Transcript bio_ch05
5.5 Multicellular Life
Activate Prior Knowledge
Look at one of your hands.
What are some of the different ypes of cells in your
hand? Those making up skin, hair, fingernails,
muscle, bone, blood, nerves
• Are the cells in the trunk of your body any different?
similar types of cells, but in addition, many more
associated with internal organs
•Discuss differentiation as how cells are different and
how they are allocated.
5.5 Multicellular Life
FLT
• Describe the specialization in multicellular
organisms.
• Identify different types of stem cells.
5.5 Multicellular Life
KEY CONCEPT
Cells work together to carry out complex
functions.
5.5 Multicellular Life
Multicellular organisms depend on interactions among
different cell types.
CELL
TISSUE
leaf
stem
vascular
tissue
ORGAN
lateral
roots
primary
root
root system
• Tissues are groups of cells that perform
a similar function.
• Organs are groups of tissues that
perform a specific or related function.
• Organ systems are groups of organs
that carry out similar functions.
shoot system
SYSTEMS
5.5 Multicellular Life
Specialized cells perform specific functions.
• Cells develop into their mature forms through the process
of cell differentiation.
• Cells differ because different combinations of genes are
expressed.
• A cell’s location in an embryo helps determine how it will
differentiate.
Outer: skin cells
Middle: bone cells
Inner: intestines
5.5 Multicellular Life
Power Notes
Organ systems: organs that carry out similar
functions
Organs: groups of tissues that work together
to perform similar or related functions
Tissues: groups of cells that work together to
perform a similar function
5.5 Multicellular Life
Power Notes
Cells: smallest, most basic structural unit of
life; typically become specialized
homeostasis: maintained by the
interaction of different organ systems that
coordinate the body’s functions
5.5 Multicellular Life
Stem cells are unique body cells.
• Stem cells have the ability to
– divide and renew themselves
– remain undifferentiated in form
– develop into a variety of specialized cell types
5.5 Multicellular Life
• Stem cells are classified into three types.
– totipotent, or growing into any other cell type
– pluripotent, or growing into any cell type but a totipotent
cell
– multipotent, or growing into cells of a closely related cell
family
5.5 Multicellular Life
• Stem cells come from adults and embryos.
– Adult stem cells can be hard to isolate and grow.
– The use of adult stem cells may prevent transplant
rejection.
– The use of embryonic
stem cells raises
ethical issues
– Embryonic stem cells
are pluripotent and
can be grown indefinitely
in culture.
First, an egg is fertilized by a sperm cell in a petri dish. The egg divides, forming
an inner cell mass. These cells are then removed and grown with nutrients.
Scientists try to control how the cells specialize by adding or removing certain
molecules.
5.5 Multicellular Life
• The use of stem cells offers many currently realized and
potential benefits.
– Stem cells are used to treat leukemia and lymphoma.
– Stem cells may cure disease or replace damaged
organs.
– Stem cells may revolutionize the drug development
process.
5.5 Multicellular Life
Power Notes
Defining characteristics:
1. Ability to divide and renew themselves for
long periods of time
2. Remain undifferentiated in form
3. Can develop into a variety of specialized
cell types.
5.5 Multicellular Life
Power Notes
Possible uses: treat patients with leukemia
and lymphoma, may help cure diabetes,
repair or replace damaged organs, and
improve current drug testing techniques
5.5 Multicellular Life
Power Notes
Origin:
1. Adult stem cells; partially undifferentiated
cells located among the specialized cells of
many organs and tissues.
2. Embryonic stem cells: taken from clusters
of undifferentiated cells in a 3–to-5–day-old
embryo; pluripotent; can be grown
indefinitely in culture
5.5 Multicellular Life
Power Notes
Potential:
1. Totipotent: can grow into any other cell type;
includes only a fertilized egg and cells resulting
from the first few divisions
2. Pluripotent: can grow into any cell type other
than a totipotent stem cell
3. Multipotent: can only grow into cells of a closely
related family of cells