Cells and Tissues Lecture Presentation PDF
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Florence-Darlington Technical College
Patty Bostwick-Taylor
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Summary
This lecture presentation covers the structure and function of cells and tissues in the human body. It details cell anatomy, including the plasma membrane, nucleus, and cytoplasm, along with the functions of various organelles such as mitochondria and ribosomes. The presentation also discusses cell junctions and the overall organization of cellular components.
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Essentials of Human Anatomy & Physiology i eenth Edition Global Edition Chapter 3 Cells and Tissues Lecture Presentation by Patty Bostwick-Taylor...
Essentials of Human Anatomy & Physiology i eenth Edition Global Edition Chapter 3 Cells and Tissues Lecture Presentation by Patty Bostwick-Taylor Florence-Darlington Technical College Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Pa I: Cells One Cells are the structural units of all living things e human body has 50 to 100 trillion cells ey car out the metabolism activities needed to sustain life, and they divide to form or repair tissues Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Ove iew of the Cellular Basis of Life Most cells are composed of four elements: 1. Carbon 2. Hydrogen 3. Oxygen 4. Nitrogen Cells are about 60% water Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Anatomy of a Generalized Cell In general, a cell has three main regions or pa s: 1. Plasma membrane 2. Nucleus 3. Cytoplasm Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (1 of 9) Transparent barrier for cell contents Contains cell contents Separates cell contents from surrounding environment Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (2 of 9) Fluid mosaic model is constructed of: – Two layers of phospholipids arranged “tail to tail” – Cholesterol and proteins scattered among the phospholipids – Sugar groups may be attached to the phospholipids, forming glycolipids Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.1 Structure of the Plasma Membrane Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (3 of 9) Phospholipid arrangement in the plasma membrane – Hydrophilic (“water loving”) polar “heads” are oriented on the inner and outer su aces of the membrane – Hydrophobic (“water fearing”) nonpolar “tails” form the center (interior) of the membrane ▪ is interior makes the plasma membrane relatively impermeable to most water-soluble molecules Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (4 of 9) Role of proteins – Responsible for specialized membrane functions: ▪ Enzymes ▪ Receptors for hormones or other chemical messengers ▪ Transpo as channels or carriers Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (5 of 9) Role of sugars – Glycoproteins are branched sugars attached to proteins that abut the extracellular space – Glycocalyx is the fuzzy, sticky, sugar-rich area on the cell’s su ace Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (6 of 9) Cell membrane junctions – Cells are bound together in three ways: 1. Glycoproteins in the glycocalyx act as an adhesive or cellular glue 2. Wavy contours of the membranes of adjacent cells t together in a tongue-and-groove fashion 3. Special cell membrane junctions are formed, which va structurally depending on their roles Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (7 of 9) Main types of cell junctions – Tight junctions ▪ Impermeable junctions ▪ Bind cells together into leakproof sheets ▪ Plasma membranes fuse like a zipper to prevent substances from passing through extracellular space between cells Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (8 of 9) Main types of cell junctions – Desmosomes ▪ Anchoring junctions, like rivets, that prevent cells from being pulled apa as a result of mechanical stress ▪ Created by buttonlike thickenings of adjacent plasma membranes Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Plasma Membrane (9 of 9) Main types of cell junctions – Gap junctions (communicating junctions) ▪ Allow communication between cells ▪ Hollow cylinders of proteins (connexons) span the width of the abutting membranes ▪ Molecules can travel directly from one cell to the next through these channels Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.2 Cell Junctions Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Nucleus (1 of 4) Control center of the cell Contains genetic material known as deoxyribonucleic acid, or DNA – DNA is needed for building proteins – DNA is necessa for cell reproduction ree regions: 1. Nuclear envelope (membrane) 2. Nucleolus 3. Chromatin Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.3a Anatomy of the Generalized Animal Cell Nucleus Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.3b Anatomy of the Generalized Animal Cell Nucleus Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Nucleus (2 of 4) Nuclear envelope (membrane) – Consists of a double membrane that bounds the nucleus – Contains nuclear pores that allow for exchange of material with the rest of the cell – Encloses the jellylike uid called the nucleoplasm Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Nucleus (3 of 4) Nucleolus – Nucleus contains one or more dark-staining nucleoli – Sites of ribosome assembly – Ribosomes migrate into the cytoplasm through nuclear pores to se e as the site of protein synthesis Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Nucleus (4 of 4) Chromatin – Composed of DNA wound around histones (proteins) – Scattered throughout the nucleus and present when the cell is not dividing – Condenses to form dense, rodlike bodies called chromosomes when the cell divides Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (1 of 12) e cellular material outside the nucleus and inside the plasma membrane Site of most cellular activities Includes cytosol, inclusions, and organelles Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.3a Anatomy of the Generalized Animal Cell Nucleus Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (2 of 12) ree major component of the cytoplasm 1. Cytosol: Fluid that suspends other elements and contains nutrients and electrolytes 2. Inclusions: Chemical substances, such as stored nutrients or cell products, that oat in the cytosol 3. Organelles: Metabolic machine of the cell that pe orm functions for the cell ▪ Many are membrane-bound, allowing for compa mentalization of their functions Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.4 Structure of the Generalized Cell Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (3 of 12) Mitochondria – “Powerhouses” of the cell – Mitochondrial wall consists of a double membrane with cristae on the inner membrane – Car out reactions in which oxygen is used to break down food into ATP molecules Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (4 of 12) Ribosomes – Made of protein and ribosomal RNA – Sites of protein synthesis in the cell – Found at two locations: ▪ Free in the cytoplasm ▪ Attached to the rough endoplasmic reticulum Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (5 of 12) Endoplasmic reticulum (ER) – Fluid- lled tunnels (or canals) that car substances within the cell – Continuous with the nuclear membrane – Two types: ▪ Rough ER ▪ Smooth ER Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (6 of 12) Endoplasmic reticulum (ER) – Rough endoplasmic reticulum ▪ Studded with ribosomes ▪ Synthesizes proteins ▪ Transpo vesicles move proteins within cell ▪ Abundant in cells that make and expo proteins Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.5 Synthesis and Expo of a Protein by the Rough ER (1 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.5 Synthesis and Expo of a Protein by the Rough ER (2 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.5 Synthesis and Expo of a Protein by the Rough ER (3 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.5 Synthesis and Expo of a Protein by the Rough ER (4 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.5 Synthesis and Expo of a Protein by the Rough ER (5 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (7 of 12) Endoplasmic reticulum (ER) – Smooth endoplasmic reticulum ▪ Lacks ribosomes ▪ Functions in lipid metabolism ▪ Detoxi cation of drugs and pesticides Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (8 of 12) Golgi apparatus – Appears as a stack of attened membranes associated with tiny vesicles – Modi es and packages proteins arriving from the rough ER via transpo vesicles – Produces di erent types of packages ▪ Secreto vesicles (pathway 1) ▪ In-house proteins and lipids (pathway 2) ▪ Lysosomes (pathway 3) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.6 Role of the Golgi Apparatus in Packaging the Products of the Rough ER (1 of 2) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (9 of 12) Lysosomes – Membranous “bags” that contain digestive enzymes – Enzymes can digest worn-out or nonusable cell structures – House phagocytes that dispose of bacteria and cell debris Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (10 of 12) Peroxisomes – Membranous sacs of oxidase enzymes ▪ Detoxify harmful substances such as alcohol and formaldehyde ▪ Break down free radicals (highly reactive chemicals) ▪ Free radicals are conve ed to hydrogen peroxide and then to water – Replicate by pinching in half or budding from the ER Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (11 of 12) Cytoskeleton – Network of protein structures that extend throughout the cytoplasm – Provides the cell with an internal framework that determines cell shape, suppo s organelles, and provides the machine for intracellular transpo – ree di erent types of elements form the cytoskeleton: 1. Micro laments (largest) 2. Intermediate laments 3. Microtubules (smallest) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.7 Cytoskeletal Elements Suppo the Cell and Help to Generate Movement Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. e Cytoplasm (12 of 12) Centrioles – Rod-shaped bodies made of nine triplets of microtubules – Generate microtubules – Direct the formation of mitotic spindle during cell division Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Table 3.1 Pa s of the Cell: Structure and Function (1 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Table 3.1 Pa s of the Cell: Structure and Function (2 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Table 3.1 Pa s of the Cell: Structure and Function (3 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Table 3.1 Pa s of the Cell: Structure and Function (4 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Table 3.1 Pa s of the Cell: Structure and Function (5 of 5) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Extensions Su ace extensions found in some cells – Cilia move materials across the cell su ace ▪ Located in the respirato system to move mucus – Flagella propel the cell ▪ e only agellated cell in the human body is sperm – Microvilli are tiny, ngerlike extensions of the plasma membrane ▪ Increase su ace area for absorption Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8g Cell Diversity (1 of 2) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (1 of 8) e human body houses over 200 di erent cell types Cells va in size, shape, and function – Cells va in length from 1 /12,000 of an inch to over 1 yard (ne e cells) – Cell shape re ects its specialized function Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (2 of 8) Cells that connect body pa s – Fibroblast ▪ Secretes cable-like bers – E throcyte (red blood cell) ▪ Carries oxygen in the bloodstream Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8a Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (3 of 8) Cells that cover and line body organs – Epithelial cell ▪ Packs together in sheets ▪ Intermediate bers resist tearing during rubbing or pulling Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8b Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (4 of 8) Cells that move organs and body pa s – Skeletal muscle and smooth muscle cells ▪ Contractile laments allow cells to sho en forcefully Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8c Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (5 of 8) Cell that stores nutrients – Fat cells ▪ Lipid droplets stored in cytoplasm Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8d Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (6 of 8) Cell that ghts disease – White blood cells, such as the macrophage (a phagocytic cell) ▪ Digests infectious microorganisms Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8e Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (7 of 8) Cell that gathers information and controls body functions – Ne e cell (neuron) ▪ Receives and transmits messages to other body structures Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8f Cell Diversity Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Diversity (8 of 8) Cells of reproduction – Oocyte (female) ▪ Largest cell in the body ▪ Divides to become an emb o upon fe ilization – Sperm (male) ▪ Built for swimming to the egg for fe ilization ▪ Flagellum acts as a motile whip Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Figure 3.8g Cell Diversity (2 of 2) Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed. Cell Physiology Cells have the ability to: – Metabolize – Digest food – Dispose of wastes – Reproduce – Grow – Move – Respond to a stimulus Copyright © 2022 Pearson Education, Ltd. All Rights Rese ed.