: Cell walls of plants contain CELLULOSE - a complex carbohydrate. A cell
wall DOES NOT REPLACE the cell membrane; cells with walls also have a cell membrane.
Plant cells are covered by a rigid cell wall that lies outside the cell membrane. The rigidity of
cell walls helps SUPPORT and PROTECT the plant. 

 VACUOLES: A large membrane-bound sac that takes up a large amount of space in most
Plant Cells. It serves as a STORAGE AREA, and may contain stored proteins, ions, waste, or 
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other cell products. Vacuoles of some plants contain poison that discourages animals from
eating the plant's leaves.
Note: VACUOLES and VESICLES are similar in that both are storage organelles.
Generally, vacuoles are larger than vesicles. Plant cells generally have one large central
vacuole that takes up most of the space within the cell and is used for storage of all sorts of
molecules. Vesicles are small enough and mobile enough that they are often used to move
chemicals to other locations in the cell where they might be needed. Lysosomes are vesicles
involved in food digestion.
 CHLOROPLASTS: A type of PLASTID that converts sunlight into food for the cell (solar
energy into chemical energy) through PHOTOSYNTHESIS 
solar energy + H2O + CO2
C6H12O6 (sugar) + O2
chlorophyll
Each chloroplast encloses a system of flattened sacs where photosynthesis occurs.
Chloroplasts are green because they contain chlorophyll, a pigment that absorbs energy in
sunlight. They are found only in algae, such as seaweed, and in green plants.
Other PLASTIDS store reddish-orange pigments that color fruits, vegetables, flowers, and
autumn leaves.
TYPICAL ANIMAL & PLANT CELL DIAGRAMS
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CELLULAR ORGANIZATION
1. The presence or absence of a nucleus is important for classifying cells.

 organisms whose cell contain a nucleus and other membrane-bound organelles are
called EUKARYOTES. 
 organisms whose cells never contain a nucleus and other membrane-bound organelles
are called PROKARYOTES. 

2. Unicellular organisms such as bacteria and their relatives are PROKARYOTES.
3. All other organisms are EUKARYOTES - plants, fish, mammals, insects and humans.
4. The difference between Prokaryotes and Eukaryotes is such an important distinction that
Prokaryotes are placed in two Kingdoms, separate from Eukaryotes.
5. In Eukaryotic cells, most organelles are surrounded by a membrane. (Eukaryotic cells
generally have three main components: a cell membrane, a nucleus, and other organelles.)
6. Prokaryotic cells have NO MEMBRANE-BOUND organelles.
MULTICELLULAR ORGANIZATION
In a unicellular organism, one cell carries out all of the functions of life. In contrast, most cells in
a multicellular organism are specialized to perform one or a few functions. Because of cell
specialization, the cells of multicellular organisms depend on other cells in the organism for their
survival.
TISSUE, ORGANS, AND ORGAN SYSTEMS
1. In most multicellular organisms, we find the following organization:



 CELLULAR LEVEL: The smallest unit of life capable of carrying out all the functions
of living things. 
 TISSUE LEVEL: A group of cells that performs a specific function in an organism form
the tissue. 
 ORGAN LEVEL: Several different types of tissue that function together for a specific
purpose form an organ. 
 ORGAN SYSTEM LEVEL: Several organs working together to perform a function
make up an organ system. The different organ systems in a multicellular organism
interact to carry out the processes of life 

2. Plants also have tissue and organs, although they are arranged somewhat differently from
those of animals.


 DERMAL TISSUE SYSTEM forms the outer layer of a plant. 
 GROUND TISSUE SYSTEM makes up the bulk of roots and stems 
 VASCULAR TISSUE transports water and food throughout the plant 
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 The FOUR Plant Organs are ROOTS, STEMS, LEAVES AND FLOWERS. 
COLONIAL ORGANIZATIONS
1. A COLONIAL ORGANIZATION is a collection of GENETICALLY IDENTICAL CELLS
that live together in a closely connected group.
2. Many of the cells of the colony carry out specific functions that benefit the whole colony.
3. Colonial organisms appear to straddle the border between a collection of unicellular
organisms and a true multicellular organism. They lack tissues and organs, but do exhibit the
principle of cell specialization.
SUMMARY: COMPARISON OF PLANT AND ANIMAL CELLS
PLANT CELL
-
cell wall
-
ANIMAL CELL
no cell wall
-
vacuole: large volume (central)
-
numerous smaller vesicles
-
chloroplast
-
no chloroplasts
-
no centriole for cell division
-
centriole for cell division
Eukaryotes
Structures
Prokaryotes
√
Animal Cell
√
Plant Cell
√
Cytoplasm
√
√
√
Cell wall
√
Ribosomes
√
Cell membrane
√
√
√
ER
√
√
Nucleus
√
√
Lysosomes
√
Mitochondria
√
rare
√
Chloroplast
√
Large vacuole
√
Vesicles
√
√
Golgi complex
√
√
Cilia/flagella
√