Biology Pres - Cells & Tissues
Brooklyn Roberts
Created on February 1, 2024
Examination of the role cells and tissues play within the animals body.
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This interactive slideshow will include these topics:
- Description of the difference between prokaryotic cells and eukaryotic cells
- An examination of the role of cell organelles
- An explanation of the process and function of cell division
- Analysis of the structure and function of animal tissues
PRESENTATION By Aiden Roberts
The Role of Cells and Tissues Within the Body
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PRESENTATION
MICROPARTICLES
(Mokobi, Microbe Notes, 2023)
(Testbook, 2023)
(Buckley, 2020)
What's the difference?
Prokaryotic Cells vs. Eukaryotic cells
Eukaryotic cells, on the other hand, are cells that have membrane bound organelles and so they contain a nucleus. All the organisms within the Plantae, Animalia, Fungi and Protist kingdoms are composed of eukaryotic cells. The only organelle both prokaryotes and eukaryotes have in common are ribosomes, whose role is to synthesise proteins, which is a necessary function for all cells. Both eukaryotes and prokaryotes contain cytoplasm, whose function is to protect inner organelles against damage and both have an exterior plasma membrane which controls what substances enter and exit the cell. The main difference between these types of cells is that only eukaryotic cells possess a nucleus, which contains genetic material such as DNA and RNA. Prokaryotic cells contain a nucleoid instead, essentially a very simplified nucleus. A nucleus is essentially a control centre for the cell, determining all activities across the cell such as protein synthesis, growth, metabolism, reproduction and more.
Prokaryotic cells are the simplest form of a living organism. They have no membrane bound organelles and so these cells have no nucleus. They are unicellular or single-celled. Prokaryotes are classified as bacteria and archaea. Within the cell’s plasma membrane, contains loose DNA and ribosomes which, after the necessary biochemical reactions happen, produce the proteins needed to reproduce and gather nutrients. All other living organisms are composed of eukaryotic cells, multicellular organisms. As these prokaryotic cells are simpler than eukaryotic cells, they are much smaller than them, measuring at 0.1 to 5.0 micrometres in diameter (μm).
Function of each organelle
This page examines the role and functions of eukaryotic cell orgnelles.
Watch this video linked above, then tick which properties prokrayotic and eukarutoic cells have in common
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The differences are..
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Read this article from Anatomy & Physiology then answer these questions.
Examination of the roles of cell organelles
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Meiosis is the process of cell division that produces four haploid cells by halving the number of chromosomes in the original parent cell to ensure each cell is genetically distinct. All organisms that reproduce sexually must utilise the process of meiosis. Whereas, organisms that reproduce asexually utilise the mitosis approach. There are two stages of this process, the first where homologous chromosomes are separated and the second, where the sister chromatids are separated. Each stage has four steps. Meiosis ensures all organisms created via sexual reproduction contain the correct number of chromosomes.
Meiosis
Mitosis
- Mitosis splits a cell into 2 genetically identical daughter cells to the parent cell. This is vital to GROWTH and REPAIR within the body as without this process, cells would simply die and so the organisms would die. Mitosis is the only way an infant/baby can grow into an adult. All animal and plant life would cease to exist without it.
What are the key differences between the two processes of cell division?
The Process and functions of cell division
Learn more by clicking this link
Two new nuclei form, one from each set of chromosomes. New nuclear membranes and nucleoli appear. The cell is almost finished dividing as the mitotic spindle is broken down into its building blocks. The chromosomes expand and and return to their original stringy form.
The sister chromatids seperate from each other as the protein glue breaks down. Chromosomes from each pair are pulled to oppoiste ends of the cells. The microtubules not attached to any chromosomes start to seperate the poles and ultimately make the cell longer, by elongating themselves and pushing apart.
The mitotic spindle has caught all of the chromosomes and lines them up in what's termed the 'metaphase plate'. The kinetochores of each chromosome attaches to a microtubule from opposite side spindle poles.
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The transition period between prohase and metaphase. The chromosomes compact so much so that the nuclear envelope begins to break down. The mitotic spendle grows larger and begins to catch chromosomes.
The first stage of mitosis, the chromosomes within the cell start to condense. The mitotic spindle starts to form and the nucleolus starts to disappear.
- Prophase (early prophase)
- Prometaphase (late prophase)
- Metaphase
- Anaphase
- Telophase
Mitosis stages
In the first stage during prophase 1, chromosomes condense to become visible inside the nucleus. Each chromosome pairs itself with its homologous partner chromosome. Chromosomes then cross over, exchanging parts of their DNA to form unique combinations of alleles. Metaphase 1Spindles capture chromosomes and move them towards the centre of the cell or metaphase plate. Each chromosome attaches to one pole of the spindle but homologous binds to microtubules from opposite poles. The homologous pairs line up at the metaphase plate for separation. The orientation of the pairs are random to allow for different formations within the gametes. Anaphase 1 Homologues are separated and moved to opposite sides of the cell. Telophase 1 The chromosomes are at opposite poles of the cell. Cytokinesis occurs, which forms two haploid cells. Prophase 2 Chromosomes condense and the nuclear envelope breaks down. Centrosomes move away from each other, a spindle forms between, then spindle microtubules capture the chromosomes. The sister chromatids are captured from opposite poles of the spindle. Metaphase 2 The chromosomes line up along the metaphase plate.Anaphase 2The sister chromatids seperate and get moved to opposite poles of the cell. Telophase 2 New nuclear membranes form around each set of chromosomes. Cytokinesis splits the sets of chromosomes into new cells: four haploid cells where each chromosome contains only one chromatid.
Meiosis stages
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Analysis of the Structure and Functions of Animal Tissues
Structure and Function
Epithelial Tissue
Extra iNFO
The function of epithelial tissue differs depending on where it is located in the body.Protection - for example, the epidermis/outer layer of skin protects the deep tissue within the body such as blood vessels, muscle and internal organs. Another example is the cilia on the epithelial cells in the lining of the small intestine help protect against intestinal bacteria. Secretion - glandular epithelium secretes enzymes, hormones, and fluids of different types. Absorption - the epithelial lining of internal organs e.g. liver and lungs, allow the abortion of certain substances. For example, the internal epithelial lining of the intestines absorbs nutrients from the food eaten.Excretion - e.g. the epithelial tissue is the kidneys excrete waste. E.g. the epithelial tissue in sweat glands are responsible for excreting sweat.Filtration - the epithelium of the respiratory tract filters out particles and dirt, cleaning the air inhaled. Another example is the epithelial tissue in kidneys filtering blood. Diffusion - simple squamous epithelial cells form a membrane that allows selective diffusion of materials to pass through. Sensory reception - sensory nerve endings embedded within epithelial tissue allows the body to receive outside sensory stimuli. E.g. taste buds are embedded within the stratified squamous epithelium of a person's tongue. E.g. the stereocilia on the surface of the epithelial tissue in the inner ear help with hearing and balance. Text paraphrased from Professor Dave Explains (2018), Types of \tissue Part 1: Epithelial Tissue. Available at: https://www.youtube.com/watch?v=oe-Z9t0KBfU
Epithelial tissue - functions
Connective Tissue
Answer these questions to test your knowledge!
Extra Videos for Extra Information
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This video summarises and explains key basic aspects of the different structures and roles of the different types of connective tissues.
Conective Tissue - Video Summary
Cardiac Muscle
Smooth Muscle
Skeletal Muscle
There are 3 categories of muscle tissues, all structured differently and perform different functions vital to the survival of an animal's body!
Muscle tissue
Main Properties of the Different Types of Muscle Tissue
Muscle tissue
Cardiac muscle
Smooth muscle
Skeletal muscle
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Do you know what this 2% stands for?
Structure:Composed of 2 types of cells - neurons and glial cells. The neurons are electrically active and responsible for the communication within the nervous system. Neurons release chemical signals to target certain cells. Glial cells support the neurons within the nervous system. Some of these cells are phagocytic and help to protect against invasion by bacteria and others help to bind blood vessels to neurons to ensure nutrients are provided. Functions:Responsble for controlling and coordinating body activites The brain, spinal cord and nerves are made up of nervous tissue. Neurons are what makes the brain active and produce thoughts, as well as interpret information from outside stimuli. The cells have 3 main components - dendrites, cell body and axon.
2%
Structure and Function of Nervous Tissue
Nervous tissue
Just hover the mouse over the icon to see an overview of what the link is.
Helpful links to learn more
https://training.seer.cancer.gov/anatomy/cells_tissues_membranes/tissues/nervous.html https://opentextbc.ca/biology/chapter/14-2-animal-primary-tissues/#:~:text=Multicellular%2C%20complex%20animals%20have%20four,specialized%20functions%20within%20the%20body. https://open.oregonstate.education/aandp/chapter/4-4-muscle-tissue/ https://pressbooks-dev.oer.hawaii.edu/biology/chapter/animal-primary-tissues/#fig-ch33_02_12 References https://www.khanacademy.org/test-prep/mcat/cells/eukaryotic-cells/a/organelles-article https://biologydictionary.net/prokaryotic-cell/ – G. Buckley, 2020.https://www.khanacademy.org/science/biology/structure-of-a-cell/prokaryotic-and-eukaryotic-cells/a/prokaryotic-cells#:~:text=Typical%20prokaryotic%20cells%20range%20from,from%2010%20to%20100%20%CE%BCm. – Khan Academy https://testbook.com/biology/diagram-of-animal-cell – animal cell diagramhttps://byjus.com/biology/cell-organelles/#plasma_membranehttps://byjus.com/biology/difference-between-nucleus-and-nucleoid/#:~:text=A%20nucleus%20is%20a%20spherically,not%20found%20in%20a%20nucleoid.https://my.clevelandclinic.org/health/articles/22062-epithelium
References
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2020
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