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Cell-Structure
andFunction
By Anya Rakhecha
The cell is the basic structural and
functional unit of all known
living organisms. It is the smallest unit
of life that is classified as a living thing
(except virus, which consists only from
DNA/RNA covered
by protein and lipids), and is often
called the building block of
life. Organisms can be classified
as unicellular (consisting of a single cell;
including most bacteria)
or multicellular (including plants
and animals). Humans contain about
10 trillion (1013) cells. Most plant and
animal cells are between 1 and
100 µm and therefore are visible only
under the microscope.
Cell structure and function
Cell structure and function
The cell was discovered by Robert Hooke in 1665. The cell
theory, first developed in 1839 by Matthias Jakob Schleiden and
Theodor Schwann, states that all organisms are composed of oneor
more cells, that all cells come from pre-existing cells, that vital
functions of an organism occur within cells, and that all cells contain
the hereditary information necessary for regulating cell functions and
for transmitting information to the next generation of cells. The
word cell comes from the Latin cella, meaning "small room". The
descriptive term for the smallest living biological structure was
coined by Robert Hooke in a book he published in 1665 when he
compared the cork cells he saw through his microscope to the small
rooms monks lived in.
1665: Robert Hooke discovers cells in cork, then in living plant tissue using an early
compound microscope.
1839: Theodor Schwann and Matthias Jakob Schleiden elucidate the principle that plants
and animals are made of cells, concluding that cells are a common unit of structure and
development, and thus founding the cell theory.
1855: Rudolf Virchow states that cells always emerge from cell divisions (omnis cellula ex
cellula).
1859: The belief that life forms can occur spontaneously (generatio spontanea) is
contradicted by Louis Pasteur (1822–1895) (although Francesco Redi had performed an
experiment in 1668 that suggested the same conclusion).
1931: Ernst Ruska builds first transmission electron microscope (TEM) at the University of
Berlin. By 1935, he has built an EM with twice the resolution of a light
microscope, revealing previously unresolvable organelles.
1953: Watson and Crick made their first announcement on the double-helix structure for
DNA on February 28.
1981: Lynn Margulis published Symbiosis in Cell Evolution detailing the endosymbiotic
theory.
Therearetwotypesofcells:eukaryoticandprokaryotic.
Prokaryoticcellsareusuallyindependent,while
eukaryoticcellscaneitherexistasasinglecelledorganism
orbefoundinmulticellularorganisms.
The prokaryote cell is simpler, and therefore smaller, than a eukaryote
cell, lacking a nucleus and most of the other organelles of eukaryotes.
There are two kinds of prokaryotes: bacteria and archaea; these share a
similar structure.The nuclear material of a prokaryotic cell consists of a
single chromosome that is in direct contact with the cytoplasm. Here, the
undefined nuclear region in the cytoplasm is called the nucleoid.
Plants, animals, fungi, slime moulds, protozoa, and algae are all eukaryotic. These
cells are about 15 times wider than a typical prokaryote and can be as much as
1000 times greater in volume. The major difference between prokaryotes and
eukaryotes is that eukaryotic cells contain membrane-bound compartments in
which specific metabolic activities take place. Most important among these is
a cell nucleus, a membrane-delineated compartment that houses the eukaryotic
cell's DNA. This nucleus gives the eukaryote its name, which means "true
nucleus."
Cell structure and function
Cell structure and function
Membrane
The cytoplasm of a cell is surrounded by a cell membrane or plasma membrane. The
plasma membrane in plants and prokaryotes is usually covered by a cell wall. This
membrane serves to separate and protect a cell from its surrounding environment
and is made mostly from a double layer of lipids(hydrophobic fat-like molecules)
and hydrophilic phosphorus molecules. Hence, the layer is called a phospholipids
bilayer, or sometimes a fluid mosaic membrane. Embedded within this membrane is
a variety of protein molecules that act as channels and pumps that move different
molecules into and out of the cell. The membrane is said to be 'semi-permeable', in
that it can either let a substance (molecule or ion) pass through freely, pass through
to a limited extent or not pass through at all. Cell surface membranes also
contain receptor proteins that allow cells to detect external signalling molecules
such as hormones.
The cytoplasm is the gel-like substance residing within the cell membrane holding
all the cell's internal sub-structures (called organelles), outside the nucleus. All the
contents of the cells of prokaryote organisms (such as bacteria, which lack a cell
nucleus) are contained within the cytoplasm. Within the cells
of eukaryote organisms the contents of the cell nucleus are separated from the
cytoplasm, and are then called the nucleoplasm, The cytoplasm is about 70% to
90% water and usually colourless.
In cell biology, a mitochondrion (plural mitochondria) is a membrane-
enclosed organelle found in most eukaryotic cells.These organelles range from 0.5
to 1.0 micrometer (μm) in diameter. Mitochondria are sometimes described as
"cellular power plants" because they generate most of the cell's supply
of adenosine triphosphate (ATP), used as a source of chemical energy.
•Cell nucleus –A cell's information center, the cell nucleus is the most conspicuous
organelle found in a eukaryotic cell. It houses the cell's chromosomes, and is the place
where almost all DNA replication and RNA synthesis (transcription) occur. The nucleus is
spherical and separated from the cytoplasm by a double membrane called the nuclear
envelope. The nuclear envelope isolates and protects a cell's DNA from various
molecules that could accidentally damage its structure or interfere with its processing.
During processing, DNA is transcribed, or copied into a special RNA, called messenger
RNA (mRNA). This mRNA is then transported out of the nucleus, where it is translated
into a specific protein molecule. The nucleolus is a specialized region within the nucleus
where ribosome subunits are assembled. In prokaryotes, DNA processing takes place in
the cytoplasm.
Organelles
The human body contains many different organs, such as the heart, lung, and
kidney, with each organ performing a different function. Cells also have a set of "little
organs," called organelles, that are adapted and/or specialized for carrying out one or
more vital functions. Both eukaryotic and prokaryotic cells have organelles but
organelles in eukaryotes are generally more complex and may be membrane bound.
There are several types of organelles in a cell. Some (such as the nucleus and golgi
apparatus) are typically solitary, while others (such
as mitochondria, peroxisomes and lysosomes) can be numerous (hundreds to
thousands). The cytosol is the gelatinous fluid that fills the cell and surrounds the
organelles.
Chloroplasts are organelles found in plant cells and some
other eukaryotic organisms. Their functions include conducting photosynthesis, and
in some algae, lipid synthesis. Photosynthesis is their main function, where
chloroplasts capture the sun's light energy, and store it in the energy storage
molecules ATP and NADPH while breaking down water molecules.
They then use the ATP and NADPH to make organic molecules from carbon
dioxide and free oxygen from water, in a process known as the Calvin cycle.
Golgi apparatus – eukaryotes only : The primary function of the Golgi
apparatus is to process and package the macromolecules such as proteins
and lipids that are synthesized by the cell.
Ribosome's: The ribosome is a large complex of RNA and protein molecules.
They each consist of two subunits, and act as an assembly line where RNA from
the nucleus is used to synthesise proteins from amino acids. Ribosome's can be
found either floating freely or bound to a membrane (the rough endoplasmatic
reticulum in eukaryotes, or the cell membrane in prokaryotes).
Vacuoles: Vacuoles store food and waste. Some vacuoles store extra water. They are
often described as liquid filled space and are surrounded by a membrane. Some
cells, most notably Amoeba, have contractile vacuoles, which can pump water out of
the cell if there is too much water. The vacuoles of eukaryotic cells are usually larger
in those of plants than animals.
Cell wall
Many types of prokaryotic and eukaryotic cell have a cell wall. The cell wall acts to
protect the cell mechanically and chemically from its environment, and is an
additional layer of protection to the cell membrane. Different types of cell have cell
walls made up of different materials; plant cell walls are primarily made up of
pectin, fungi cell walls are made up of chitin and bacteria cell walls are made up of
peptidoglycan.
Cell structure and function
1.Plant cells are larger than animal cells.
2.Plant cells have chloroplasts unlike animal cells
3.Plant cells have a cell wall unlike animal cells.
4.Animal cells have a lot of lysosomes unlike plant cells.
5.Animal cells have a centrosome unlike plant cells
6.Plant cells have plasticids unlike animal cells
7.Vacuoles are conspicuous in plant cells than animal cells i.e. large central vacuole
in plant cells
8. Animal cells can be phagocytic (engulf other cells) unlike plant cells
9.Cells of Higher plants lack centrioles unlike animal cells.
10.Plant cells have plasmodesmata which links pores in the cell wall allow and
communication between adjacent cells unlike animal cells.
The following are a differences between Plant cells and Animal
cells:
Red blood cells, or erythrocytes, are the most common type of blood cell and
the vertebrate organism's principal means of delivering oxygen (O2) to the body
tissues via the blood flow through the circulatory system. They take up oxygen in
the lungs or gills and release it while squeezing through the body's capillaries.
These cells' cytoplasm is rich in haemoglobin, an iron-containing biomolecule that
can bind oxygen and is responsible for the blood's red colour.
In humans, mature red blood cells are oval and flexible biconcave disks. They lack
a cell nucleus and most organelles to accommodate maximum space for
haemoglobin. 2.4 million new erythrocytes are produced per second. The cells
develop in the bone marrow and circulate for about 100–120 days in the body
before their components are recycled by macrophages. Each circulation takes
about 20 seconds. Approximately a quarter of the cells in the human body are red
blood cells.
White blood cells, or leukocytes (also spelled "leucocytes"; from the Greek
word leuko- meaning "white"), are cells of the immune system involved in
defending the body against both infectious disease and foreign materials.
Five different and diverse types of leukocytes exist, but they are all produced
and derived from a multipotent cell in the bone marrow known as
a hematopoietic stem cell. They live for about three to four days in the average
human body. Leukocytes are found throughout the body, including
the blood and lymphatic system.
Tissue is a cellular organizational level intermediate between cells and a
complete organism. A tissue is an ensemble of similar cells and from the
same origin, that together carry out a specific function. These are called tissues
because of their identical functioning. Organs are then formed by the
functional grouping together of multiple tissues.
In biology, an organ is a collection of tissues joined in a structural unit to serve a
common function.There is a "main" tissue, parenchyma, and "sporadic"
tissues, stroma. The main tissue is the one that is unique for the specific organ. For
example, the main tissue in the heart is the myocardium, while sporadic tissues
include the nerves, blood and connective tissues. Functionally related organs often
cooperate to form whole organ systems. Organs exist in all higher biological
organisms, in particular they are not restricted to animals, but can also be identified
in plants.
Cell structure and function

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SIM INFORMATION SYSTEM: REVOLUTIONIZING DATA MANAGEMENT
 

Cell structure and function

  • 2. The cell is the basic structural and functional unit of all known living organisms. It is the smallest unit of life that is classified as a living thing (except virus, which consists only from DNA/RNA covered by protein and lipids), and is often called the building block of life. Organisms can be classified as unicellular (consisting of a single cell; including most bacteria) or multicellular (including plants and animals). Humans contain about 10 trillion (1013) cells. Most plant and animal cells are between 1 and 100 µm and therefore are visible only under the microscope.
  • 5. The cell was discovered by Robert Hooke in 1665. The cell theory, first developed in 1839 by Matthias Jakob Schleiden and Theodor Schwann, states that all organisms are composed of oneor more cells, that all cells come from pre-existing cells, that vital functions of an organism occur within cells, and that all cells contain the hereditary information necessary for regulating cell functions and for transmitting information to the next generation of cells. The word cell comes from the Latin cella, meaning "small room". The descriptive term for the smallest living biological structure was coined by Robert Hooke in a book he published in 1665 when he compared the cork cells he saw through his microscope to the small rooms monks lived in.
  • 6. 1665: Robert Hooke discovers cells in cork, then in living plant tissue using an early compound microscope. 1839: Theodor Schwann and Matthias Jakob Schleiden elucidate the principle that plants and animals are made of cells, concluding that cells are a common unit of structure and development, and thus founding the cell theory. 1855: Rudolf Virchow states that cells always emerge from cell divisions (omnis cellula ex cellula). 1859: The belief that life forms can occur spontaneously (generatio spontanea) is contradicted by Louis Pasteur (1822–1895) (although Francesco Redi had performed an experiment in 1668 that suggested the same conclusion). 1931: Ernst Ruska builds first transmission electron microscope (TEM) at the University of Berlin. By 1935, he has built an EM with twice the resolution of a light microscope, revealing previously unresolvable organelles. 1953: Watson and Crick made their first announcement on the double-helix structure for DNA on February 28. 1981: Lynn Margulis published Symbiosis in Cell Evolution detailing the endosymbiotic theory.
  • 8. The prokaryote cell is simpler, and therefore smaller, than a eukaryote cell, lacking a nucleus and most of the other organelles of eukaryotes. There are two kinds of prokaryotes: bacteria and archaea; these share a similar structure.The nuclear material of a prokaryotic cell consists of a single chromosome that is in direct contact with the cytoplasm. Here, the undefined nuclear region in the cytoplasm is called the nucleoid.
  • 9. Plants, animals, fungi, slime moulds, protozoa, and algae are all eukaryotic. These cells are about 15 times wider than a typical prokaryote and can be as much as 1000 times greater in volume. The major difference between prokaryotes and eukaryotes is that eukaryotic cells contain membrane-bound compartments in which specific metabolic activities take place. Most important among these is a cell nucleus, a membrane-delineated compartment that houses the eukaryotic cell's DNA. This nucleus gives the eukaryote its name, which means "true nucleus."
  • 12. Membrane The cytoplasm of a cell is surrounded by a cell membrane or plasma membrane. The plasma membrane in plants and prokaryotes is usually covered by a cell wall. This membrane serves to separate and protect a cell from its surrounding environment and is made mostly from a double layer of lipids(hydrophobic fat-like molecules) and hydrophilic phosphorus molecules. Hence, the layer is called a phospholipids bilayer, or sometimes a fluid mosaic membrane. Embedded within this membrane is a variety of protein molecules that act as channels and pumps that move different molecules into and out of the cell. The membrane is said to be 'semi-permeable', in that it can either let a substance (molecule or ion) pass through freely, pass through to a limited extent or not pass through at all. Cell surface membranes also contain receptor proteins that allow cells to detect external signalling molecules such as hormones.
  • 13. The cytoplasm is the gel-like substance residing within the cell membrane holding all the cell's internal sub-structures (called organelles), outside the nucleus. All the contents of the cells of prokaryote organisms (such as bacteria, which lack a cell nucleus) are contained within the cytoplasm. Within the cells of eukaryote organisms the contents of the cell nucleus are separated from the cytoplasm, and are then called the nucleoplasm, The cytoplasm is about 70% to 90% water and usually colourless. In cell biology, a mitochondrion (plural mitochondria) is a membrane- enclosed organelle found in most eukaryotic cells.These organelles range from 0.5 to 1.0 micrometer (μm) in diameter. Mitochondria are sometimes described as "cellular power plants" because they generate most of the cell's supply of adenosine triphosphate (ATP), used as a source of chemical energy.
  • 14. •Cell nucleus –A cell's information center, the cell nucleus is the most conspicuous organelle found in a eukaryotic cell. It houses the cell's chromosomes, and is the place where almost all DNA replication and RNA synthesis (transcription) occur. The nucleus is spherical and separated from the cytoplasm by a double membrane called the nuclear envelope. The nuclear envelope isolates and protects a cell's DNA from various molecules that could accidentally damage its structure or interfere with its processing. During processing, DNA is transcribed, or copied into a special RNA, called messenger RNA (mRNA). This mRNA is then transported out of the nucleus, where it is translated into a specific protein molecule. The nucleolus is a specialized region within the nucleus where ribosome subunits are assembled. In prokaryotes, DNA processing takes place in the cytoplasm. Organelles The human body contains many different organs, such as the heart, lung, and kidney, with each organ performing a different function. Cells also have a set of "little organs," called organelles, that are adapted and/or specialized for carrying out one or more vital functions. Both eukaryotic and prokaryotic cells have organelles but organelles in eukaryotes are generally more complex and may be membrane bound. There are several types of organelles in a cell. Some (such as the nucleus and golgi apparatus) are typically solitary, while others (such as mitochondria, peroxisomes and lysosomes) can be numerous (hundreds to thousands). The cytosol is the gelatinous fluid that fills the cell and surrounds the organelles.
  • 15. Chloroplasts are organelles found in plant cells and some other eukaryotic organisms. Their functions include conducting photosynthesis, and in some algae, lipid synthesis. Photosynthesis is their main function, where chloroplasts capture the sun's light energy, and store it in the energy storage molecules ATP and NADPH while breaking down water molecules. They then use the ATP and NADPH to make organic molecules from carbon dioxide and free oxygen from water, in a process known as the Calvin cycle.
  • 16. Golgi apparatus – eukaryotes only : The primary function of the Golgi apparatus is to process and package the macromolecules such as proteins and lipids that are synthesized by the cell. Ribosome's: The ribosome is a large complex of RNA and protein molecules. They each consist of two subunits, and act as an assembly line where RNA from the nucleus is used to synthesise proteins from amino acids. Ribosome's can be found either floating freely or bound to a membrane (the rough endoplasmatic reticulum in eukaryotes, or the cell membrane in prokaryotes).
  • 17. Vacuoles: Vacuoles store food and waste. Some vacuoles store extra water. They are often described as liquid filled space and are surrounded by a membrane. Some cells, most notably Amoeba, have contractile vacuoles, which can pump water out of the cell if there is too much water. The vacuoles of eukaryotic cells are usually larger in those of plants than animals. Cell wall Many types of prokaryotic and eukaryotic cell have a cell wall. The cell wall acts to protect the cell mechanically and chemically from its environment, and is an additional layer of protection to the cell membrane. Different types of cell have cell walls made up of different materials; plant cell walls are primarily made up of pectin, fungi cell walls are made up of chitin and bacteria cell walls are made up of peptidoglycan.
  • 19. 1.Plant cells are larger than animal cells. 2.Plant cells have chloroplasts unlike animal cells 3.Plant cells have a cell wall unlike animal cells. 4.Animal cells have a lot of lysosomes unlike plant cells. 5.Animal cells have a centrosome unlike plant cells 6.Plant cells have plasticids unlike animal cells 7.Vacuoles are conspicuous in plant cells than animal cells i.e. large central vacuole in plant cells 8. Animal cells can be phagocytic (engulf other cells) unlike plant cells 9.Cells of Higher plants lack centrioles unlike animal cells. 10.Plant cells have plasmodesmata which links pores in the cell wall allow and communication between adjacent cells unlike animal cells. The following are a differences between Plant cells and Animal cells:
  • 20. Red blood cells, or erythrocytes, are the most common type of blood cell and the vertebrate organism's principal means of delivering oxygen (O2) to the body tissues via the blood flow through the circulatory system. They take up oxygen in the lungs or gills and release it while squeezing through the body's capillaries. These cells' cytoplasm is rich in haemoglobin, an iron-containing biomolecule that can bind oxygen and is responsible for the blood's red colour. In humans, mature red blood cells are oval and flexible biconcave disks. They lack a cell nucleus and most organelles to accommodate maximum space for haemoglobin. 2.4 million new erythrocytes are produced per second. The cells develop in the bone marrow and circulate for about 100–120 days in the body before their components are recycled by macrophages. Each circulation takes about 20 seconds. Approximately a quarter of the cells in the human body are red blood cells.
  • 21. White blood cells, or leukocytes (also spelled "leucocytes"; from the Greek word leuko- meaning "white"), are cells of the immune system involved in defending the body against both infectious disease and foreign materials. Five different and diverse types of leukocytes exist, but they are all produced and derived from a multipotent cell in the bone marrow known as a hematopoietic stem cell. They live for about three to four days in the average human body. Leukocytes are found throughout the body, including the blood and lymphatic system.
  • 22. Tissue is a cellular organizational level intermediate between cells and a complete organism. A tissue is an ensemble of similar cells and from the same origin, that together carry out a specific function. These are called tissues because of their identical functioning. Organs are then formed by the functional grouping together of multiple tissues. In biology, an organ is a collection of tissues joined in a structural unit to serve a common function.There is a "main" tissue, parenchyma, and "sporadic" tissues, stroma. The main tissue is the one that is unique for the specific organ. For example, the main tissue in the heart is the myocardium, while sporadic tissues include the nerves, blood and connective tissues. Functionally related organs often cooperate to form whole organ systems. Organs exist in all higher biological organisms, in particular they are not restricted to animals, but can also be identified in plants.