Hole s Human Anatomy and Physiology Tenth Edition. Chapter 3

PowerPoint Lecture Outlines to accompany Hole s Human Anatomy and Physiology Tenth Edition Shier w Butler w Lewis Chapter 3 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 3-1

A Composite Cell Is a hypothetical cell Cells are differentiated (suited for their particular purpose) Examples Neurons Muscle cells Sperm Egg 3-3

Cells.. 3 Fundamental pieces needed in a cell Plasma membrane: phospholipid bilayer Proteins Cholesterol Cytoplasm Everything within the cell membrane except for Nucleus Contains hereditary information

Cell Membrane outer limit of cell controls what moves in and out of cell selectively permeable phospholipid bilayer water-soluble heads form surfaces water-insoluble tails form interior permeable to lipid-soluble substances cholesterol stabilizes the membrane proteins receptors: receive information pores, channels, carriers: allow materials to pass through enzymes: speed up chemical reactions CAMS: cell adhesion molecules self-markers: ID the cell as part of the organism 3-4

Cell Membrane 3-5

The Fluid mosaic model The components of the cell membrane are all moving randomly, switching positions

Intercellular Junctions Tight junctions close space between cells located among cells that form linings Desmosomes form spot welds between cells located among outer skin cells Gap junctions tubular channels between cells located in cardiac muscle cells 3-6

Cell Adhesion Molecules guide cells on the move selectin allows white blood cells to anchor integrin guides white blood cells through capillary walls important for growth of embryonic tissue important for growth of nerve cells 3-7

Movements Into and Out of the Cell Passive (Physical) Processes require no cellular energy simple diffusion facilitated diffusion osmosis filtration Active (Physiological) Processes require cellular energy active transport endocytosis exocytosis transcytosis 3-14

3-15 Simple Diffusion movement of substances from regions of higher concentration to regions of lower concentration oxygen, carbon dioxide and lipid-soluble substances

3-16 Facilitated Diffusion diffusion across a membrane with the help of a channel or carrier molecule glucose

Cells and Solutions Cells have many materials dissolved in their cytoplasm, as does the extracellular environment around the cell. Water may move in or out of the cell in response to the concentration of these materials, called solutes. Nature works to dilute solutions by moving water where there is a high concentration of solute and low water in comparison to an adjacent area.

Solutions Solvent: does the dissolving usually water in living things Solute: gets dissolved in the solvent can be just about anything, but common ones include Salts Ions sugars

Tonicity Hypertonic: when the solute concentration is higher than the surrounding environment Hypotonic: when the solute concentration is lower than the surrounding environment Isotonic: when the solute concentration is the same as the surrounding environment

Osmosis movement of water through a selectively permeable membrane from regions of higher concentration to regions of lower concentration water moves toward a higher concentration of solutes 3-17

Cells and Solutes (a)a cell is placed in a hypertonic solution; cell shrinks (b)a cell is placed in a hypotonic solution; cell swells

3-18 Osmosis & Pressure Osmotic Pressure ability of osmosis to generate enough pressure to move a volume of water Osmotic pressure increases as the concentration of nonpermeable solutes increases hypertonic higher osmotic pressure hypotonic lower osmotic pressure isotonic same osmotic pressure

hypotonic lower osmotic pressure: cells swell Tonicity and RBCs hypertonic higher osmotic pressure: cells shrink isotonic same osmotic pressure: cells remain the same size

3-19 Filtration smaller molecules are forced through porous membranes hydrostatic pressure important in the body Ex: molecules leaving blood capillaries

Active Transport carrier molecules transport substances across a membrane from regions of lower concentration to regions of higher concentration sugars, amino acids, sodium ions, potassium ions, etc. 3-20

3-21 Endocytosis cell engulfs a substance by forming a vesicle around the substance three types pinocytosis substance is mostly water phagocytosis substance is a solid receptor-mediated endocytosis requires the substance to bind to a membrane-bound receptor

Endocytosis 3-22

Exocytosis reverse of endocytosis substances in a vesicle fuse with cell membrane contents released outside the cell Ex: release of neurotransmitters from nerve cells 3-23

3-24 Transcytosis endocytosis followed by exocytosis transports a substance rapidly through a cell Ex: HIV crossing a cell layer

Questions you must answer. You may use the transport mechanisms animations on the Bio II page to do so. When asked to compare and contrast, things you may want to think about include: Think in terms of types of materials involved (size, polarity, etc), energy (ATP) use, and how things get in/ out of the cell (protein channels and the types of channels vs. using the membrane itself). Answer these questions in the appropriate place in your notes packet.

PowerPoint Lecture Outlines to accompany Hole s Human Anatomy and Physiology Tenth Edition Shier w Butler w Lewis Chapter 3: Part II Organelles Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 3-1

Endoplasmic Reticulum Endoplasmic Reticulum connected, membrane-bound sacs, canals, and vesicles Connected to nucleus Communicate with the cell membrane transport system 3-8

(ER) rough ER studded with ribosomes protein and lipid synthesis smooth ER lipid synthesis break down of drugs Break down of lipids Cell with many ER would be those responsible for making proteins, as well as those that are used to break down drugs Products of ER used to make new cell membrane pieces 3-8

Ribosomes free floating or connected to ER (rough ER) site of protein synthesis (link AAs to form proteins) Made from proteins and RNA (rrna) 3-8

Golgi Apparatus/ Bodies group of flattened, membranous sacs (cisternae) Connect to the ER (which coming out of the nucleus) packages and modifies proteins (adds carbohydrates, lipids etc as needed) 3-9

Golgi Pieces bud off and become vesicles that can release contents to the cell (vesicle trafficking) or outside of the cell (secretory vesicles that break out) Common in white blood cells and liver cells, or those that make protein hormones (like insulin) 3-9

Golgi Pieces bud off and become vesicles that can release contents to the cell (vesicle trafficking) or outside of the cell ( secretory vesicles that break out) Common in white blood cells and liver cells, or those that make protein hormones (like insulin) 3-9

Mitochondria membranous sacs with inner partitions generate energy by making ATP from sugars and oxygen (from the foods we eat as well as the air we breathe) Powerhouse of the cell 3-9

Mitochondria double membrane bound structure Inner membrane folds are the cristae, which have enzymes on them and control the chemical reactions that release energy (ATP) The stuff in between the fold is the matrix 3-9

Mitochondria Have own DNA Get mitochondrial DNA from mom only (mitochondrial Eve- tracing ancestors) Possible once a primitive cell Resemble bacteria? Bacteria taken into cells? Typical cell has 1700 mitochondria; more in cells that need a lot of energy (like muscles) 3-9

Lysosomes Lysosomes enzyme-containing sack Sack of membrane digest worn out cell parts or unwanted substances by using enzymes (40 types, at least) Called the suicide sack because breaking it open would digest cell contents 3-10

Peroxisomes Peroxisomes sacks of phospholipid membrane break down organic molecules (like drug, alcohol, or food molecules) by using enzymes Peroxidases- make hydrogen peroxide (H 2 O 2 ) when breaking down molecules H 2 O 2 is destructive to cells so must be removed Catalase- breaks down hydrogen peroxide 40 other types Abundant in liver 3-10

Centrosomes Centrosome two rod-like centrioles (made from proteins) used to produce cilia and flagella distributes chromosomes during cell division (mitosis) in animal cells 3-10

Cilia Cilia short hair-like projections propel substances on cell surface In respiratory tract (Smoker s cough) Lining of fallopian tubes to propel egg In bacteria, they move the cell around 3-11

Flagellum Flagellum long tail-like projection Made from microtubules provides motility to sperm Animation link 1 Animation link 2 3-11

Vesicles Vesicles membranous sacs (phospholipid membrane) formed from Pinched in pieces of cell membrane Pieces of Golgi or ER that have broken off store substances (can be just about anything- water, nutrients, enzymes, other proteins or substances that the cell has made) 3-12

Microfilaments and Microtubules Microfilaments (smaller) and microtubules (larger) thin rods and tubules of protein support cytoplasm Give shape, structure allows for movement of organelles (pull organelles around- like Mr. Gadget arms Important during mitosis/ meiosis animation 3-12

Inclusions Inclusions Chemicals in the cytoplasm Stored nutrients Glycogen, lipids Temporary- will go in or out over time Ex: melanin in skin- a tan goes away over time 3-12

Cell Nucleus control center of cell; involved with directing the cell when to make certain materials (usually proteins) Surrounded by a nuclear envelope porous double membrane (phospholipid with over 1000 types of proteins) separates nucleoplasm from cytoplasm Allows mrna out to make proteins (translation) Controls entry into and exit out of the nucleus 3-13

Cell Nucleus nucleolus (little nucleus) dense collection of RNA and proteins At least one per nucleus site of ribosome production Larger if protein making cells Nucleoplasm The goo that is in the nucleus and nucleolus 3-13

Cell Nucleus chromatin (colored substance) fibers of DNA and proteins (histones) Look like beads on a string stores information for synthesis of proteins 3-13

First animation From the nucleus to the golgi bodies Overall cell review of organelles

Links to animations, ect Diffusion links: http://www.biosci.ohiou.edu/introbioslab/bios170/diffusion/diffusion.html Osmosis Links: http://zoology.okstate.edu/zoo_lrc/biol1114/tutorials/flash/osmosis_animation.htm http://lewis.eeb.uconn.edu/lewishome/applets/osmosis/osmosis.html Interactive cellular transport: http://www.wiley.com/legacy/college/boyer/0470003790/animations/membrane_transport/ membrane_transport.htm http://www.connect.ab.ca/~lburns/students_tenunit2note.html Interactive tutorial/ Quizzes http://science.nhmccd.edu/biol/osotutor.html

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Cell links Cell structure:comparisons between cell types http://www.wiley.com/legacy/college/boyer/ 0470003790/animations/cell_structure/ cell_structure.htm Cell structure and function http://www.wisc-online.com/objects/index.asp? objid=ap11403 (right click on the here to start, and select play)

Just some good animation links http://www.stolaf.edu/people/giannini/ biological%20anamations.html http://science.nhmccd.edu/biol/bio1int.htm