All the living organisms on this Earth are made up of microscopic units called cells. It is a basic structural unit for all the organisms. The cells are the building block of all the living organisms. Our body is composed of trillion of cells. They carry out the functional activities of our life. A cell can be defined as a basic, structural and functional unit of life capable of independent existence. The cell was first discovered by Robert Hooke in 1665 AD. The study of the cell is called cell biology.
As we know that all the living organisms are made up of cells. These cells are developed as a result of a division of pre- existing cells. All the cells are same in chemical composition and metabolic processes. The function of an organism as a whole is the outcome of combined activities and interactions of the constituent cells. The cell is known as the fundamental, structural and functional unit of life.
The cells are divided into two parts depending upon the presence of the nuclear organization. They are the prokaryotic and eukaryotic cell. Prokaryotic is a type of biological cell that do not have a cell nucleus. It also lacks some of the other membrane-bound organelles like mitochondria, endoplasmic reticulum, lysosome, etc. Some of the examples of prokaryotic cells include the cells of bacteria, blue- green algae, etc. Eukaryotic is a type of biological cell that consists a well-organized nucleus. These types of cell are found in most of the plants and animals. It consists all the membrane-bound organelles.
Cells are of different shapes and size. Some cells are polygonal, cubical, elongated, oval, rectangular etc. There is a great variation in shape and sizes of the cell. Most of the cells are tiny and microscopic whereas only a few cells are macroscopic. The smallest cell is mycoplasma size ranging from 0.5 to 5 μm and largest cell known is the egg of an ostrich. Its size is 170 \(\times\) 135 nm. Some organisms are made up of single cell whereas some organisms are made up of more than one cell. Those organisms which are made up of a single cell are called unicellular organisms. Some of the examples of unicellular organisms are paramecium, amoeba, protozoa, bacteria etc. Those organisms which are made up of more than one cell is called multicellular organisms. Some of the examples of multicellular organisms are plants and animals.
Cells of same organisms have the same type of cell but the cells of different organisms are different in structure. But all the cells shows the same basic structures which are discussed below,
It is the outermost part of the cells. It is absent in animal cells. It acts as a protective layer in plant cells. It is made up of cellulose. The cell wall is located outside the plasma membrane. The cell wall is freely permeable in nature. The cell wall is capable of growth and is metabolically active. Some of the functions of cell wall are discussed below,
Cell membrane or plasma membrane is a double- layer membrane made up of lipid and proteins molecules. The plasma membrane separates the outside and inside content of the cell. It is a living, elastic and delicate membrane. In the animal cell, it acts as an outermost and in the plant cell, it is found below the cell wall. It is a thin semi- permeable membrane that allows only selected substances to enter or leave the cell. Some of the function of plasma membrane are discussed below,
It is a jel- like fluid that lies between the cell membrane and nuclear membrane. It is also known as protoplasm. It protects the internal component of the cell by keeping them separate from each other. It contains various important substances like proteins, nucleic acids, water, enzymes, carbohydrates, sodium and potassium salts. Some of the functions of cytoplasm are discussed below,
It is located in the centre of the cell. The nucleus is present in the eukaryotic cell but present in the prokaryotic cell. It is like the brain of the cell. The nucleus is mostly round or spherical in shape. It contains other parts like a nuclear membrane, nucleoplasm, nucleolus, and chromatin network. The nucleus is bound by a double membrane known as the nuclear membrane. The nuclear membrane is also called as nuclear envelope. Nucleoplasm is a transparent semifluid substance containing nucleolus, chromatin network, and various enzymes. The chromatin fibre is a thread- like structure that becomes chromosomes after cell division that is responsible for carrying hereditary information. The nucleolus is a dense, spherical granule found inside the nucleus. It contains RNA and proteins. Some of the functions of nucleus are discussed below,
It is the extensive membrane system in the cytoplasm. It is filled with fluid lumen. It is a flattened membrane bound tubules. One end of the endoplasmic reticulum is connected to the nuclear membrane and another end is connected with the endoplasmic reticulum. About 50% of the total space of the cell or cytoplasm is covered by endoplasmic reticulum. There are two types of the endoplasmic reticulum. They are smooth endoplasmic reticulum and rough endoplasmic reticulum. In rough endoplasmic reticulum, there is a presence of ribosomes but in smooth endoplasmic reticulum, the ribosomes are absent. Some of the functions of endoplasmic reticulum are discussed below,
The mitochondria is a double membrane-bound cellular structure found in the cytoplasm. It is enclosed by an outer membrane and an inner membrane which are made of phospholipids and proteins. It takes part in various metabolic activities. Mitochondria are of different shapes like spherical, rod- shaped or thread- like. The cell needs energy to perform various metabolic activities. This energy is provided by the mitochondria. Mitochondria are known as the powerhouse of the cell. Some of the functions of mitochondria are discussed below,
They are minute small particles found in the cytoplasm. Ribosomes are protein synthesizer of the cell. Ribosomes are freely suspended in the cytoplasm or attached to the endoplasmic reticulum (rough endoplasmic reticulum). They are composed of RNA and protein. Some of the functions of ribosomes are discussed below,
They are present in the eukaryotic cells. They are the set of membrane-bound fluid- filled vesicles, tubules, and vacuoles. They are found near the nucleus in the cytoplasm. Some of the functions of golgi complex are discussed below,
Lysosomes are tiny sacs filled with fluid containing various enzymes. These enzymes are responsible for the digestion of all types of substances including damaged cells or dead cells. They are also known as suicidal bags of the cell. They are enclosed by a single membrane. They are manufactured by the golgi complex. Some of the functions of lysosomes are discussed below,
Vacuoles are non- living,membrane-enclosed fluid filled sac present in the structure. Vacuoles are larger in size and less in number in plant cells whereas in the animal cell they are smaller in size but are found more in number. The fluid of vacuoles contains both inorganic and organic molecules like organic acids, minerals, carbohydrate etc including water. Some of the functions of vacuoles are discussed below,
Plastids are double membrane bound organelles found in the plant cells. They are the major organelles found in the plant cell. Plastids are of three types. They are chloroplast, chromoplast, and leucoplast.
The chloroplast is responsible for photosynthesis. They are also known as green plastids. They are found in leaves, young stem, sepal and young fruits. They are responsible for the synthesis of food. They are also known as 'kitchens of the cells'.
Chromoplast is found in flowers, fruit and ageing leaves. They are colourful plastids as they provide different colour. They contain various colour pigments like red, yellow and orange.
Leucoplasts are non- pigmented or colourless plastids. They are found in non- photosynthetic parts like roots. When leucoplast is exposed to light it changes into the chloroplast. Some of the functions of plastids are discussed below,
They are only found inside the eukaryotic cells. They are a small naked protoplasmic structure that is located near the nucleus of animal cells. It consists of two centrioles. Some of the functions of centrosomes are discussed below,
Write any three vital molecules that are found in the cytoplasm.
Any three vital molecules found in the cytoplasm are water, oxygen and carbohydrate.
Write any three differences between animal cell and plant cell.
Any three differences between plant cell and animal cell are given below in table,
|Animal cell||Plant cell|
|Cell wall is absent.||Cell wall is present.|
|It is smaller in size.||It is bigger in size.|
|Centrosome is present.||Centrosome is absent.|
Define unicellular organisms and multi- cellular organisms. Give two examples of each.
Those organisms which are made up of single cell is known as unicellular organisms. Any two examples of unicellular organisms are amoeba and paramecium.
Those organisms which are made up of many cells are called multicellular organisms. Any two examples of multicellular organisms are butterfly and sponge.
Write the functions of the cell membrane, centrosome and mitochondria.
The function of cell membrane, centrosome and mitochondria are given below,
What are the three types of plastids. Mention their function.
There are the three types of plastids. They are chloroplast, chromoplast and leucoplast. Their functions are discussed below,
Define prokaryotic and eukaryotic cell with two examples of each.
Prokaryotic is a type of biological cell that do not have a cell nucleus. Some of the examples of prokaryotic cells include the cells of bacteria and blue- green algae.
Eukaryotic is a type of biological cell that consists a well-organized nucleus. Some of the examples of eukaryotic cells include the cells of fungi and animals.
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