Unit_1_Cell_structure_function.pdf

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Unit-1: Introduction to Biology
Lecture 1
 Cell Structure
& Function

http://koning.ecsu.ctstateu.edu/cell/cell.html
 Lecture outline

1. History of cell study
2. Basic attributes of cells
3. Cell structures
I. The history of cell study

A. Robert Hooke—1665—coined the word cell,
looked at cork cells
B. Antonie van Leeuwenhoek
Created optics that could visualize single
cells
His technology “lost” for nearly 200 years
 C. Robert Brown—1831—discovered the
"nucleus"
 I. The history of cell study

 D. Theodor Schwann—1838—viewed animal
cells in cartilage
 1. Cells are the elementary particles of
plants and animals
 E. Mattias Schleiden—Cells are the
fundamental basis of life
 F. Virchow—1858—All cells come from cells
I. The history of cell study

 F. Cell theory
1. All
living things are composed of one or
more cells
What about viruses?
 2. Cells are the basic unit of structure
and function
 3. All cells come from preexisting cells
 Definition of Cell

A cell is the smallest unit that is capable of
performing life functions.
Examples of Cells

Amoeba Proteus

Plant Stem

Bacteria

Red Blood Cell

Nerve Cell
 Two Types of Cells

Prokaryotic
Eukaryotic
 Prokaryotic
 Do not have structures surrounded by
membranes
 Few internal structures
 One-celled organisms, Bacteria

http://library.thinkquest.org/C004535/prokaryotic_cells.html
 Eukaryotic

 Contain organelles surrounded by membranes
 Most living organisms
Plant Animal

http://library.thinkquest.org/C004535/eukaryotic_cells.html
 “Typical” Animal Cell

http://web.jjay.cuny.edu/~acarpi/NSC/images/cell.gif
 “Typical” Plant Cell

http://waynesword.palomar.edu/images/plant3.gif
 Plant or Animal Cell?

Found in Plant and Animal cells: Found only in
Plant
Cells:
Nucleus
Chloroplasts
Golgi Complex
Mitochondrion
Cell Wall
Lyosomes
Endoplasmic
Reticulum
Cell Membrane
Ribosomes
Vacuoles
Cell Parts
Organelles
Surrounding the Cell
 Cell Membrane

 Outer membrane
of cell that
controls movement
in and out of the
cell
 Double layer

http://library.thinkquest.org/12413/structures.html
Cell Wall

 Most commonly
found in plant
cells & bacteria
 Supports &
protects cells

http://library.thinkquest.org/12413/structures.html
Inside the Cell
Nucleus

 Directs cell activities
 Separated from cytoplasm by nuclear
membrane
 Contains genetic material - DNA
 Nuclear Membrane

 Surrounds nucleus
 Made of two layers
 Openings allow
material to enter and
leave nucleus

http://library.thinkquest.org/12413/structures.html
 Chromosomes
 In nucleus
 Made of DNA
 Contain
instructions
for traits &
characteristics

http://library.thinkquest.org/12413/structures.html
 Nucleolus

 Inside nucleus
 Contains RNA to
build proteins

http://library.thinkquest.org/12413/structures.html
Cytoplasm

 Gel-like mixture
 Surrounded by cell membrane
 Contains hereditary material
Endoplasmic Reticulum
 Moves materials
around in cell
 Smooth type:
lacks ribosomes
 Rough type
(pictured):
ribosomes
embedded in
surface

http://library.thinkquest.org/12413/structures.html
 Ribosomes

 Each cell contains
thousands
 Make proteins
 Found on ribosomes
& floating throughout
the cell

http://library.thinkquest.org/12413/structures.html
 Mitochondria

 Produces energy through
chemical reactions –
breaking down fats &
carbohydrates
 Controls level of water and
other materials in cell
 Recycles and decomposes
proteins, fats, and
carbohydrates

http://library.thinkquest.org/12413/structures.html
 Golgi Bodies

 Protein 'packaging
plant'
 Move materials
within the cell
 Move materials out
of the cell

http://library.thinkquest.org/12413/structures.html
 Lysosome

 Digestive 'plant' for
proteins, fats, and
carbohydrates
 Transports undigested
material to cell
membrane for removal
 Cell breaks down if
lysosome explodes

http://library.thinkquest.org/12413/structures.html
Vacuoles

 Membrane-bound
sacs for storage,
digestion, and waste
removal
 Contains water
solution
 Help plants maintain
shape

http://library.thinkquest.org/12413/structures.html
Chloroplast

 Usually found in plant
cells
 Contains green
chlorophyll
 Where photosynthesis
takes place

http://library.thinkquest.org/12413/structures.html
MACROmolecules
The Big Four
Why are Macromolecules important
to the Human Body?
Macromolecules are essential to the
functioning of the human body.
✓ Carbohydrates are the body’s main source of
energy.
✓ Lipids provide stored energy reserves. This
allows us to survive when carbohydrates are not
being supplied to the body.
✓ Protein helps us stay strong, by forming new
bones and muscles, and helping us fight
diseases.
✓ Nucleic acids are responsible for making each
person functional and unique; they are the
blueprint for our genetic structure.
Objectives
Learn Basic Structure and Function of:
 Carbohydrates
 Lipids
 Protein
 Nucleic Acids

…And Learn The Role of Enzyme
Catalysts!
 Carbohydrates
Are the main
energy source of
the body!
Carbohydrates are formed of carbon,
hydrogen, and oxygen atoms with a
ratio of 1:2:1.

The two categories of
carbohydrates include
sugar and starch.
Glucose is an
example of a
simple sugar.
Carbohydrates are composed of
saccharides
The smallest unit of saccharides is a
monosaccharide. (“Mono” = one)

Monosaccharides are also
referred to as Simple Sugars
Monosaccharides combine together to form
disaccharides (“Di” = two)

Examples:
Lactose & Sucrose
Monosaccharides can also form larger
carbohydrates such as:

Oligosaccharides are chains of 3-10
monosaccharides. (“Oligo” = few)
Polysaccharides are the largest unit of
carbohydrates (“Poly” = many)

Polysaccharides are referred to as
complex carbohydrates

Starches are polysaccharide chains
made from 300 - 1000 glucose units
 Carbohydrate Breakdown

Enzymes in the mouth, stomach,
and small intestine, breakdown
the carbohydrate molecules.

These large complex
carbohydrate molecules
breakdown into simple sugars.
How Does The Breakdown Occur?

Our bodies use special protein molecules
called enzymes to break the larger
molecules into smaller pieces.

Enzymes Are Catalysts
[Catalysts are chemicals that quicken a
chemical reaction without undergoing any
change themselves]
 The Role of Enzymes
 Activation Energy is the energy needed to start a reaction.

 An enzyme is a protein catalyst that speeds up biological
reactions by lowering the activation energy!

 Some life processes are too slow when they occur on their
own,
but enzymes help speed them up!
 The Role of Enzymes
Each enzyme is very specific and only attaches to
one type of molecule.

The molecule the enzyme acts upon is called its
substrate.

Variables that impact
enzyme activity:

1. Temperature

2. pH
Protein

Proteins are nutrients which contain materials the
body uses for growth and repair.

Proteins are made of Carbon, Hydrogen, Oxygen
and Nitrogen.

Proteins are large molecules made up of
combinations of amino acids.
Amino Acids Peptides Polypeptides
Protein

Lysine is an
example of an
Amino Acid

 Amino acids are the building blocks of proteins.
 These building blocks bond together to form chains that are
called peptides.
 Proteins are formed of combinations of large peptides
chains, this is referred to as polypeptides.
 In order for the body to use
protein, enzymes in the stomach
and small intestine break the
polypeptides down into individual
amino acids.
Lipids Lipids function as stored
energy, insulation for the
body, and assist absorption of
certain vitamins.

Lipids are large molecules that
can be categorized as fats or
oils.

Lipids are composed of
triglycerides.

These molecules are made up
of carbon, hydrogen, and
oxygen atoms.
 Triglycerides

Glycerol + 3 Fatty Acids → Triglyceride

Chain of Triglycerides → Lipid
Lipid Breakdown

Bile and enzymes in the small intestine
break lipids down into small molecules
of fatty acids and glycerol.
 Nucleic Acids

❖ Stores and Carries Genetic Information

❖ Composed of Nucleotides

❖ Unlike the other macromolecules,
nucleic acids are not obtained from food

Deoxyribonucleic Acid (aka DNA)
Is a Nucleic Acid!
 NUCLEOTIDES
All nucleic acids are made from
combinations of nucleotides.
There are five nucleotides:
uracil, cytosine, thymine, adenine,
and guanine
Nucleotides are made of
three parts:

1. A five-carbon sugar

2. A base that has
nitrogen (N) atoms

3. An ion of phosphoric
acid known as
phosphate (PO43-)
YOUTUBE Break!

Molecules Gone
Wild (Bio Style!)
 Thank you

Dr. Tarun Pal
Assistant Professor
School of Bioengineering and Food Technology
Shoolini University, Village- Bajhol, Solan (H.P)
[email protected]