A 2.2 Cell Theory_Microscopy.pdf

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Cell Theory & Microscopy
A 2.2

Cell Theory
▶

How do you think
these things were
discovered and/or
supported?

Consists of 3 basic principles
1.

All organisms are composed of one or more cells

⚫ Unicellular= one cell
⚫ Multicellular= 2 or more cells

Cell Theory
▶
▶
▶

Light microscope was invented in 1665
Cells for their name from Anton van Leeuwenhoek, who observed cork and noted
that each compartment looked like a tiny animal
Botanists and animal scientists confirmed this, noting that animal and plant
tissue seemed to be of independent and separate beings

Cell Theory
2.

How do you think
these things were
discovered and/or
supported?

Cells are the smallest units of life
⚫ Organelles within the cell carry out the different life functions

Cell Theory
▶
▶

Components of cell cannot survive independently
No one has found a living thing made of less that one
cell

Cell Theory
3.

All cells come from
preexisting cells
⚫ Cells multiply through cell
division

Human embryonic kidney
cells dividing

How do you think
these things were
discovered and/or
supported?

All Cells Come From Pre-Existing
Cells...
▶
▶

Louis Pasteur’s experiments showed that only flasks
open to the environment grew bacterial cultures
New cells only arise from existing cells

Exceptions to the Cell Theory
▶

However, there are some atypical examples…
1.

Human skeletal muscle cell - 100x longer than regular cells
and contain multiple nuclei

Multiple nuclei per
cell!

Very long in length!

Exceptions to the Cell Theory
2.

Giant algae - can grow very large (100mm), but are
composed of only one cell with one nucleus

No individual cell
units!
Exist as one giant cell
(up to several cm
long!)

Exceptions to the Cell Theory
3.

Aseptate fungi - hyphae not divided into sections (cells) but
contain many nuclei
Very large!

Continuous cytoplasm!

Multiple nuclei per cell!

Functions of life
▶

All cells (unicellular or multicellular)
perform the functions of life:
1.
2.
3.
4.
5.
6.
7.

Metabolism
Response to Stimuli
Nutrition
Growth
Excretion
Homeostasis
Reproduction

Are Viruses Living?
▶
▶
▶

No
Viruses do not carry out all of
the life functions
They must use cells to
reproduce

How do Paramecium Show Characteristics of Life?
▶

▶
▶
▶

Unicellular organism
from the kingdom
Protista
Clusters around food
particles
Has both food vacuole
and contractile vacuole
What characteristics of
life are demonstrated
by studying
paramecium?

Chlorella
▶

▶

▶

Single celled
organism with a large
chloroplast inside
Allows organism to
photosynthesize →
creating food
What would happen if
chlorella were stored
in dark place?

Cells & Cell Sizes
▶

Cells are small!
Some are
smaller than
others, but
most require
microscopes to
see them.

Microscopes
▶
▶
▶
▶

Inexpensive
Simple to use
Specimens may be living or
dead
Magnifies up to 2000x

Light Microscope

▶
▶
▶
▶
▶

Expensive
Complex instructions
Specimens must be dead
and fixed in plastic
Magnifies up to 500,000x
MORE detail

Electron Microscope

Cell Size & Magnification

Calculating Magnification
Magnification = size of image / actual size

(M=I/A)

Example: An image measured 60mm is actually 2 μm in size. What is the magnification of
the drawing?
**Remember, when you solve you need to convert to equal units!
Magnification has no units

Calculating Cell Size
Magnification = size of image / actual size (M = I/A)
So… Actual size = size of image / magnification (A = I/M)
Example: a sample has been magnified 5000 times and is drawn as 9mm. What is the
actual size?
...Remember, you need to convert units so that your numerical answer is a value
between 1 and 1000.

End of Part 1
Up next on Part 2: Limits to Cells Size, Cell Specialization
& Differentiation