This presentation covers basics of cell structure and functions of different cell organelles in detail with interactive illustrations. I hope this presentation will be beneficial for instructor's as well as students.
Continuation of the cell structure and function. This presentation highlights the cell cycle and concentrate on how cell division occur and the steps involved in cell dividing.
2018/2019
Most relevant information about the cell, its discovery, types and various kinds of organelles and their function. it also focus on how molecules are transported across the cell membrane.
2018/2019
Continuation of the cell structure and function. This presentation highlights the cell cycle and concentrate on how cell division occur and the steps involved in cell dividing.
2018/2019
Most relevant information about the cell, its discovery, types and various kinds of organelles and their function. it also focus on how molecules are transported across the cell membrane.
2018/2019
The cell is the basic structural, functional, and biological unit of all known organisms. A cell is the smallest unit of life. Cells are often called the "building blocks of life". The study of cells is called cell biology, cellular biology, or cytology.
In biology, tissue is a cellular organizational level between cells and a complete organ. A tissue is an ensemble of similar cells and their extracellular matrix from the same origin that together carry out a specific function. Broadly tissues can be classified into two major groups : Plant tissue and Animal tissue.
In animals, organs are made up of four basic types of tissues - epithelial tissue, connective tissue, muscle tissue and nerve tissue. These tissues have distinctive features and specific functions which combine to form functioning organs.
In this lesson you will learn about different types of animal tissues :
1) Epithelial Tissue
2) Connective Tissue
3) Muscular tissue
4) Neural Tissue
I hope this document is helpful to you. Please share the document with your friends if you think this will benefit them. Get ready for the next lesson. Thanks.
The word cell is derived from the Latin word “cellula” which means “a little room”
It was the British botanist Robert Hooke who, in 1664, while examining a slice of bottle cork under a microscope, found its structure resembling the box-like living quarters of the monks in a monastery, and coined the word “cells”
Cell as basic unit of life ppt 88 slidesICHHA PURAK
This Power point presentation describes Cell as basic unit of life. The slides provide information about Discovery of cell,cell theory,number,size,shape and cell types .Differentiates prokaryotic and eukaryotic cell types and point out major differences in plant and animal cell and also about structure and function of cell organelles
The cell is the basic structural, functional, and biological unit of all known organisms. A cell is the smallest unit of life. Cells are often called the "building blocks of life". The study of cells is called cell biology, cellular biology, or cytology.
In biology, tissue is a cellular organizational level between cells and a complete organ. A tissue is an ensemble of similar cells and their extracellular matrix from the same origin that together carry out a specific function. Broadly tissues can be classified into two major groups : Plant tissue and Animal tissue.
In animals, organs are made up of four basic types of tissues - epithelial tissue, connective tissue, muscle tissue and nerve tissue. These tissues have distinctive features and specific functions which combine to form functioning organs.
In this lesson you will learn about different types of animal tissues :
1) Epithelial Tissue
2) Connective Tissue
3) Muscular tissue
4) Neural Tissue
I hope this document is helpful to you. Please share the document with your friends if you think this will benefit them. Get ready for the next lesson. Thanks.
The word cell is derived from the Latin word “cellula” which means “a little room”
It was the British botanist Robert Hooke who, in 1664, while examining a slice of bottle cork under a microscope, found its structure resembling the box-like living quarters of the monks in a monastery, and coined the word “cells”
Cell as basic unit of life ppt 88 slidesICHHA PURAK
This Power point presentation describes Cell as basic unit of life. The slides provide information about Discovery of cell,cell theory,number,size,shape and cell types .Differentiates prokaryotic and eukaryotic cell types and point out major differences in plant and animal cell and also about structure and function of cell organelles
All living things are made of organized parts, obtain energy from their surroundings, perform chemical reactions, respond to their environment, grow and develop, change with time, and reproduce
All organisms are made of cells
All cells are produced from other cells (all cells arise from pre-existing cells by cell division)
The cell is the most basic unit of life
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Baroque art - SlideShare
Occupation: Visual Artist, Art Instructor
Works For: Art Studio
Oil on canvas. 18” x 16”. 37. France • France’s “sun king,” Louis XIV, preferred Classicism, and he created academies and teachers to perpetuate this Baroque style • The French Baroque is a more reserved style, toward Raphael The artists: • Nicholas Poussin - main exponent of Classical style in France.
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Baroque PowerPoint Template
Free baroque PowerPoint template is a simple free rose template background with a basic frame for PowerPoint presentations. This background template is a free rose template design for presentations that you can download for baroque presentations in PowerPoint. The renaissance PowerPoint background can also be used in rococo presentations, or classical presentatio
cell, in biology, the basic membrane-bound unit that contains the fundamental molecules of life and of which all living things are composed. A single cell is often a complete organism in itself, such as a bacterium or yeast. Other cells acquire specialized functions as they mature. These cells cooperate with other specialized cells and become the building blocks of large multicellular organisms, such as humans and other animals. Although cells are much larger than atoms, they are still very small. The smallest known cells are a group of tiny bacteria called mycoplasmas; some of these single-celled organisms are spheres as small as 0.2 μm in diameter (1μm = about 0.000039 inch), with a total mass of 10−14 gram—equal to that of 8,000,000,000 hydrogen atoms. Cells of humans typically have a mass 400,000 times larger than the mass of a single mycoplasma bacterium, but even human cells are only about 20 μm across. It would require a sheet of about 10,000 human cells to cover the head of a pin, and each human organism is composed of more than 30,000,000,000,000 cells.
similarities and differences between cells
similarities and differences between cells
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This article discusses the cell both as an individual unit and as a contributing part of a larger organism. As an individual unit, the cell is capable of metabolizing its own nutrients, synthesizing many types of molecules, providing its own energy, and replicating itself in order to produce succeeding generations. It can be viewed as an enclosed vessel, within which innumerable chemical reactions take place simultaneously. These reactions are under very precise control so that they contribute to the life and procreation of the cell. In a multicellular organism, cells become specialized to perform different functions through the process of differentiation. In order to do this, each cell keeps in constant communication with its neighbours. As it receives nutrients from and expels wastes into its surroundings, it adheres to and cooperates with other cells. Cooperative assemblies of similar cells form tissues, and a cooperation between tissues in turn forms organs, which carry out the functions necessary to sustain the life of an organism.
Consider how a single-celled organism contains the necessary structures to eat, grow, and reproduce
Consider how a single-celled organism contains the necessary structures to eat, grow, and reproduce
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Special emphasis is given in this article to animal cells, with some discussion of the energy-synthesizing processes and extracellular components peculiar to plants. (For detailed discussion of the biochemistry of plant cells, see photosynthesis. For a full treatment of the genetic events in the cell nucleus, see heredity.)
Bruce M. Alberts
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A cell is enclosed by a plasma membrane, which forms a selective barrier that allows nutrients to enter and waste products to l
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Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
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June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
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students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
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2. 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.
3. 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
2
3
All known living things are
made up of one or more cells.
All living cells arise from
pre-existing cells by division.
The cell is the basic unit of
structure and function in all
living organisms.
4. 1665
Cell Theory Timeline
Robert Hooke
Discovered cell
1674
Anton Van Leeuwenhoek
Observed living cell
1883
Robert Brown
Discovered nucleus
5. 1835
Felix Dujardin
Discovered fluid
content of cell
1838
Matthias Schleiden
Proposed all plants are
made up of cells
1839
J. E. Purkinje
Named fluid content of
cell as protoplasm
Cell Theory Timeline
6. 1839
Theodor Schwann
Proposed all animals
are made up of cells
1845
Carl Heinrich Braun
Proposed cell is the basic
unit of life
1855
Rudolf Virchow
Proposed all cells arise
from pre-existing cells
Cell Theory Timeline
10. Size of
Cells
Cells vary in size.
Most cells are very small
(microscopic), some may be
very large (macroscopic).
The unit used to measure size
of a cell is micrometer.
• Smallest cell
• Mycoplasma
• Size: 0.1 µm
• Largest cell
• Ostrich egg
• Size: 18 cm
1 µm = 1/1000 millimeter
11. Size of Cells in Humans
Smallest cell
Sperm cell
Size: 5 µm
Largest cell
Ovum cell
Size: 120 µm
Longest cell
Nerve cell
Size: 1 m
12. Shape of
Cells
Cells vary in shape.
Variation depends mainly upon
the function of cells.
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.
13. 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.
Compound
microscope
Magnification 2000X
Electron
microscope
Magnification 500000X
17. Structure
Of Cell
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.
1. Plasma Membrane
2. Nucleus
3. Cytoplasm
A. Cytosol
B. Cell Organelles
a) Endoplasmic reticulum
b) Golgi body
c) Lysosomes
d) Vacuoles
e) Mitochondria
f) Plastids
g) Centrosome
h) Cytoskeleton
18. Plasma Membrane
Carbohydrates
Proteins Lipids
• 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
19. Cell wall
Cellulose
Plasma membrane Hemicellulose
• Non-living and outermost covering of a cell
(plants & bacteria)
• Can be tough, rigid and sometimes flexible
• Made up of cellulose, hemicellulose and
pectin
• May be thin or thick, multilayered structure
• Thickness varies from 50-1000 A˚
Pectin
Functions:
• Provides definite shape, strength & rigidity
• Prevents drying up(desiccation) of cells
• Helps in controlling cell expansion
• Protects cell from external pathogens
20. • 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
Nucleus
21. Nucleus
Nucleolus
Chromatin
Nucleoplasm
Nuclear
envelope
Nuclear
pores
• Nucleus has a double layered covering called
nuclear membrane
• Nuclear membrane has pores of diameter
about 80-100 nm
• 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
22. • Chromosomes contain stretches of DNA
called genes
• Genes transfer the hereditary information
from one generation to the next
Nucleus
Chromosome
Chromatin fibre
Chromatin
Histone
DNAGene
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
23. • 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
Cytoplasm
Organelles
Cytoplasm
24. Endoplasmic
Reticulum
Rough ER
Ribosomes
• 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
Smooth ER
25. Trans face
• 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
Cis face
Cisternae
Lumen
Incoming
transport
vesicle
Outgoing
transport
vesicle
Newly
forming
vesicle
Golgi body
27. • 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
Lysosomes
MembraneHydrolytic enzymes
28. • Single membrane sac filled with liquid
or sap (water, sugar and ions)
• 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
Vacuoles
Vacuole
Tonoplast
29. • 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
Mitochondria
Outer membrane
Inner membrane
Ribosomes
Matrix
DNA
Cristae
30. 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.
31. Chromoplasts
Chromoplasts are plastids that
produce and store pigments
They are responsible for different
colours found in leaves, fruits,
flowers and vegetables.
Carrot
Pigment: Carotene
Mango
Pigment: Xanthophyll
Tomato
Pigment: Lycopene
32. Leucoplasts
Leucoplasts are colourless
plastids that store foods.
They are found in storage organs
such as fruits, tubers and seeds.
Potato tubers
Food: Starch
Maize grains
Food: Protein
Castor seeds
Food: Oil
33. • 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
Chloroplasts
Stroma
Granum
Inner
membrane
Outer
membrane
Thylakoid
34. • 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
Centrosome
Centrosome
matrix
Centrioles
Microtubules
35. • 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
Cytoskeleton
Cell membrane
Microtubules
Microfilaments
36. 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
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
Prokaryotic cell Eukaryotic cell
37. 1. Generally small in size
2. Cell wall is absent
3. Plastids are absent
4. Vacuoles are smaller in size
and less in number
5. Centrioles are present
1. Generally large in size
2. Cell wall is present
3. Plastids are present
4. Vacuoles are larger in size
and more in number
5. Centrioles are absent
Animal cell Plant cell