Cells: The Living Units: Part C

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Cells: The Living Units: Part C 3 Cells: The Living Units: Part C

Cytoplasm Located between plasma membrane and nucleus Cytosol Water with solutes (protein, salts, sugars, etc.) Cytoplasmic organelles Metabolic machinery of cell Inclusions Granules of glycogen or pigments, lipid droplets, vacuoles, and crystals

Cytoplasmic Organelles Membranous Mitochondria Peroxisomes Lysosomes Endoplasmic reticulum Golgi apparatus Nonmembranous Cytoskeleton Centrioles Ribosomes

Mitochondria Double-membrane structure with shelflike cristae Provide most of cell’s ATP via aerobic cellular respiration Contain their own DNA and RNA

Outer mitochondrial membrane Ribosome Mitochondrial DNA Inner Cristae Matrix (c) Enzymes (b) Figure 3.17

Ribosomes Granules containing protein and rRNA Site of protein synthesis Free ribosomes synthesize soluble proteins Membrane-bound ribosomes (on rough ER) synthesize proteins to be incorporated into membranes or exported from the cell

Endoplasmic Reticulum (ER) Interconnected tubes and parallel membranes enclosing cisternae Continuous with nuclear membrane Two varieties: Rough ER Smooth ER

(a) Diagrammatic view of smooth and rough ER Smooth ER Nuclear envelope Rough ER Ribosomes (a) Diagrammatic view of smooth and rough ER Figure 3.18a

Rough ER External surface studded with ribosomes Manufactures all secreted proteins Synthesizes membrane integral proteins and phospholipids

Smooth ER Tubules arranged in a looping network Enzyme (integral protein) functions: In the liver — lipid and cholesterol metabolism, breakdown of glycogen, and, along with kidneys, detoxification of drugs, pesticides, and carcinogens Synthesis of steroid-based hormones In intestinal cells—absorption, synthesis, and transport of fats In skeletal and cardiac muscle — storage and release of calcium

Golgi Apparatus Stacked and flattened membranous sacs Modifies, concentrates, and packages proteins and lipids Transport vessels from ER fuse with convex cis face of Golgi apparatus Proteins then pass through Golgi apparatus to trans face Secretory vesicles leave trans face of Golgi stack and move to designated parts of cell

destined for exocytosis Secretion by exocytosis Extracellular fluid Protein- containing vesicles pinch off rough ER and migrate to fuse with membranes of Golgi apparatus. 1 Rough ER ER membrane Phagosome Plasma mem- brane Proteins in cisterna Pathway C: Lysosome containing acid hydrolase enzymes Proteins are modified within the Golgi compartments. 2 Vesicle becomes lysosome Proteins are then packaged within different vesicle types, depending on their ultimate destination. 3 Secretory vesicle Golgi apparatus Pathway B: Vesicle membrane to be incorporated into plasma membrane Pathway A: Vesicle contents destined for exocytosis Secretion by exocytosis Extracellular fluid Figure 3.20

Lysosomes Spherical membranous bags containing digestive enzymes (acid hydrolases) Digest ingested bacteria, viruses, and toxins Degrade nonfunctional organelles Break down and release glycogen Break down bone to release Ca2+ Destroy cells in injured or nonuseful tissue (autolysis)

Endomembrane System Overall function Produce, store, and export biological molecules Degrade potentially harmful substances

Nucleus Nuclear envelope Smooth ER Rough ER Vesicle Golgi apparatus Plasma membrane Transport vesicle Lysosome Figure 3.22

Endomembrane System PLAY Animation: Endomembrane System

Peroxisomes Membranous sacs containing powerful oxidases and catalases Detoxify harmful or toxic substances Neutralize dangerous free radicals (highly reactive chemicals with unpaired electrons)

Cytoskeleton Elaborate series of rods throughout cytosol Microtubules Microfilaments Intermediate filaments

Microfilaments Dynamic actin strands attached to cytoplasmic side of plasma membrane Involved in cell motility, change in shape, endocytosis and exocytosis

Cellular Extensions Cilia and flagella Whiplike, motile extensions on surfaces of certain cells Contain microtubules and motor molecules Cilia move substances across cell surfaces Longer flagella propel whole cells (tail of sperm) PLAY Animation: Cilia and Flagella

Figure 3.27 Power, or propulsive, stroke Recovery stroke, when cilium is returning to its initial position 1 2 3 4 5 6 7 (a) Phases of ciliary motion. Layer of mucus Cell surface (b) Traveling wave created by the activity of many cilia acting together propels mucus across cell surfaces. Figure 3.27

Cellular Extensions Microvilli Fingerlike extensions of plasma membrane Increase surface area for absorption Core of actin filaments for stiffening

Microvillus Actin filaments Terminal web Figure 3.28

Nucleus Genetic library with blueprints for nearly all cellular proteins Responds to signals and dictates kinds and amounts of proteins to be synthesized Most cells are uninucleate Red blood cells are anucleate Skeletal muscle cells, bone destruction cells, and some liver cells are multinucleate

Chromatin (condensed) Nuclear pores Nuclear envelope Nucleus Chromatin (condensed) Nucleolus Cisternae of rough ER (a) Figure 3.29a

Nuclear Envelope Double-membrane barrier containing pores Outer layer is continuous with rough ER and bears ribosomes Inner lining (nuclear lamina) maintains shape of nucleus Pore complex regulates transport of large molecules into and out of nucleus

Surface of nuclear envelope. Fracture line of outer membrane Nuclear pores Nucleus Nuclear lamina. The netlike lamina composed of inter- mediate filaments formed by lamins lines the inner surface of the nuclear envelope. Nuclear pore complexes. Each pore is ringed by protein particles. (b) Figure 3.29b

Nucleoli Dark-staining spherical bodies within nucleus Involved in rRNA synthesis and ribosome subunit assembly

Chromatin Threadlike strands of DNA (30%), histone proteins (60%), and RNA (10%) Arranged in fundamental units called nucleosomes Condense into barlike bodies called chromosomes when the cell starts to divide

1 2 3 4 5 DNA double helix (2-nm diameter) Histones Chromatin (“beads on a string”) structure with nucleosomes 2 Linker DNA Nucleosome (10-nm diameter; eight histone proteins wrapped by two winds of the DNA double helix) (a) Tight helical fiber (30-nm diameter) 3 Looped domain structure (300-nm diameter) 4 Chromatid (700-nm diameter) 5 Metaphase chromosome (at midpoint of cell division) (b) Figure 3.30