What is Cell?

Cell is the basic Structural and functional unit of living organisms.

In other words, cells make up living things and carry out activities that
keep a living thing alive.

Cell Theory

Cell theory is a collection of ideas. And conclusions from many different

scientists over time that describes cells and how cells operate.

1. All known living things are made up of one or more cells.

2. All living cells arise from pre-existing cells by division.
3. The cell is the basic unit of structure and function in all living
organisms.

Shape of Cells

1. Cells vary in shape.

2. Variation depends mainly upon the function of cells.
3. Some cells like Euglena and Amoeba can change their shape, but
most cells have a fixed shape.

 Human RBCs are circular biconcave for easy passage through

human capillaries.
 Nerve cells are branched to conduct impulses from one point to
another.
 Human WBCs can change their shape to engulf the microorganisms
that enter the body.

Structure Of Cell

 The detailed structure of a cell has been studied under compound

microscope and electron microscope.
 Certain structures can be seen only under an electron microscope.
 The structure of a cell as seen under an electron microscope is
called ultrastructure.

If we study a cell under a microscope, we would come across three

features in almost every cell: plasma membrane, nucleus and
cytoplasm,

All activities inside the cell and interactions of the cell with its
environment are possible due to these features.

Plasma Membrane
  Extremely delicate, thin, elastic, living and semi-permeable
membrane
 Made up of two layers of lipid molecules
 In which protein molecules are floating Thickness varies from 75-
110 A Can be observed under an electron microscope only

Functions:

 Maintains shape & size of the cell

 Protects internal contents of the cell
 Regulates entry and exit of substances in and out of the cell
 Maintains homeostasis

Nucleus

 Dense spherical body located near the centre of the cell

 Diameter varies from 10-25 µm
 Present in all the cells except red blood cells and sieve tube cells
 Well developed in plant and animal cells
 Undeveloped in bacteria and blue-green algae (cyanobacteria)
 Most of the cells are uninucleated (having only one nucleus)
 Few types of cells have more than one nucleus (skeletal muscle
cells)
 Nucleus has a double layered covering called nuclear membrane
 Nuclear membrane has pores of diameter about 80-100 mm
 Colourless dense sap present inside the nucleus known as
nucleoplasm
 Nucleoplasm contains round shaped nucleolus and network of
chromatin fibres
 Fibres are composed of deoxyribonucleic acid (DNA) and protein
histone
 These fibres condense to form chromosomes during cell division
 Chromosomes contain stretches of DNA called genes
 Genes transfer the hereditary information from one generation to
the next

Functions:
 Control all the cell activities like metabolism, protein synthesis,
growth and cell division
 Nucleolus synthesizes ribonucleic acid (RNA) to constitute ribosomes
 Store hereditary information in genes

Cytoplasm

 Jelly-like material formed by 80% of water

 Present between the plasma membrane and the nucleus
  Contains a clear liquid portion called cytosol and various particles
 Particles are proteins, carbohydrates, nucleic acids, lipids and
inorganic ions
 Also contains many organelles with distinct structure and function
 Some of these organelles are visible only under an electron
microscope
 Granular and dense in animal cells and thin in plant cells

Endoplasmic Reticulum

 Network of tubular and vesicular structures which are

interconnected with one another
 Some parts are connected to the nuclear membrane, while others
are connected to the cell membrane
 Two types: smooth(lacks ribosomes) and rough(studded with
ribosomes)

Functions:

 Gives internal support to the cytoplasm

 RER synthesize secretory proteins and membrane proteins
 SER synthesize lipids for cell membrane
 In liver cells SER detoxify drugs & poisons
 In muscle cells SER store calcium ions

Golgi Body

 Discovered by Camillo Golgi

 Formed by stacks of 5-8 membranous sacs
 Sacs are usually flattened and are called the cisternae
 Has two ends: cis face situated near the endoplasmic reticulum and
trans face situated near the cell membrane

Functions:

 Modifies, sorts and packs materials synthesized in the cell

 Delivers synthesized materials to various targets inside the cell and
outside the cell
 Produces vacuoles and secretory vesicles
 Forms plasma membrane and lysosomes

Lysosomes

 Small, spherical, single membrane sac

 Found throughout the cytoplasm
  Filled with hydrolytic enzymes
 Occur in most animal cells and in few type of plant cells

Functions:

 Help in digesting of large molecules

 Protect cell by destroying foreign invaders like bacteria and viruses
 Degradation of worn out organelles
 In dead cells perform autolysis

Vacuoles

 Single membrane sac filled with liquid or sap (water, sugar and lons)
 In animal cells, vacuoles are temporary, small in size and few in
number
 In plant cells, vacuoles are large and more.
 In number
 May be contractile or non-contractile

Functions:

 Store various substances including waste products

 Maintain osmotic pressure of the cell
 Store food particles in amoeba cells
 Provide turgidity and rigidity to plant cells

Mitochondria

 Small, rod shaped organelles bounded by two membranes inner and

outer
 Outer membrane is smooth and encloses the contents of
mitochondria
 Inner membrane is folded in the form of shelf like inward projections
called cristae
 Inner cavity is filled with matrix which contains many enzymes
 Contain their own DNA which are responsible for many enzymatic
actions

Functions:

 Synthesize energy rich compound ATP

 ATP molecules provide energy for the vital activities of living cells
Plastids

 Plastids are double membrane-bound organelles found inside plants

and some algae.
 They are responsible for activities related to making and storing
food.
 They often contain different types of pigments that can change the
colour of the cell.

Chromoplasts

Chromoplasts are plastids that produce and store pigments. They are
responsible for different colours found in leaves, fruits, flowers and
vegetables.

Leucoplasts

Leucoplasts are colourless plastids that store foods. They are found in
storage organs such as fruits, tubers and seeds.

Choloroplast

 Double membrane-bound organelles found mainly in plant cells

 Usually spherical or discoidal in shape
 Shows two distinct regions-grana and stroma
 Grana are stacks of thylakoids (membrane- bound, flattened discs)
 Thylakoids contain chlorophyll molecules which are responsible for
photosynthesis
 Stroma is a colourless dense fluid

Functions:

 Convert light energy into chemical energy in the form of food

 Provide green colour to leaves, stems and vegetables

Centrosome

 Centrosome is the membrane bound organelle present near the

nucleus
 Consists of two structures called centrioles
 Centrioles are hollow, cylindrical structures made of microtubules
 Centrioles are arranged at right angles to each other

Functions:
  Form spindle fibres which help in the movement of chromosomes
during cell division
 Help in the formation of cilia and flagella

Cytoskeleton

 Formed by microtubules and microfilaments

 Microtubules are hollow tubules made up of protein called tubulin
 Microfilaments are rod shaped thin filaments made up of protein
called actin

Functions:

 Determine the shape of the cell

 Give structural strength to the cell
 Responsible for cellular movements

Prokaryotic cell

1. Nucleus is undeveloped
2. Only one chromosome is present
3. Membrane bound organelles are absent
4. Size ranges from 0.5-5 µm
5. Examples: Bacteria and blue green algae

Eukaryotic cell

1. Nucleus is well developed

2. More than one chromosomes are present
3. Membrane bound organelles are present
4. Size ranges from 5-100 µm
5. Examples: All other organisms

CELL THEORY

 Cells are the basic units of living organisms.

 The cell theory states that:
 All living things are made of one or more cells.
 Cells are the basic unit of structure and function in living things.
 All cells come from other cells.
 CELL TYPES

 Two categories:
1. Cell that have

membrane-bound organelles

 Called Eukaryotic Cells

2. Cells that do not have membrane-bound organelles

 called prokaryotic cells

 Unicellular organisms such as bacteria
are examples of prokaryotes.

Cell Types
 Eukaryotic cells-
 Cells that contain organelles which are
held together by membranes
 Examples include plant and animal cells.

Eukaryotic Cell Structure

 The plasma membrane/cell

membrane
 the flexible boundary of a
cell
 separates a cell from its
surroundings
Plasma Membrane/Cell Membrane continued:
 allows nutrients to enter the cell and
waste to be removed
 This is referred to as selective permeability.
*(Selective=Chooses, Permeability=filter
through)*
 keeping a healthy balance of
nutrients and water within the cell
is called homeostasis

Overview of Organelles
 Nucleus-
Largest organelle in the cell and it is the most inner compartment

of the cell
 contains chromatin (DNA); genetic information on strands called
chromosomes
 “control center” for cell metabolism and reproduction
 Chromatin- Directions on how to make proteins
 Nucleolus- Found inside nucleus; ribosomes are made here
 Ribosomes- make proteins (made up of RNA and protein);
thought of as “factories”
 Cytoplasm- clear gel like fluid inside the cell, which suspends
all organelles
 Endoplasmic Reticulum- extensive network of
membranes
 Rough ER: with ribosomes
 Smooth ER: with no visible ribosomes
 Golgi
 Apparatus-
Lysosomes- sorts
organelles thatproteins made by
are filled the ribosomes and
with
sends them to needed places in the cell
digestive enzymes to remove waste and invading
bacteria
 Mitochondria- often referred to as the
“powerhouse” of the cell
 release energy for the cell
 It converts the energy stored in glucose into ATP for the cell
 Vacuoles- fluid filled organelles enclosed by a
membrane
Eukaryotic plant cell
 Plant cells are also
Eukaryotic cells, but
plant cells contain
some organelles that
are not found in
animal cells.
Plant Cell Organelles
 Cell wall- rigid wall outside the plasma membrane.
It provides the cell with extra support.
 Chloroplasts- captures light and energy; and
converts it into chemical energy.
 Chlorophyll- green pigment found inside the
chloroplast.
 Plastids- organelles that store things such as food in
the plant cell.