Chapter 3 The Cellular Level of

Organization

A Generalized Cell: Animal Model1. Plasma membrane

2. Cytoplasm

3. Nucleus

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A Generalized Cell

1. Plasma membrane forms the cell’s outer boundary separates the cell’s internal environment from

the outside environment is a selective barrier plays a role in cellular communication

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A Generalized Cell

2. Cytoplasm all the cellular contents between the plasma

membrane and the nucleus cytosol: the fluid portion, mostly water organelles: sub-cellular structures having

characteristic shapes and specific functions

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A Generalized Cell

3. Nucleus large organelle that contains DNA contains chromosomes, each of which

consists of a single molecule of DNA and associated proteins

a chromosome contains thousands of hereditary units called genes

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Plasma Membrane

Flexible yet sturdy barrier The fluid mosaic model - the arrangement of

molecules within the membrane resembles a sea of lipids containing many types of proteins Fluid inside of bilayer consistency of olive oil Mosaic of proteins

The lipids act as a selective barrier to certain substances

The proteins act as “gatekeepers” to certain molecules and ions

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Structure of a Membrane

Consists of a lipid bilayer – made up of phospholipids (amphipathic), cholesterol and glycolipids

Integral/transmembrane proteins – extend into or through the lipid bilayer; most integral proteins, span the entire lipid bilayer

Peripheral proteins - attached to the inner or outer surface of the membrane, do not extend through it

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Structure of a Membrane

Glycoproteins – membrane proteins with a carbohydrate group attached that protrudes into the extracellular fluid

Glycocalyx – the “sugary coating” surrounding the membrane made up of the carbohydrate portions of the glycolipids and glycoproteins Self recognition Immune response - foreign antigens Adherence Protection Hydrophilic – attracting water

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Structure of the Plasma Membrane

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Functions of Membrane Proteins Some integral proteins are ion channels Transporters – selectively move substances

through the membrane Receptors – for cellular recognition; a ligand

is a molecule that binds with a receptor Enzymes - catalyze chemical reactions Others act as cell-identity markers (blood

groups ABO) Attachment to neighboring cells

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Selective Membrane Permeability The cell’s membrane is either permeable or

impermeable to certain substances The lipid bilayer is permeable to oxygen,

carbon dioxide, water and steroids, but impermeable to glucose

Transmembrane proteins act as channels and transporters to assist the entrance of certain substances, for example, glucose and ions

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Passive vs. Active Processes

Passive:1. substances move across cell membranes

without the input of any energy2. with or down the gradient3. lipid soluble

Active:1. energy usually from hydrolysis of ATP2. carrier protein3. gradient independent usually against a

concentration gradient

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03_table_01

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Diffusion

Factors affecting diffusion:

Steepness of concentration gradient

Temperature Mass of diffusing substance Surface area Diffusion distance Can substance readily cross

membrane?

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Simple Diffusion

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Osmosis Net movement of water through a

selectively permeable membrane from an area of high concentration of water (lower concentration of solutes) to one of lower concentration of water

Water can pass through plasma membrane in 2 ways:

1. through lipid bilayer by simple diffusion2. through aquaporins, integral membrane

proteins

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Tonicity

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Active Transport

Solutes are transported across plasma membranes with the use of energy

Gradient independent: from an area of lower concentration to an area of higher concentration

Carrier molecule / protein Example: sodium – potassium pump

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Transport in Vesicles

Vesicle - a small spherical sac formed by budding off from a membrane

Endocytosis - materials move into a cell in a vesicle formed from the plasma membrane 1. receptor-mediated endocytosis 2. Phagocytosis3. bulk-phase endocytosis (pinocytosis)

Exocytosis - vesicles fuse with the plasma membrane, releasing their contents into the extracellular fluid

Transcytosis - a combination of endocytosis and exocytosis

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Organelles

Ribosomes - sites of protein synthesis Endoplasmic reticulum - network of membranes in

the shape of flattened sacs or tubules Rough ER – connected to the nuclear

envelope, a series of flattened sacs, surface is studded with ribosomes, produces various proteins

Smooth ER – a network of membrane bound tubules without ribosomes, synthesizes fatty acids and steroids, detoxifies certain drugs, and stores calcium

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Endoplasmic Reticulum

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Organelles

Golgi complex - consists of 3-20 flattened, membranous sacs called cisternae

- modify, sort, and package proteins for transport to different destinations

- proteins are transported by various vesicles

Lysosomes - vesicles that form from the Golgi complex, contain powerful digestive enzymes

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Golgi Complex

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Organelles Mitochondria - the “powerhouses” of the cell

Generate ATP More prevalent in physiologically active cells:

muscles, liver and kidneys Inner and outer mitochondrial membranes Cristae - the series of folds of the inner

membrane Matrix - the large central fluid-filled cavity Self-replicate during times of increased cellular

demand or before cell division

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Mitochondria

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Organelles

Nucleus Spherical or oval shaped structure Usually most prominent feature of a cell Nuclear envelope – a double membrane that

separates the nucleus from the cytoplasm Nuclear pores – numerous openings in the nuclear

envelope, control movement of substances between nucleus and cytoplasm

Nucleolus – spherical body that produces ribosomes Genes – are the cell’s hereditary units, control

activities and structure of the cell Chromosomes – long molecules of DNA combined

with protein molecules

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End of Chapter 3

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