CLASS CELL: THE FUNDAMENTAL UNIT OF LIFE. NOTES.
Cell is called the
fundamental unit of life. A cell is capable of independent existence and can
carry out all the functions which are necessary for a living being. A cell
carries out nutrition, respiration, excretion, transportation and reproduction;
the way an individual organism does. Unicellular organisms are capable of
independent existence which shows a cell’s capability to exist independently.
Due to this, a cell is called the fundamental and structural unit of life.
All living beings are
composed of the basic unit of life, i.e. cell.
CELL THEORY (Schleiden, Schwann and Virchow):
• All living organisms are composed of one or more cells. •
The cell is the basic unit of structure,
function, and organization in all organisms. •
All cells come from preexisting, living cells.
STRUCTURE OF CELL Shape and Size of
Cells:- Cells come in all shapes and sizes. While most of the cells are
spherical in shape, cells of various other shapes are also found. Most of the
cells are microscopic in size, i.e. it is impossible to see them with naked
eyes. Some cells are fairly large, e.g. a neuron in human body can be as long
as 1 meter. The egg of an ostrich is the largest known cell of a living animal
and an average egg is 15 cm long and 13 cm wide
. A cell is enclosed in a
membranous casing and is filled with a liquid substance which is called the cytoplasm.
There are many cell organelles in a typical cell. Some of the main structures
of a cell are as follows:
Cell wall: Cell wall is made of
cellulose. It is somewhat hard but permeable to most of the substances. Cell
wall is available in plant cells and in cells of bacteria and fungi.
Plasma membrane: Plasma membrane is a
semi-permeable membrane. It is composed of bilayer of lipid and protein.
Functions of Plasma Membrane: Plasma
membrane provides a container to the cytoplasm. It facilitates passage of various
substances in and out of the cell.
Nucleus: Nucleus is covered by double
membrane; called nuclear membrane. The fluid which is inside the nucleus is
called nucleoplasm. Nucleus contains chromosomes which are important for the
functioning of a cell. Chromosomes contain genes which are the carriers of
genetic information. Nucleus plays an important role during cell division.
Nucleus controls all the functions of the cell.
Prokaryotes and Eukaryotes:- Based on the
level of organization of nuclear material, a cell can be categorized as
prokaryote or eukaryote. In some organisms, the true nucleus is absent. This
means that the DNA and RNA are not bound by a membrane. Bacteria and blue green
algae are examples of prokaryotes.
When genetic materials are bound by a
membrane, it is termed as true nucleus. In this case, the cell is called
eukaryotic.
Organisms other than bacteria are eukaryotes.
Eukaryotes are considered as more advanced than prokaryotes.
Examples:
Algae,Fungi,Plants and Animals cells.
Mitochondria: Mitochondrion
is a capsule-like structure. It is a double membrane structure. Its inner
membrane is projected into numerous finger-like structures; called cristae.
Mitochondria are the sites of cellular respiration. After cellular respiration,
energy is stored in the form of ATP (Adenosine triphosphate); in mitochondria.
Mitochondria have their own DNA and ribosomes and hence mitochondria can
produce their own protein. Functions of Mitochondria:- Cellular
respiration; due to this, mitochondria are also known as the ‘powerhouse of the
cell’.
Endoplasmic
Reticulum: Endoplasmic reticulum is a mesh-like structure which is
composed of numerous tubes. It extends from the plasma membrane to the nuclear
membrane.
There are two kinds of
endoplasmic reticulum, viz. smooth ER and rough ER. Rough ER has ribosomes on
its surface which give it the rough appearance.
Function of ER: It
serves as the transport channel in the cell. Substances are transported from
cell membrane to cytoplasm and to nucleus and vice-versa. ER also serves the
role of packaging many substances in the cell.
Golgi Complex: Golgi Complex was
discovered by Camillo Golgi. It is composed of many sac-like structures which
are stacked one above another. Functions of Golgi Complex: Golgi complex
is responsible for packaging of various substances in the cell.
Lysosome: Lysosome are small sac-like
structures and they are derived from Golgi complex. Lysosome contains digestive
enzymes.
Functions of lysosome: The enzymes in the
lysosome digest foreign particles and thus destroy them. Sometimes, the
lysosome may burst open and its content ends up digesting the contents of the
cell. The cell gets killed in the process. Due to this, lysosome is also called
the ‘suicide bag of the cell’.
Ribosome: These are tiny dot like
structures interspersed in the cytoplasm and also on the surface of Rough ER.
Ribosome is responsible for protein synthesis. Plastids: These are
somewhat similar to mitochondria; in appearance.
Plastids are found in
plant cells. They are of two types, chromoplast and leucoplast. Colourful
plastids are called chromomplast and colourless plastids are called leucoplast.
Chloroplast is green in colour and is found in green parts of plants. Plastids
too have their own DNA and ribosome.
Functions of Plastids: Leucoplasts are
responsible for storing food; such as carbohydrates, protein and lipid.
Chromoplasts impart various colours to the
plant parts. A leaf of a plant is green in colour because of chloroplast.
Chloroplast is the site of photosynthesis.
Vacuoles: These are fluid filled chambers
and are often seen in many cells. Vacuoles are very large in plant cells. A
plant cell usually has single but large vacuole. Such a vacuole fills almost
the entire space inside the cell. Vacuoles are much smaller and very few in
animal cells.
HISTORY OF DISCOVERY OF CELLS
• Robert Hooke was
the first to discover cell (1665)
. • Leeuwenhoek was the
first to discover free living cells in pond water (1674)
. • Robert Brown
discovered the nucleus (1831).
• Purkinje coined the term ‘protoplasm (1839).
• Schleiden (1838) and Schwann (1839) proposed
the Cell Theory. Virchow (1855) made further addition to the cell theory
. • The discovery of
electron microscope (1940) made it possible to study the structures of cell
organelles.
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